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"""IMAP4 client. Based on RFC 2060. Public class: IMAP4 Public variable: Debug Public functions: Internaldate2tuple Int2AP ParseFlags Time2Internaldate """ # Author: Piers Lauder <piers@cs.su.oz.au> December 1997. # # Authentication code contributed by Donn Cave <donn@u.washington.edu> June 1998. # String method conversion by ESR, February 2001. # GET/SETACL contributed by Anthony Baxter <anthony@interlink.com.au> April 2001. # IMAP4_SSL contributed by Tino Lange <Tino.Lange@isg.de> March 2002. # GET/SETQUOTA contributed by Andreas Zeidler <az@kreativkombinat.de> June 2002. # PROXYAUTH contributed by Rick Holbert <holbert.13@osu.edu> November 2002. # GET/SETANNOTATION contributed by Tomas Lindroos <skitta@abo.fi> June 2005. __version__ = "2.58" import binascii, errno, random, re, socket, subprocess, sys, time, calendar from datetime import datetime, timezone, timedelta from io import DEFAULT_BUFFER_SIZE try: import ssl HAVE_SSL = True except ImportError: HAVE_SSL = False __all__ = ["IMAP4", "IMAP4_stream", "Internaldate2tuple", "Int2AP", "ParseFlags", "Time2Internaldate"] # Globals CRLF = b'\r\n' Debug = 0 IMAP4_PORT = 143 IMAP4_SSL_PORT = 993 AllowedVersions = ('IMAP4REV1', 'IMAP4') # Most recent first # Maximal line length when calling readline(). This is to prevent # reading arbitrary length lines. RFC 3501 and 2060 (IMAP 4rev1) # don't specify a line length. RFC 2683 suggests limiting client # command lines to 1000 octets and that servers should be prepared # to accept command lines up to 8000 octets, so we used to use 10K here. # In the modern world (eg: gmail) the response to, for example, a # search command can be quite large, so we now use 1M. _MAXLINE = 1000000 # Commands Commands = { # name valid states 'APPEND': ('AUTH', 'SELECTED'), 'AUTHENTICATE': ('NONAUTH',), 'CAPABILITY': ('NONAUTH', 'AUTH', 'SELECTED', 'LOGOUT'), 'CHECK': ('SELECTED',), 'CLOSE': ('SELECTED',), 'COPY': ('SELECTED',), 'CREATE': ('AUTH', 'SELECTED'), 'DELETE': ('AUTH', 'SELECTED'), 'DELETEACL': ('AUTH', 'SELECTED'), 'ENABLE': ('AUTH', ), 'EXAMINE': ('AUTH', 'SELECTED'), 'EXPUNGE': ('SELECTED',), 'FETCH': ('SELECTED',), 'GETACL': ('AUTH', 'SELECTED'), 'GETANNOTATION':('AUTH', 'SELECTED'), 'GETQUOTA': ('AUTH', 'SELECTED'), 'GETQUOTAROOT': ('AUTH', 'SELECTED'), 'MYRIGHTS': ('AUTH', 'SELECTED'), 'LIST': ('AUTH', 'SELECTED'), 'LOGIN': ('NONAUTH',), 'LOGOUT': ('NONAUTH', 'AUTH', 'SELECTED', 'LOGOUT'), 'LSUB': ('AUTH', 'SELECTED'), 'MOVE': ('SELECTED',), 'NAMESPACE': ('AUTH', 'SELECTED'), 'NOOP': ('NONAUTH', 'AUTH', 'SELECTED', 'LOGOUT'), 'PARTIAL': ('SELECTED',), # NB: obsolete 'PROXYAUTH': ('AUTH',), 'RENAME': ('AUTH', 'SELECTED'), 'SEARCH': ('SELECTED',), 'SELECT': ('AUTH', 'SELECTED'), 'SETACL': ('AUTH', 'SELECTED'), 'SETANNOTATION':('AUTH', 'SELECTED'), 'SETQUOTA': ('AUTH', 'SELECTED'), 'SORT': ('SELECTED',), 'STARTTLS': ('NONAUTH',), 'STATUS': ('AUTH', 'SELECTED'), 'STORE': ('SELECTED',), 'SUBSCRIBE': ('AUTH', 'SELECTED'), 'THREAD': ('SELECTED',), 'UID': ('SELECTED',), 'UNSUBSCRIBE': ('AUTH', 'SELECTED'), } # Patterns to match server responses Continuation = re.compile(br'\+( (?P<data>.*))?') Flags = re.compile(br'.*FLAGS \((?P<flags>[^\)]*)\)') InternalDate = re.compile(br'.*INTERNALDATE "' br'(?P<day>[ 0123][0-9])-(?P<mon>[A-Z][a-z][a-z])-(?P<year>[0-9][0-9][0-9][0-9])' br' (?P<hour>[0-9][0-9]):(?P<min>[0-9][0-9]):(?P<sec>[0-9][0-9])' br' (?P<zonen>[-+])(?P<zoneh>[0-9][0-9])(?P<zonem>[0-9][0-9])' br'"') # Literal is no longer used; kept for backward compatibility. Literal = re.compile(br'.*{(?P<size>\d+)}$', re.ASCII) MapCRLF = re.compile(br'\r\n|\r|\n') # We no longer exclude the ']' character from the data portion of the response # code, even though it violates the RFC. Popular IMAP servers such as Gmail # allow flags with ']', and there are programs (including imaplib!) that can # produce them. The problem with this is if the 'text' portion of the response # includes a ']' we'll parse the response wrong (which is the point of the RFC # restriction). However, that seems less likely to be a problem in practice # than being unable to correctly parse flags that include ']' chars, which # was reported as a real-world problem in issue #21815. Response_code = re.compile(br'\[(?P<type>[A-Z-]+)( (?P<data>.*))?\]') Untagged_response = re.compile(br'\* (?P<type>[A-Z-]+)( (?P<data>.*))?') # Untagged_status is no longer used; kept for backward compatibility Untagged_status = re.compile( br'\* (?P<data>\d+) (?P<type>[A-Z-]+)( (?P<data2>.*))?', re.ASCII) # We compile these in _mode_xxx. _Literal = br'.*{(?P<size>\d+)}$' _Untagged_status = br'\* (?P<data>\d+) (?P<type>[A-Z-]+)( (?P<data2>.