# soledad.py # Copyright (C) 2014 LEAP # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Soledadad MailAdaptor module. """ import logging import re from collections import defaultdict from email import message_from_string from pycryptopp.hash import sha256 from twisted.internet import defer from twisted.python import log from zope.interface import implements import u1db from leap.common.check import leap_assert, leap_assert_type from leap.mail import constants from leap.mail import walk from leap.mail.adaptors import soledad_indexes as indexes from leap.mail.constants import INBOX_NAME from leap.mail.adaptors import models from leap.mail.imap.mailbox import normalize_mailbox from leap.mail.utils import lowerdict, first from leap.mail.utils import stringify_parts_map from leap.mail.interfaces import IMailAdaptor, IMessageWrapper from leap.soledad.common.document import SoledadDocument logger = logging.getLogger(__name__) # TODO # [ ] Convenience function to create mail specifying subject, date, etc? _MSGID_PATTERN = r"""<([\w@.]+)>""" _MSGID_RE = re.compile(_MSGID_PATTERN) class DuplicatedDocumentError(Exception): """ Raised when a duplicated document is detected. """ pass def cleanup_deferred_locks(): """ Need to use this from within trial to cleanup the reactor before each run. """ SoledadDocumentWrapper._k_locks = defaultdict(defer.DeferredLock) class SoledadDocumentWrapper(models.DocumentWrapper): """ A Wrapper object that can be manipulated, passed around, and serialized in a format that the Soledad Store understands. It ensures atomicity of the document operations on creation, update and deletion. """ # TODO we could also use a _dirty flag (in models) # TODO add a get_count() method ??? -- that is extended over u1db. # We keep a dictionary with DeferredLocks, that will be # unique to every subclass of SoledadDocumentWrapper. _k_locks = defaultdict(defer.DeferredLock) @classmethod def _get_klass_lock(cls): """ Get a DeferredLock that is unique for this subclass name. Used to lock the access to indexes in the `get_or_create` call for a particular DocumentWrapper. """ return cls._k_locks[cls.__name__] def __init__(self, doc_id=None, future_doc_id=None, **kwargs): self._doc_id = doc_id self._future_doc_id = future_doc_id self._lock = defer.DeferredLock() super(SoledadDocumentWrapper, self).__init__(**kwargs) @property def doc_id(self): return self._doc_id @property def future_doc_id(self): return self._future_doc_id def set_future_doc_id(self, doc_id): self._future_doc_id = doc_id def create(self, store, is_copy=False): """ Create the documents for this wrapper. Since this method will not check for duplication, the responsibility of avoiding duplicates is left to the caller. You might be interested in using `get_or_create` classmethod instead (that's the preferred way of creating documents from the wrapper object). :return: a deferred that will fire when the underlying Soledad document has been created. :rtype: Deferred """ leap_assert(self._doc_id is None, "This document already has a doc_id!") def update_doc_id(doc): self._doc_id = doc.doc_id self.set_future_doc_id(None) return doc def update_wrapper(failure): # In the case of some copies (for instance, from one folder to # another and back to the original folder), the document that we # want to insert already exists. In this case, putting it # and overwriting the document with that doc_id is the right thing # to do. failure.trap(u1db.errors.RevisionConflict) self._doc_id = self.future_doc_id self._future_doc_id = None return self.update(store) if self.future_doc_id is None: d = store.create_doc(self.serialize()) else: d = store.create_doc(self.serialize(), doc_id=self.future_doc_id) d.addCallback(update_doc_id) if is_copy: d.addErrback(update_wrapper) else: d.addErrback(self._catch_revision_conflict, self.future_doc_id) return d def update(self, store): """ Update the documents for this wrapper. :return: a deferred that will fire when the underlying Soledad document has been updated. :rtype: Deferred """ # the deferred lock guards against revision conflicts return self._lock.run(self._update, store) def _update(self, store): leap_assert(self._doc_id is not None, "Need to create doc before updating") def