*))?' class IMAP4: r"""IMAP4 client class. Instantiate with: IMAP4([host[, port]]) host - host's name (default: localhost); port - port number (default: standard IMAP4 port). All IMAP4rev1 commands are supported by methods of the same name (in lower-case). All arguments to commands are converted to strings, except for AUTHENTICATE, and the last argument to APPEND which is passed as an IMAP4 literal. If necessary (the string contains any non-printing characters or white-space and isn't enclosed with either parentheses or double quotes) each string is quoted. However, the 'password' argument to the LOGIN command is always quoted. If you want to avoid having an argument string quoted (eg: the 'flags' argument to STORE) then enclose the string in parentheses (eg: "(\Deleted)"). Each command returns a tuple: (type, [data, ...]) where 'type' is usually 'OK' or 'NO', and 'data' is either the text from the tagged response, or untagged results from command. Each 'data' is either a string, or a tuple. If a tuple, then the first part is the header of the response, and the second part contains the data (ie: 'literal' value). Errors raise the exception class <instance>.error("<reason>"). IMAP4 server errors raise <instance>.abort("<reason>"), which is a sub-class of 'error'. Mailbox status changes from READ-WRITE to READ-ONLY raise the exception class <instance>.readonly("<reason>"), which is a sub-class of 'abort'. "error" exceptions imply a program error. "abort" exceptions imply the connection should be reset, and the command re-tried. "readonly" exceptions imply the command should be re-tried. Note: to use this module, you must read the RFCs pertaining to the IMAP4 protocol, as the semantics of the arguments to each IMAP4 command are left to the invoker, not to mention the results. Also, most IMAP servers implement a sub-set of the commands available here. """ class error(Exception): pass # Logical errors - debug required class abort(error): pass # Service errors - close and retry class readonly(abort): pass # Mailbox status changed to READ-ONLY def __init__(self, host='', port=IMAP4_PORT): self.debug = Debug self.state = 'LOGOUT' self.literal = None # A literal argument to a command self.tagged_commands = {} # Tagged commands awaiting response self.untagged_responses = {} # {typ: [data, ...], ...} self.continuation_response = '' # Last continuation response self.is_readonly = False # READ-ONLY desired state self.tagnum = 0 self._tls_established = False self._mode_ascii() # Open socket to server. self.open(host, port) try: self._connect() except Exception: try: self.shutdown() except OSError: pass raise def _mode_ascii(self): self.utf8_enabled = False self._encoding = 'ascii' self.Literal = re.compile(_Literal, re.ASCII) self.Untagged_status = re.compile(_Untagged_status, re.ASCII) def _mode_utf8(self): self.utf8_enabled = True self._encoding = 'utf-8' self.Literal = re.compile(_Literal) self.Untagged_status = re.compile(_Untagged_status) def _connect(self): # Create unique tag for this session, # and compile tagged response matcher. self.tagpre = Int2AP(random.randint(4096, 65535)) self.tagre = re.compile(br'(?P<tag>' + self.tagpre + br'\d+) (?P<type>[A-Z]+) (?P<data>.*)', re.ASCII) # Get server welcome message, # request and store CAPABILITY response. if __debug__: self._cmd_log_len = 10 self._cmd_log_idx = 0 self._cmd_log = {} # Last `_cmd_log_len' interactions if self.debug >= 1: self._mesg('imaplib version %s' % __version__) self._mesg('new IMAP4 connection, tag=%s' % self.tagpre) self.welcome = self._get_response() if 'PREAUTH' in self.untagged_responses: self.state = 'AUTH' elif 'OK' in self.untagged_responses: self.state = 'NONAUTH' else: raise self.error(self.welcome) self._get_capabilities() if __debug__: if self.debug >= 3: self._mesg('CAPABILITIES: %r' % (self.capabilities,)) for version in AllowedVersions: if not version in self.capabilities: continue self.PROTOCOL_VERSION = version return raise self.error('server not IMAP4 compliant') def __getattr__(self, attr): # Allow UPPERCASE variants of IMAP4 command methods. if attr in Commands: return getattr(self, attr.lower()) raise AttributeError("Unknown IMAP4 command: '%s'" % attr) def __enter__(self): return self def __exit__(self, *args): if self.state == "LOGOUT": return try: self.logout() except OSError: pass # Overridable methods def _create_socket(self): # Default value of IMAP4.host is '', but socket.getaddrinfo() # (which is used by socket.create_connection()) expects None # as a default value for host. host = None if not self.host else self.host sys.audit("imaplib.open", self, self.host, self.port) return socket.create_connection((host, self.port)) def open(self, host = '', port = IMAP4_PORT): """Setup connection to remote server on "host:port" (default: localhost:standard IMAP4 port). This connection will be used by the routines: read, readline, send, shutdown. """ self.host = host self.port = port self.sock = self._create_socket() self.file = self.sock.makefile('rb') def read(self, size): """Read 'size' bytes from remote.""" return self.file.read(size) def readline(self): """Read line from remote.""" line = self.file.readline(_MAXLINE + 1) if len(line) > _MAXLINE: raise self.error("got more than %d bytes" % _MAXLINE) return line def send(self, data): """Send data to remote.""" sys.audit("imaplib.send", self, data) self.sock.sendall(data) def shutdown(self): """Close I/O established in "open".""" self.file.close() try: self.sock.shutdown(socket.SHUT_RDWR) except OSError as exc: # The server might already have closed the connection. # On Windows, this may result in WSAEINVAL (error 10022): # An invalid operation was attempted. if (exc.errno != errno.ENOTCONN and getattr(exc, 'winerror', 0) != 10022): raise finally: self.sock.close() def socket(self): """Return socket instance used to connect to IMAP4 server. socket = <instance>.socket() """ return self.sock # Utility methods def recent(self): """Return most recent 'RECENT' responses if any exist, else prompt server for an update using the 'NOOP' command. (typ, [data]) = <instance>.recent() 'data' is None if no new messages, else list of RECENT responses, most recent last. """ name = 'RECENT' typ, dat = self._untagged_response('OK', [None], name) if dat[-1]: return typ, dat typ, dat = self.noop() # Prod server for response return self._untagged_response(typ, dat, name) def response(self, code): """Return data for response 'code' if received, or None. Old value for response 'code' is cleared. (code, [data]) = <instance>.response(code) """ return self._untagged_response(code, [None], code.upper()) # IMAP4 commands def append(self, mailbox, flags, date_time, message): """Append message to named mailbox. (typ, [data]) = <instance>.append(mailbox, flags, date_time, message) All args except `message' can be None. """ name = 'APPEND' if not mailbox: mailbox = 'INBOX' if flags: if (flags[0],flags[-1]) != ('(',')'): flags = '(%s)' % flags else: flags = None if date_time: date_time = Time2Internaldate(date_time) else: date_time = None literal = MapCRLF.sub(CRLF, message) if self.utf8_enabled: literal = b'UTF8 (' + literal + b')' self.literal = literal return self._simple_command(name, mailbox, flags, date_time) def authenticate(self, mechanism, authobject): """Authenticate command - requires response processing. 'mechanism' specifies which authentication mechanism is to be used - it must appear in <instance>.capabilities in the form AUTH=<mechanism>. 'authobject' must be a callable object: data = authobject(response) It will be called to process server continuation responses; the response argument it is passed will be a bytes. It should return bytes data that will be base64 encoded and sent to the server. It should return None if the client abort response '*' should be sent instead. """ mech = mechanism.upper() # XXX: shouldn't this code be removed, not commented out? #cap = 'AUTH=%s' % mech #if not cap in self.capabilities: # Let the server decide! # raise self.error("Server doesn't allow %s authentication." % mech) self.literal = _Authenticator(authobject).process typ, dat = self._simple_command('AUTHENTICATE', mech) if typ != 'OK': raise self.error(dat[-1].decode('utf-8', 'replace')) self.state = 'AUTH' return typ, dat def capability(self): """(typ, [data]) = <instance>.capability() Fetch capabilities list from server.""" name = 'CAPABILITY' typ, dat = self._simple_command(name) return self._untagged_response(typ, dat, name) def check(self): """Checkpoint mailbox on server. (typ, [data]) = <instance>.check() """ return self._simple_command('CHECK') def close(self): """Close currently selected mailbox. Deleted messages are removed from writable mailbox. This is the recommended command before 'LOGOUT'. (typ, [data]) = <instance>.close() """ try: typ, dat = self._simple_command('CLOSE') finally: self.state = 'AUTH' return typ, dat def copy(self, message_set, new_mailbox): """Copy 'message_set' messages onto end of 'new_mailbox'. (typ, [data]) = <instance>.copy(message_set, new_mailbox) """ return self._simple_command('COPY', message_set, new_mailbox) def create(self, mailbox): """Create new mailbox. (typ, [data]) = <instance>.create(mailbox) """ return self._simple_command('CREATE', mailbox) def delete(self, mailbox): """Delete old mailbox. (typ, [data]) = <instance>.delete(mailbox) """ return self._simple_command('DELETE', mailbox) def deleteacl(self, mailbox, who): """Delete the ACLs (remove any rights) set for who on mailbox. (typ, [data]) = <instance>.deleteacl(mailbox, who) """ return self._simple_command('DELETEACL', mailbox, who) def enable(self, capability): """Send an RFC5161 enable string to the server. (typ, [data]) = <intance>.enable(capability) """ if 'ENABLE' not in self.capabilities: raise IMAP4.error("Server does not support ENABLE") typ, data = self._simple_command('ENABLE', capability) if typ == 'OK' and 'UTF8=ACCEPT' in capability.upper(): self._mode_utf8() return typ, data def expunge(self): """Permanently remove deleted items from selected mailbox. Generates 'EXPUNGE' response for each deleted message. (typ, [data]) = <instance>.expunge() 'data' is list of 'EXPUNGE'd message numbers in order received. """ name = 'EXPUNGE' typ, dat = self._simple_command(name) return self._untagged_response(typ, dat, name) def fetch(self, message_set, message_parts): """Fetch (parts of) messages. (typ, [data, ...]) = <instance>.fetch(message_set, message_parts) 'message_parts' should be a string of selected parts enclosed in parentheses, eg: "(UID BODY[TEXT])". 