update_and_put_doc(doc): doc.content.update(self.serialize()) d = store.put_doc(doc) d.addErrback(self._catch_revision_conflict, doc.doc_id) return d d = store.get_doc(self._doc_id) d.addCallback(update_and_put_doc) return d def _catch_revision_conflict(self, failure, doc_id): # XXX We can have some RevisionConflicts if we try # to put the docs that are already there. # This can happen right now when creating/saving the cdocs # during a copy. Instead of catching and ignoring this # error, we should mark them in the copy so there is no attempt to # create/update them. failure.trap(u1db.errors.RevisionConflict) logger.debug("Got conflict while putting %s" % doc_id) def delete(self, store): """ Delete the documents for this wrapper. :return: a deferred that will fire when the underlying Soledad document has been deleted. :rtype: Deferred """ # the deferred lock guards against conflicts while updating return self._lock.run(self._delete, store) def _delete(self, store): leap_assert(self._doc_id is not None, "Need to create doc before deleting") # XXX might want to flag this DocumentWrapper to avoid # updating it by mistake. This could go in models.DocumentWrapper def delete_doc(doc): return store.delete_doc(doc) d = store.get_doc(self._doc_id) d.addCallback(delete_doc) return d @classmethod def get_or_create(cls, store, index, value): """ Get a unique DocumentWrapper by index, or create a new one if the matching query does not exist. :param index: the primary index for the model. :type index: str :param value: the value to query the primary index. :type value: str :return: a deferred that will be fired with the SoledadDocumentWrapper matching the index query, either existing or just created. :rtype: Deferred """ return cls._get_klass_lock().run( cls._get_or_create, store, index, value) @classmethod def _get_or_create(cls, store, index, value): # TODO shorten this method. assert store is not None assert index is not None assert value is not None def get_main_index(): try: return cls.model.__meta__.index except AttributeError: raise RuntimeError("The model is badly defined") # TODO separate into another method? def try_to_get_doc_from_index(indexes): values = [] idx_def = dict(indexes)[index] if len(idx_def) == 1: values = [value] else: main_index = get_main_index() fields = cls.model.serialize() for field in idx_def: if field == main_index: values.append(value) else: values.append(fields[field]) d = store.get_from_index(index, *values) return d def get_first_doc_if_any(docs): if not docs: return None if len(docs) > 1: raise DuplicatedDocumentError return docs[0] def wrap_existing_or_create_new(doc): if doc: return cls(doc_id=doc.doc_id, **doc.content) else: return create_and_wrap_new_doc() def create_and_wrap_new_doc(): # XXX use closure to store indexes instead of # querying for them again. d = store.list_indexes() d.addCallback(get_wrapper_instance_from_index) d.addCallback(return_wrapper_when_created) return d def get_wrapper_instance_from_index(indexes): init_values = {} idx_def = dict(indexes)[index] if len(idx_def) == 1: init_value = {idx_def[0]: value} return cls(**init_value) main_index = get_main_index() fields = cls.model.serialize() for field in idx_def: if field == main_index: init_values[field] = value else: init_values[field] = fields[field] return cls(**init_values) def return_wrapper_when_created(wrapper): d = wrapper.create(store) d.addCallback(lambda doc: wrapper) return d d = store.list_indexes() d.addCallback(try_to_get_doc_from_index) d.addCallback(get_first_doc_if_any) d.addCallback(wrap_existing_or_create_new) return d @classmethod def get_all(cls, store): """ Get a collection of wrappers around all the documents belonging to this kind. For this to work, the model.__meta__ needs to include a tuple with the index to be used for listing purposes, and which is the field to be used to query the index. Note that this method only supports indexes of a single field at the moment. It also might be too expensive to return all the documents matching the query, so handle with care. class __meta__(object): index = "name" list_index = ("by-type", "type_") :return: a deferred that will be fired with an iterable containing as many SoledadDocumentWrapper are matching the index defined in the model as the `list_index`. :rtype: Deferred """ # TODO LIST (get_all) # [ ] extend support to indexes with n-ples # [ ] benchmark the cost of querying and returning indexes in a big # database. This might badly need pagination before being put to # serious use. return cls._get_klass_lock().run(cls._get_all, store) @classmethod def _get_all(cls, store): try: list_index, list_attr = cls.model.