'data' are tuples of message part envelope and data. """ name = 'FETCH' typ, dat = self._simple_command(name, message_set, message_parts) return self._untagged_response(typ, dat, name) def getacl(self, mailbox): """Get the ACLs for a mailbox. (typ, [data]) = <instance>.getacl(mailbox) """ typ, dat = self._simple_command('GETACL', mailbox) return self._untagged_response(typ, dat, 'ACL') def getannotation(self, mailbox, entry, attribute): """(typ, [data]) = <instance>.getannotation(mailbox, entry, attribute) Retrieve ANNOTATIONs.""" typ, dat = self._simple_command('GETANNOTATION', mailbox, entry, attribute) return self._untagged_response(typ, dat, 'ANNOTATION') def getquota(self, root): """Get the quota root's resource usage and limits. Part of the IMAP4 QUOTA extension defined in rfc2087. (typ, [data]) = <instance>.getquota(root) """ typ, dat = self._simple_command('GETQUOTA', root) return self._untagged_response(typ, dat, 'QUOTA') def getquotaroot(self, mailbox): """Get the list of quota roots for the named mailbox. (typ, [[QUOTAROOT responses...], [QUOTA responses]]) = <instance>.getquotaroot(mailbox) """ typ, dat = self._simple_command('GETQUOTAROOT', mailbox) typ, quota = self._untagged_response(typ, dat, 'QUOTA') typ, quotaroot = self._untagged_response(typ, dat, 'QUOTAROOT') return typ, [quotaroot, quota] def list(self, directory='""', pattern='*'): """List mailbox names in directory matching pattern. (typ, [data]) = <instance>.list(directory='""', pattern='*') 'data' is list of LIST responses. """ name = 'LIST' typ, dat = self._simple_command(name, directory, pattern) return self._untagged_response(typ, dat, name) def login(self, user, password): """Identify client using plaintext password. (typ, [data]) = <instance>.login(user, password) NB: 'password' will be quoted. """ typ, dat = self._simple_command('LOGIN', user, self._quote(password)) if typ != 'OK': raise self.error(dat[-1]) self.state = 'AUTH' return typ, dat def login_cram_md5(self, user, password): """ Force use of CRAM-MD5 authentication. (typ, [data]) = <instance>.login_cram_md5(user, password) """ self.user, self.password = user, password return self.authenticate('CRAM-MD5', self._CRAM_MD5_AUTH) def _CRAM_MD5_AUTH(self, challenge): """ Authobject to use with CRAM-MD5 authentication. """ import hmac pwd = (self.password.encode('utf-8') if isinstance(self.password, str) else self.password) return self.user + " " + hmac.HMAC(pwd, challenge, 'md5').hexdigest() def logout(self): """Shutdown connection to server. (typ, [data]) = <instance>.logout() Returns server 'BYE' response. """ self.state = 'LOGOUT' typ, dat = self._simple_command('LOGOUT') self.shutdown() return typ, dat def lsub(self, directory='""', pattern='*'): """List 'subscribed' mailbox names in directory matching pattern. (typ, [data, ...]) = <instance>.lsub(directory='""', pattern='*') 'data' are tuples of message part envelope and data. """ name = 'LSUB' typ, dat = self._simple_command(name, directory, pattern) return self._untagged_response(typ, dat, name) def myrights(self, mailbox): """Show my ACLs for a mailbox (i.e. the rights that I have on mailbox). (typ, [data]) = <instance>.myrights(mailbox) """ typ,dat = self._simple_command('MYRIGHTS', mailbox) return self._untagged_response(typ, dat, 'MYRIGHTS') def namespace(self): """ Returns IMAP namespaces ala rfc2342 (typ, [data, ...]) = <instance>.namespace() """ name = 'NAMESPACE' typ, dat = self._simple_command(name) return self._untagged_response(typ, dat, name) def noop(self): """Send NOOP command. (typ, [data]) = <instance>.noop() """ if __debug__: if self.debug >= 3: self._dump_ur(self.untagged_responses) return self._simple_command('NOOP') def partial(self, message_num, message_part, start, length): """Fetch truncated part of a message. (typ, [data, ...]) = <instance>.partial(message_num, message_part, start, length) 'data' is tuple of message part envelope and data. """ name = 'PARTIAL' typ, dat = self._simple_command(name, message_num, message_part, start, length) return self._untagged_response(typ, dat, 'FETCH') def proxyauth(self, user): """Assume authentication as "user". Allows an authorised administrator to proxy into any user's mailbox. (typ, [data]) = <instance>.proxyauth(user) """ name = 'PROXYAUTH' return self._simple_command('PROXYAUTH', user) def rename(self, oldmailbox, newmailbox): """Rename old mailbox name to new. (typ, [data]) = <instance>.rename(oldmailbox, newmailbox) """ return self._simple_command('RENAME', oldmailbox, newmailbox) def search(self, charset, *criteria): """Search mailbox for matching messages. (typ, [data]) = <instance>.search(charset, criterion, ...) 'data' is space separated list of matching message numbers. If UTF8 is enabled, charset MUST be None. """ name = 'SEARCH' if charset: if self.utf8_enabled: raise IMAP4.error("Non-None charset not valid in UTF8 mode") typ, dat = self._simple_command(name, 'CHARSET', charset, *criteria) else: typ, dat = self._simple_command(name, *criteria) return self._untagged_response(typ, dat, name) def select(self, mailbox='INBOX', readonly=False): """Select a mailbox. Flush all untagged responses. (typ, [data]) = <instance>.select(mailbox='INBOX', readonly=False) 'data' is count of messages in mailbox ('EXISTS' response). Mandated responses are ('FLAGS', 'EXISTS', 'RECENT', 'UIDVALIDITY'), so other responses should be obtained via <instance>.response('FLAGS') etc. """ self.untagged_responses = {} # Flush old responses. self.is_readonly = readonly if readonly: name = 'EXAMINE' else: name = 'SELECT' typ, dat = self._simple_command(name, mailbox) if typ != 'OK': self.state = 'AUTH' # Might have been 'SELECTED' return typ, dat self.state = 'SELECTED' if 'READ-ONLY' in self.untagged_responses \ and not readonly: if __debug__: if self.debug >= 1: self._dump_ur(self.untagged_responses) raise self.readonly('%s is not writable' % mailbox) return typ, self.untagged_responses.get('EXISTS', [None]) def setacl(self, mailbox, who, what): """Set a mailbox acl. (typ, [data]) = <instance>.setacl(mailbox, who, what) """ return self._simple_command('SETACL', mailbox, who, what) def setannotation(self, *args): """(typ, [data]) = <instance>.setannotation(mailbox[, entry, attribute]+) Set ANNOTATIONs.""" typ, dat = self._simple_command('SETANNOTATION', *args) return self._untagged_response(typ, dat, 'ANNOTATION') def setquota(self, root, limits): """Set the quota root's resource limits. (typ, [data]) = <instance>.setquota(root, limits) """ typ, dat = self._simple_command('SETQUOTA', root, limits) return self._untagged_response(typ, dat, 'QUOTA') def sort(self, sort_criteria, charset, *search_criteria): """IMAP4rev1 extension SORT command. (typ, [data]) = <instance>.sort(sort_criteria, charset, search_criteria, ...) """ name = 'SORT' #if not name in self.capabilities: # Let the server decide! # raise self.error('unimplemented extension command: %s' % name) if (sort_criteria[0],sort_criteria[-1]) != ('(',')'): sort_criteria = '(%s)' % sort_criteria typ, dat = self._simple_command(name, sort_criteria, charset, *search_criteria) return self._untagged_response(typ, dat, name) def starttls(self, ssl_context=None): name = 'STARTTLS' if not HAVE_SSL: raise self.error('SSL support missing') if self._tls_established: raise self.abort('TLS session already established') if name not in self.capabilities: raise self.abort('TLS not supported by server') # Generate a default SSL context if none was passed. if ssl_context is None: ssl_context = ssl._create_stdlib_context() typ, dat = self._simple_command(name) if typ == 'OK': self.sock = ssl_context.wrap_socket(self.sock, server_hostname=self.host) self.file = self.sock.makefile('rb') self._tls_established = True self._get_capabilities() else: raise self.error("Couldn't establish TLS session") return self._untagged_response(typ, dat, name) def status(self, mailbox, names): """Request named status conditions for mailbox. (typ, [data]) = <instance>.status(mailbox, names) """ name = 'STATUS' #if self.PROTOCOL_VERSION == 'IMAP4': # Let the server decide! # raise self.error('%s unimplemented in IMAP4 (obtain IMAP4rev1 server, or re-code)' % name) typ, dat = self._simple_command(name, mailbox, names) return self._untagged_response(typ, dat, name) def store(self, message_set, command, flags): """Alters flag dispositions for messages in mailbox. (typ, [data]) = <instance>.store(message_set, command, flags) """ if (flags[0],flags[-1]) != ('(',')'): flags = '(%s)' % flags # Avoid quoting the flags typ, dat = self._simple_command('STORE', message_set, command, flags) return self._untagged_response(typ, dat, 'FETCH') def subscribe(self, mailbox): """Subscribe to new mailbox. (typ, [data]) = <instance>.subscribe(mailbox) """ return self._simple_command('SUBSCRIBE', mailbox) def thread(self, threading_algorithm, charset, *search_criteria): """IMAPrev1 extension THREAD command. (type, [data]) = <instance>.thread(threading_algorithm, charset, search_criteria, ...) """ name = 'THREAD' typ, dat = self._simple_command(name, threading_algorithm, charset, *search_criteria) return self._untagged_response(typ, dat, name) def uid(self, command, *args): """Execute "command arg ..." with messages identified by UID, rather than message number. (typ, [data]) = <instance>.uid(command, arg1, arg2, ...) Returns response appropriate to 'command'. """ command = command.upper() if not command in Commands: raise self.error("Unknown IMAP4 UID command: %s" % command) if self.state not in Commands[command]: raise self.error("command %s illegal in state %s, " "only allowed in states %s" % (command, self.state, ', '.join(Commands[command]))) name = 'UID' typ, dat = self._simple_command(name, command, *args) if command in ('SEARCH', 'SORT', 'THREAD'): name = command else: name = 'FETCH' return self._untagged_response(typ, dat, name) def unsubscribe(self, mailbox): """Unsubscribe from old mailbox. (typ, [data]) = <instance>.unsubscribe(mailbox) """ return self._simple_command('UNSUBSCRIBE', mailbox) def xatom(self, name, *args): """Allow simple extension commands notified by server in CAPABILITY response. Assumes command is legal in current state. (typ, [data]) = <instance>.xatom(name, arg, ...) Returns response appropriate to extension command `name'. """ name = name.upper() #if not name in self.capabilities: # Let the server decide! # raise self.error('unknown extension command: %s' % name) if not name in Commands: Commands[name] = (self.state,) return self._simple_command(name, *args) # Private methods def _append_untagged(self, typ, dat): if dat is None: dat = b'' ur = self.untagged_responses if __debug__: if self.debug >= 5: self._mesg('untagged_responses[%s] %s += ["%r"]' % (typ, len(ur.get(typ,'')), dat)) if typ in ur: ur[typ].append(dat) else: ur[typ] = [dat] def _check_bye(self): bye = self.untagged_responses.get('BYE') if bye: raise self.abort(bye[-1].decode(self._encoding, 'replace')) def _command(self, name, *args): if self.state not in Commands[name]: self.literal = None raise self.error("command %s illegal in state %s, " "only