__meta__.list_index except AttributeError: raise RuntimeError("The model is badly defined: no list_index") try: index_value = getattr(cls.model, list_attr) except AttributeError: raise RuntimeError("The model is badly defined: " "no attribute matching list_index") def wrap_docs(docs): return (cls(doc_id=doc.doc_id, **doc.content) for doc in docs) d = store.get_from_index(list_index, index_value) d.addCallback(wrap_docs) return d def __repr__(self): try: idx = getattr(self, self.model.__meta__.index) except AttributeError: idx = "" return "<%s: %s (%s)>" % (self.__class__.__name__, idx, self._doc_id) # # Message documents # class FlagsDocWrapper(SoledadDocumentWrapper): class model(models.SerializableModel): type_ = "flags" chash = "" mbox_uuid = "" seen = False deleted = False recent = False flags = [] tags = [] size = 0 multi = False class __meta__(object): index = "mbox" def set_mbox_uuid(self, mbox_uuid): # XXX raise error if already created, should use copy instead mbox_uuid = mbox_uuid.replace('-', '_') new_id = constants.FDOCID.format(mbox_uuid=mbox_uuid, chash=self.chash) self._future_doc_id = new_id self.mbox_uuid = mbox_uuid def get_flags(self): """ Get the flags for this message (as a tuple of strings, not unicode). """ return map(str, self.flags) class HeaderDocWrapper(SoledadDocumentWrapper): class model(models.SerializableModel): type_ = "head" chash = "" date = "" subject = "" headers = {} part_map = {} body = "" # link to phash of body msgid = "" multi = False class __meta__(object): index = "chash" class ContentDocWrapper(SoledadDocumentWrapper): class model(models.SerializableModel): type_ = "cnt" phash = "" ctype = "" # XXX index by ctype too? lkf = [] # XXX not implemented yet! raw = "" content_disposition = "" content_transfer_encoding = "" content_type = "" class __meta__(object): index = "phash" class MetaMsgDocWrapper(SoledadDocumentWrapper): class model(models.SerializableModel): type_ = "meta" fdoc = "" hdoc = "" cdocs = [] def set_mbox_uuid(self, mbox_uuid): # XXX raise error if already created, should use copy instead mbox_uuid = mbox_uuid.replace('-', '_') chash = re.findall(constants.FDOCID_CHASH_RE, self.fdoc)[0] new_id = constants.METAMSGID.format(mbox_uuid=mbox_uuid, chash=chash) new_fdoc_id = constants.FDOCID.format(mbox_uuid=mbox_uuid, chash=chash) self._future_doc_id = new_id self.fdoc = new_fdoc_id class MessageWrapper(object): # This could benefit of a DeferredLock to create/update all the # documents at the same time maybe, and defend against concurrent updates? implements(IMessageWrapper) def __init__(self, mdoc, fdoc, hdoc, cdocs=None, is_copy=False): """ Need at least a metamsg-document, a flag-document and a header-document to instantiate a MessageWrapper. Content-documents can be retrieved lazily. cdocs, if any, should be a dictionary in which the keys are ascending integers, beginning at one, and the values are dictionaries with the content of the content-docs. is_copy, if set to True, will only attempt to create mdoc and fdoc (because hdoc and cdocs are supposed to exist already) """ self._is_copy = is_copy def get_doc_wrapper(doc, cls): if isinstance(doc, SoledadDocument): doc_id = doc.doc_id doc = doc.content else: doc_id = None if not doc: doc = {} return cls(doc_id=doc_id, **doc) self.mdoc = get_doc_wrapper(mdoc, MetaMsgDocWrapper) self.fdoc = get_doc_wrapper(fdoc, FlagsDocWrapper) self.fdoc.set_future_doc_id(self.mdoc.fdoc) self.hdoc = get_doc_wrapper(hdoc, HeaderDocWrapper) self.hdoc.set_future_doc_id(self.mdoc.hdoc) if cdocs is None: cdocs = {} cdocs_keys = cdocs.keys() assert sorted(cdocs_keys) == range(1, len(cdocs_keys) + 1) self.cdocs = dict([ (key, get_doc_wrapper(doc, ContentDocWrapper)) for (key, doc) in cdocs.items()]) for doc_id, cdoc in zip(self.mdoc.cdocs, self.cdocs.values()): if