allowed in states %s" % (name, self.state, ', '.join(Commands[name]))) for typ in ('OK', 'NO', 'BAD'): if typ in self.untagged_responses: del self.untagged_responses[typ] if 'READ-ONLY' in self.untagged_responses \ and not self.is_readonly: raise self.readonly('mailbox status changed to READ-ONLY') tag = self._new_tag() name = bytes(name, self._encoding) data = tag + b' ' + name for arg in args: if arg is None: continue if isinstance(arg, str): arg = bytes(arg, self._encoding) data = data + b' ' + arg literal = self.literal if literal is not None: self.literal = None if type(literal) is type(self._command): literator = literal else: literator = None data = data + bytes(' {%s}' % len(literal), self._encoding) if __debug__: if self.debug >= 4: self._mesg('> %r' % data) else: self._log('> %r' % data) try: self.send(data + CRLF) except OSError as val: raise self.abort('socket error: %s' % val) if literal is None: return tag while 1: # Wait for continuation response while self._get_response(): if self.tagged_commands[tag]: # BAD/NO? return tag # Send literal if literator: literal = literator(self.continuation_response) if __debug__: if self.debug >= 4: self._mesg('write literal size %s' % len(literal)) try: self.send(literal) self.send(CRLF) except OSError as val: raise self.abort('socket error: %s' % val) if not literator: break return tag def _command_complete(self, name, tag): logout = (name == 'LOGOUT') # BYE is expected after LOGOUT if not logout: self._check_bye() try: typ, data = self._get_tagged_response(tag, expect_bye=logout) except self.abort as val: raise self.abort('command: %s => %s' % (name, val)) except self.error as val: raise self.error('command: %s => %s' % (name, val)) if not logout: self._check_bye() if typ == 'BAD': raise self.error('%s command error: %s %s' % (name, typ, data)) return typ, data def _get_capabilities(self): typ, dat = self.capability() if dat == [None]: raise self.error('no CAPABILITY response from server') dat = str(dat[-1], self._encoding) dat = dat.upper() self.capabilities = tuple(dat.split()) def _get_response(self): # Read response and store. # # Returns None for continuation responses, # otherwise first response line received. resp = self._get_line() # Command completion response? if self._match(self.tagre, resp): tag = self.mo.group('tag') if not tag in self.tagged_commands: raise self.abort('unexpected tagged response: %r' % resp) typ = self.mo.group('type') typ = str(typ, self._encoding) dat = self.mo.group('data') self.tagged_commands[tag] = (typ, [dat]) else: dat2 = None # '*' (untagged) responses? if not self._match(Untagged_response, resp): if self._match(self.Untagged_status, resp): dat2 = self.mo.group('data2') if self.mo is None: # Only other possibility is '+' (continuation) response... if self._match(Continuation, resp): self.continuation_response = self.mo.group('data') return None # NB: indicates continuation raise self.abort("unexpected response: %r" % resp) typ = self.mo.group('type') typ = str(typ, self._encoding) dat = self.mo.group('data') if dat is None: dat = b'' # Null untagged response if dat2: dat = dat + b' ' + dat2 # Is there a literal to come? while self._match(self.Literal, dat): # Read literal direct from connection. size = int(self.mo.group('size')) if __debug__: if self.debug >= 4: self._mesg('read literal size %s' % size) data = self.read(size) # Store response with literal as tuple self._append_untagged(typ, (dat, data)) # Read trailer - possibly containing another literal dat = self._get_line() self._append_untagged(typ, dat) # Bracketed response information? if typ in ('OK', 'NO', 'BAD') and self._match(Response_code, dat): typ = self.mo.group('type') typ = str(typ, self._encoding) self._append_untagged(typ, self.mo.group('data')) if __debug__: if self.debug >= 1 and typ in ('NO', 'BAD', 'BYE'): self._mesg('%s response: %r' % (typ, dat)) return resp def _get_tagged_response(self, tag, expect_bye=False): while 1: result = self.tagged_commands[tag] if result is not None: del self.tagged_commands[tag] return result if expect_bye: typ = 'BYE' bye = self.untagged_responses.pop(typ, None) if bye is not None: # Server replies to the "LOGOUT" command with "BYE" return (typ, bye) # If we've seen a BYE at this point, the socket will be # closed, so report the BYE now. self._check_bye() # Some have reported "unexpected response" exceptions. # Note that ignoring them here causes loops. # Instead, send me details of the unexpected response and # I'll update the code in `_get_response()'. try: self._get_response() except self.abort as val: if __debug__: if self.debug >= 1: self.print_log() raise def _get_line(self): line = self.readline() if not line: raise self.abort('socket error: EOF') # Protocol mandates all lines terminated by CRLF if not line.endswith(b'\r\n'): raise self.abort('socket error: unterminated line: %r' % line) line = line[:-2] if __debug__: if self.debug >= 4: self._mesg('< %r' % line) else: self._log('< %r' % line) return line def _match(self, cre, s): # Run compiled regular expression match method on 's'. # Save result, return success. self.mo = cre.match(s) if __debug__: if self.mo is not None and self.debug >= 5: self._mesg("\tmatched %r => %r" % (cre.pattern, self.mo.groups())) return self.mo is not None def _new_tag(self): tag = self.tagpre + bytes(str(self.tagnum), self._encoding) self.tagnum = self.tagnum + 1 self.tagged_commands[tag] = None return tag def _quote(self, arg): arg = arg.replace('\\', '\\\\') arg = arg.replace('"', '\\"') return '"' + arg + '"' def _simple_command(self, name, *args): return self._command_complete(name, self._command(name, *args)) def _untagged_response(self, typ, dat, name): if typ == 'NO': return typ, dat if not name in self.untagged_responses: return typ, [None] data = self.untagged_responses.pop(name) if __debug__: if self.debug >= 5: self._mesg('untagged_responses[%s] => %s' % (name, data)) return typ, data if __debug__: def _mesg(self, s, secs=None): if secs is None: secs = time.time() tm = time.strftime('%M:%S', time.localtime(secs)) sys.stderr.write(' %s.%02d %s\n' % (tm, (secs*100)%100, s)) sys.stderr.flush() def _dump_ur(self, dict): # Dump untagged responses (in `dict'). l = dict.items() if not l: return t = '\n\t\t' l = map(lambda x:'%s: "%s"' % (x[0], x[1][0] and '" "'.join(x[1]) or ''), l) self._mesg('untagged responses dump:%s%s' % (t, t.join(l))) def _log(self, line): # Keep log of last `_cmd_log_len' interactions for debugging. self._cmd_log[self._cmd_log_idx] = (line, time.time()) self._cmd_log_idx += 1 if self._cmd_log_idx >= self._cmd_log_len: self._cmd_log_idx = 0 def print_log(self): self._mesg('last %d IMAP4 interactions:' % len(self._cmd_log)) i, n = self._cmd_log_idx, self._cmd_log_len while n: try: self._mesg(*self._cmd_log[i]) except: pass i += 1 if i >= self._cmd_log_len: i = 0 n -= 1 if HAVE_SSL: class IMAP4_SSL(IMAP4): """IMAP4 client class over SSL connection Instantiate with: IMAP4_SSL([host[, port[, keyfile[, certfile[, ssl_context]]]]]) host - host's name (default: localhost); port - port number (default: standard IMAP4 SSL port); keyfile - PEM formatted file that contains your private key (default: None); certfile - PEM formatted certificate chain file (default: None); ssl_context - a SSLContext object that contains your certificate chain and private key (default: None) Note: if ssl_context is provided, then parameters keyfile or certfile should not be set otherwise ValueError is raised. for more documentation see the docstring of the parent class IMAP4. """ def __init__(self, host='', port=IMAP4_SSL_PORT, keyfile=None, certfile=None, ssl_context=None): if ssl_context is not None and keyfile is not None: raise ValueError("ssl_context and keyfile arguments are mutually " "exclusive") if ssl_context is not None and certfile is not None: raise ValueError("ssl_context and certfile arguments are mutually " "exclusive") if keyfile is not None or certfile is not None: import warnings warnings.warn("keyfile and certfile are deprecated, use a " "custom ssl_context instead", DeprecationWarning, 2) self.keyfile = keyfile self.certfile = certfile if ssl_context is None: ssl_context = ssl._create_stdlib_context(certfile=certfile, keyfile=keyfile) self.ssl_context = ssl_context IMAP4.__init__(self, host, port) def _create_socket(self): sock = IMAP4._create_socket(self) return self.ssl_context.wrap_socket(sock, server_hostname=self.host) def open(self, host='', port=IMAP4_SSL_PORT): """Setup connection to remote server on "host:port". (default: localhost:standard IMAP4 SSL port). This connection will be used by the routines: read, readline, send, shutdown. """ IMAP4.open(self, host, port) __all__.append("IMAP4_SSL") class IMAP4_stream(IMAP4): """IMAP4 client class over a stream Instantiate with: IMAP4_stream(command) "command" - a string that can be passed to subprocess.Popen() for more documentation see the docstring of the parent class IMAP4. """ def __init__(self, command): self.command = command IMAP4.__init__(self) def open(self, host = None, port = None): """Setup a stream connection. This connection will be used by the routines: read, readline, send, shutdown. """ self.host = None # For compatibility with parent class self.port = None self.sock = None self.file = None self.process = subprocess.Popen(self.command, bufsize=DEFAULT_BUFFER_SIZE, stdin=subprocess.PIPE, stdout=subprocess.PIPE, shell=True, close_fds=True) self.writefile = self.process.stdin self.readfile = self.process.stdout def read(self, size): """Read 'size' bytes from remote.""" return self.readfile.read(size) def readline(self): """Read line from remote.""" return self.readfile.readline() def send(self, data): """Send data to remote.""" self.writefile.write(data) self.writefile.flush() def shutdown(self): """Close I/O established in "open".""" self.readfile.close() self.writefile.close() self.process.wait() class _Authenticator: """Private class to provide en/decoding for base64-based authentication conversation. """ def __init__(self, mechinst): self.mech = mechinst # Callable object to provide/process data def process(self, data): ret = self.mech(self.decode(data)) if ret is None: return b'*' # Abort conversation return self.encode(ret) def encode(self, inp): # # Invoke binascii.b2a_base64 iteratively with # short even length buffers, strip the trailing # line feed from the result and append. "Even" # means a number that factors to both 6 and 8, # so when it gets to the end of the 8-bit input # there's no partial 6-bit