cdoc.raw == "": log.msg("Empty raw field in cdoc %s" % doc_id) cdoc.set_future_doc_id(doc_id) def create(self, store, notify_just_mdoc=False, pending_inserts_dict={}): """ Create all the parts for this message in the store. :param store: an instance of Soledad :param notify_just_mdoc: if set to True, this method will return *only* the deferred corresponding to the creation of the meta-message document. Be warned that in that case there will be no record of failures when creating the other part-documents. Otherwise, this method will return a deferred that will wait for the creation of all the part documents. Setting this flag to True is mostly a convenient workaround for the fact that massive serial appends will take too much time, and in most of the cases the MUA will only switch to the mailbox where the appends have happened after a certain time, which in most of the times will be enough to have all the queued insert operations finished. :type notify_just_mdoc: bool :param pending_inserts_dict: a dictionary with the pending inserts ids. :type pending_inserts_dict: dict :return: a deferred whose callback will be called when either all the part documents have been written, or just the metamsg-doc, depending on the value of the notify_just_mdoc flag :rtype: defer.Deferred """ leap_assert(self.cdocs, "Need non empty cdocs to create the " "MessageWrapper documents") leap_assert(self.mdoc.doc_id is None, "Cannot create: mdoc has a doc_id") leap_assert(self.fdoc.doc_id is None, "Cannot create: fdoc has a doc_id") def unblock_pending_insert(result): if pending_inserts_dict: ci_headers = lowerdict(self.hdoc.headers) msgid = ci_headers.get('message-id', None) try: d = pending_inserts_dict[msgid] d.callback(msgid) except KeyError: pass return result # TODO check that the doc_ids in the mdoc are coherent self.d = [] mdoc_created = self.mdoc.create(store, is_copy=self._is_copy) fdoc_created = self.fdoc.create(store, is_copy=self._is_copy) mdoc_created.addErrback(lambda f: log.err(f)) fdoc_created.addErrback(lambda f: log.err(f)) self.d.append(mdoc_created) self.d.append(fdoc_created) if not self._is_copy: if self.hdoc.doc_id is None: self.d.append(self.hdoc.create(store)) for cdoc in self.cdocs.values(): if cdoc.doc_id is not None: # we could be just linking to an existing # content-doc. continue self.d.append(cdoc.create(store)) def log_all_inserted(result): log.msg("All parts inserted for msg!") return result self.all_inserted_d = defer.gatherResults(self.d, consumeErrors=True) self.all_inserted_d.addCallback(log_all_inserted) self.all_inserted_d.addCallback(unblock_pending_insert) self.all_inserted_d.addErrback(lambda failure: log.err(failure)) if notify_just_mdoc: return mdoc_created else: return self.all_inserted_d def update(self, store): """ Update the only mutable parts, which are within the flags document. """ return self.fdoc.update(store) def delete(self, store): # TODO # Eventually this would have to do the duplicate search or send for the # garbage collector. At least mdoc and t the mdoc and fdoc can be # unlinked. d = [] if self.mdoc.doc_id: d.append(self.mdoc.delete(store)) d.append(self.fdoc.delete(store)) return defer.gatherResults(d) def copy(self, store, new_mbox_uuid): """ Return a copy of this MessageWrapper in a new mailbox. :param store: an instance of Soledad, or anything that behaves alike. :param new_mbox_uuid: the uuid of the mailbox where we are copying this message to. :type new_mbox_uuid: str :rtype: MessageWrapper """ new_mdoc = self.mdoc.serialize() new_fdoc = self.fdoc.serialize() # the future doc_ids is properly set because we modified # the pointers in mdoc, which has precedence. new_wrapper = MessageWrapper(new_mdoc, new_fdoc, None, None, is_copy=True) new_wrapper.hdoc = self.hdoc new_wrapper.cdocs = self.cdocs new_wrapper.set_mbox_uuid(new_mbox_uuid) # XXX could flag so that it only creates mdoc/fdoc... d = new_wrapper.create(store) d.addCallback(lambda result: new_wrapper) d.addErrback(lambda failure: log.err(failure)) return d def set_mbox_uuid(self, mbox_uuid): """ Set the mailbox for this wrapper. This method should only be used before the Documents for the MessageWrapper have been created, will raise otherwise. """ mbox_uuid = mbox_uuid.replace('-', '_') self.mdoc.set_mbox_uuid(mbox_uuid) self.fdoc.set_mbox_uuid(mbox_uuid) def set_flags(self, flags): # TODO serialize the get + update if flags is None: flags = tuple() leap_assert_type(flags, tuple) self.fdoc.flags = list(flags) self.fdoc.deleted = "\\Deleted" in flags self.fdoc.seen = "\\Seen" in flags self.fdoc.recent = "\\Recent" in flags def set_tags(self, tags): # TODO serialize the get + update if tags is None: tags = tuple() leap_assert_type(tags, tuple) self.fdoc.tags = list(tags) def set_date(self, date): # XXX assert valid date format self.hdoc.date = date def get_subpart_dict(self, index): """ :param index: the part to lookup, 1-indexed :type index: int :rtype: dict """ return self.hdoc.part_map[str(index)] def get_subpart_indexes(self): return self.hdoc.part_map.keys() def get_body(self, store): """ :rtype: deferred """ body_phash = self.hdoc.body if not body_phash: if self.cdocs: return self.cdocs[1] d = store.get_doc('C-' + body_phash) d.addCallback(lambda doc: ContentDocWrapper(**doc.content)) return d # # Mailboxes # class MailboxWrapper(SoledadDocumentWrapper): class model(models.SerializableModel): type_ = "mbox" mbox = INBOX_NAME uuid = None flags = [] recent = [] created = 1 closed = False subscribed = False class __meta__(object): index = "mbox" list_index = (indexes.TYPE_IDX, 'type_') # # Soledad Adaptor # class SoledadIndexMixin(object): """ This will need a class attribute `indexes`, that is a dictionary containing the index definitions for the underlying u1db store underlying soledad. It needs to be in the following format: {'index-name': ['field1', 'field2']} You can also add a class attribute `wait_for_indexes` to any class inheriting from this Mixin, that should be a list of strings representing the methods that need to wait until the indexes have been initialized before being able to work properly. """ # TODO move this mixin to soledad itself # so that each application can pass a set of indexes for their data model. # TODO could have a wrapper class for indexes, supporting introspection # and __getattr__ # TODO make this an interface? indexes = {} wait_for_indexes = [] store_ready = False def initialize_store(self, store): """ Initialize the indexes in the database. :param store: store :returns: a Deferred that will fire when the store is correctly initialized. :rtype: deferred """ # TODO I think we *should* get another deferredLock in here, but # global to the soledad namespace, to protect from several points # initializing soledad indexes at the same time. self._wait_for_indexes() d = self._init_indexes(store) d.addCallback(self._restore_waiting_methods) return d def _init_indexes(self, store): """ Initialize the database indexes. """ leap_assert(store, "Cannot init indexes with null soledad") leap_assert_type(self.indexes, dict) def _create_index(name, expression): return store.create_index(name, *expression) def init_idexes(indexes): deferreds = [] db_indexes = dict(indexes) # Loop through the indexes we expect to find. for name, expression in self.indexes.items(): if name not in db_indexes: # The index does not yet exist. d = _create_index(name, expression) deferreds.append(d) elif expression != db_indexes[name]: # The index exists but the definition is not what expected, # so we delete it and add the proper index expression. d = store.delete_index(name) d.addCallback( lambda _: _create_index(name, *expression)) deferreds.append(d) return defer.gatherResults(deferreds, consumeErrors=True) def store_ready(whatever): self.store_ready = True return whatever self.deferred_indexes = store.list_indexes() self.deferred_indexes.addCallback(init_idexes) self.deferred_indexes.addCallback(store_ready) return self.deferred_indexes def _wait_for_indexes(self): """ Make the marked methods to wait for the indexes to be ready. Heavily based on http://blogs.fluidinfo.com/terry/2009/05/11/a-mixin-class-allowing-python-__init__-methods-to-work-with-twisted-deferreds/ :param methods: methods that need to wait for the indexes to be ready :type methods: tuple(str) """ leap_assert_type(self.wait_for_indexes, list) methods = self.wait_for_indexes self.waiting = [] self.stored = {} def