output. # oup = b'' if isinstance(inp, str): inp = inp.encode('utf-8') while inp: if len(inp) > 48: t = inp[:48] inp = inp[48:] else: t = inp inp = b'' e = binascii.b2a_base64(t) if e: oup = oup + e[:-1] return oup def decode(self, inp): if not inp: return b'' return binascii.a2b_base64(inp) Months = ' Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec'.split(' ') Mon2num = {s.encode():n+1 for n, s in enumerate(Months[1:])} def Internaldate2tuple(resp): """Parse an IMAP4 INTERNALDATE string. Return corresponding local time. The return value is a time.struct_time tuple or None if the string has wrong format. """ mo = InternalDate.match(resp) if not mo: return None mon = Mon2num[mo.group('mon')] zonen = mo.group('zonen') day = int(mo.group('day')) year = int(mo.group('year')) hour = int(mo.group('hour')) min = int(mo.group('min')) sec = int(mo.group('sec')) zoneh = int(mo.group('zoneh')) zonem = int(mo.group('zonem')) # INTERNALDATE timezone must be subtracted to get UT zone = (zoneh*60 + zonem)*60 if zonen == b'-': zone = -zone tt = (year, mon, day, hour, min, sec, -1, -1, -1) utc = calendar.timegm(tt) - zone return time.localtime(utc) def Int2AP(num): """Convert integer to A-P string representation.""" val = b''; AP = b'ABCDEFGHIJKLMNOP' num = int(abs(num)) while num: num, mod = divmod(num, 16) val = AP[mod:mod+1] + val return val def ParseFlags(resp): """Convert IMAP4 flags response to python tuple.""" mo = Flags.match(resp) if not mo: return () return tuple(mo.group('flags').split()) def Time2Internaldate(date_time): """Convert date_time to IMAP4 INTERNALDATE representation. Return string in form: '"DD-Mmm-YYYY HH:MM:SS +HHMM"'. The date_time argument can be a number (int or float) representing seconds since epoch (as returned by time.time()), a 9-tuple representing local time, an instance of time.struct_time (as returned by time.localtime()), an aware datetime instance or a double-quoted string. In the last case, it is assumed to already be in the correct format. """ if isinstance(date_time, (int, float)): dt = datetime.fromtimestamp(date_time, timezone.utc).astimezone() elif isinstance(date_time, tuple): try: gmtoff = date_time.tm_gmtoff except AttributeError: if time.daylight: dst = date_time[8] if dst == -1: dst = time.localtime(time.mktime(date_time))[8] gmtoff = -(time.timezone, time.altzone)[dst] else: gmtoff = -time.timezone delta = timedelta(seconds=gmtoff) dt = datetime(*date_time[:6], tzinfo=timezone(delta)) elif isinstance(date_time, datetime): if date_time.tzinfo is None: raise ValueError("date_time must be aware") dt = date_time elif isinstance(date_time, str) and (date_time[0],date_time[-1]) == ('"','"'): return date_time # Assume in correct format else: raise ValueError("date_time not of a known type") fmt = '"%d-{}-%Y %H:%M:%S %z"'.format(Months[dt.month]) return dt.strftime(fmt) if __name__ == '__main__': # To test: invoke either as 'python imaplib.py [IMAP4_server_hostname]' # or 'python imaplib.py -s "rsh IMAP4_server_hostname exec /etc/rimapd"' # to test the IMAP4_stream class import getopt, getpass try: optlist, args = getopt.getopt(sys.argv[1:], 'd:s:') except getopt.error as val: optlist, args = (), () stream_command = None for opt,val in optlist: if opt == '-d': Debug = int(val) elif opt == '-s': stream_command = val if not args: args = (stream_command,) if not args: args = ('',) host = args[0] USER = getpass.getuser() PASSWD = getpass.getpass("IMAP password for %s on %s: " % (USER, host or "localhost")) test_mesg = 'From: %(user)s@localhost%(lf)sSubject: IMAP4 test%(lf)s%(lf)sdata...%(lf)s' % {'user':USER, 'lf':'\n'} test_seq1 = ( ('login', (USER, PASSWD)), ('create', ('/tmp/xxx 1',)), ('rename', ('/tmp/xxx 1', '/tmp/yyy')), ('CREATE', ('/tmp/yyz 2',)), ('append', ('/tmp/yyz 2', None, None, test_mesg)), ('list', ('/tmp', 'yy*')), ('select', ('/tmp/yyz 2',)), ('search', (None, 'SUBJECT', 'test')), ('fetch', ('1', '(FLAGS INTERNALDATE RFC822)')), ('store', ('1', 'FLAGS', r'(\Deleted)')), ('namespace', ()), ('expunge', ()), ('recent', ()), ('close', ()), ) test_seq2 = ( ('select', ()), ('response',('UIDVALIDITY',)), ('uid', ('SEARCH', 'ALL')), ('response', ('EXISTS',)), ('append', (None, None, None, test_mesg)), ('recent', ()), ('logout', ()), ) def run(cmd, args): M._mesg('%s %s' % (cmd, args)) typ, dat = getattr(M, cmd)(*args) M._mesg('%s => %s %s' % (cmd, typ, dat)) if typ == 'NO': raise dat[0] return dat try: if stream_command: M = IMAP4_stream(stream_command) else: M = IMAP4(host) if M.state == 'AUTH': test_seq1 = test_seq1[1:] # Login not needed M._mesg('PROTOCOL_VERSION = %s' % M.PROTOCOL_VERSION) M._mesg('CAPABILITIES = %r' % (M.capabilities,)) for cmd,args in test_seq1: run(cmd, args) for ml in run('list', ('/tmp/', 'yy%')): mo = re.match(r'.*"([^"]+)"$', ml) if mo: path = mo.group(1) else: path = ml.split()[-1] run('delete', (path,)) for cmd,args in test_seq2: dat = run(cmd, args) if (cmd,args) != ('uid', ('SEARCH', 'ALL')): continue uid = dat[-1].split() if not uid: continue run('uid', ('FETCH', '%s' % uid[-1], '(FLAGS INTERNALDATE RFC822.SIZE RFC822.HEADER RFC822.TEXT)')) print('\nAll tests OK.') except: print('\nTests failed.') if not Debug: print(''' If you would like to see debugging output, try: %s -d5 ''' % sys.argv[0]) raise