makeWrapper(method): def wrapper(*args, **kw): d = defer.Deferred() d.addCallback(lambda _: self.stored[method](*args, **kw)) self.waiting.append(d) return d return wrapper for method in methods: self.stored[method] = getattr(self, method) setattr(self, method, makeWrapper(method)) def _restore_waiting_methods(self, _): for method in self.stored: setattr(self, method, self.stored[method]) for d in self.waiting: d.callback(None) class SoledadMailAdaptor(SoledadIndexMixin): implements(IMailAdaptor) store = None indexes = indexes.MAIL_INDEXES wait_for_indexes = ['get_or_create_mbox', 'update_mbox', 'get_all_mboxes'] mboxwrapper_klass = MailboxWrapper def __init__(self): SoledadIndexMixin.__init__(self) # Message handling def get_msg_from_string(self, MessageClass, raw_msg): """ Get an instance of a MessageClass initialized with a MessageWrapper that contains all the parts obtained from parsing the raw string for the message. :param MessageClass: any Message class that can be initialized passing an instance of an IMessageWrapper implementor. :type MessageClass: type :param raw_msg: a string containing the raw email message. :type raw_msg: str :rtype: MessageClass instance. """ assert(MessageClass is not None) mdoc, fdoc, hdoc, cdocs = _split_into_parts(raw_msg) return self.get_msg_from_docs( MessageClass, mdoc, fdoc, hdoc, cdocs) def get_msg_from_docs(self, MessageClass, mdoc, fdoc, hdoc, cdocs=None, uid=None): """ Get an instance of a MessageClass initialized with a MessageWrapper that contains the passed part documents. This is not the recommended way of obtaining a message, unless you know how to take care of ensuring the internal consistency between the part documents, or unless you are glueing together the part documents that have been previously generated by `get_msg_from_string`. :param MessageClass: any Message class that can be initialized passing an instance of an IMessageWrapper implementor. :type MessageClass: type :param fdoc: a dictionary containing values from which a FlagsDocWrapper can be initialized :type fdoc: dict :param hdoc: a dictionary containing values from which a HeaderDocWrapper can be initialized :type hdoc: dict :param cdocs: None, or a dictionary mapping integers (1-indexed) to dicts from where a ContentDocWrapper can be initialized. :type cdocs: dict, or None :rtype: MessageClass instance. """ assert(MessageClass is not None) return MessageClass(MessageWrapper(mdoc, fdoc, hdoc, cdocs), uid=uid) def get_msg_from_mdoc_id(self, MessageClass, store, mdoc_id, uid=None, get_cdocs=False): def wrap_meta_doc(doc): cls = MetaMsgDocWrapper return cls(doc_id=doc.doc_id, **doc.content) def get_part_docs_from_mdoc_wrapper(wrapper): d_docs = [] d_docs.append(store.get_doc(wrapper.fdoc)) d_docs.append(store.get_doc(wrapper.hdoc)) for cdoc in wrapper.cdocs: d_docs.append(store.get_doc(cdoc)) def add_mdoc(doc_list): return [wrapper.serialize()] + doc_list d = defer.gatherResults(d_docs) d.addCallback(add_mdoc) return d def get_parts_doc_from_mdoc_id(): mbox = re.findall(constants.METAMSGID_MBOX_RE, mdoc_id)[0] chash = re.findall(constants.METAMSGID_CHASH_RE, mdoc_id)[0] def _get_fdoc_id_from_mdoc_id(): return constants.FDOCID.format(mbox_uuid=mbox, chash=chash) def _get_hdoc_id_from_mdoc_id(): return constants.HDOCID.format(mbox_uuid=mbox, chash=chash) d_docs = [] fdoc_id = _get_fdoc_id_from_mdoc_id() hdoc_id = _get_hdoc_id_from_mdoc_id() d_docs.append(store.get_doc(mdoc_id)) d_docs.append(store.get_doc(fdoc_id)) d_docs.append(store.get_doc(hdoc_id)) d = defer.gatherResults(d_docs) return d if get_cdocs: d = store.get_doc(mdoc_id) d.addCallback(wrap_meta_doc) d.addCallback(get_part_docs_from_mdoc_wrapper) else: d = get_parts_doc_from_mdoc_id() d.addCallback(self._get_msg_from_variable_doc_list, msg_class=MessageClass, uid=uid) return d def _get_msg_from_variable_doc_list(self, doc_list, msg_class, uid=None): if len(doc_list) == 3: mdoc, fdoc, hdoc = doc_list cdocs = None elif len(doc_list) > 3: # XXX is this case used? mdoc, fdoc, hdoc = doc_list[:3] cdocs = dict(enumerate(doc_list[3:], 1)) return self.get_msg_from_docs( msg_class, mdoc, fdoc, hdoc, cdocs, uid=uid) def get_flags_from_mdoc_id(self, store, mdoc_id): """ # XXX stuff here... """ mbox = re.findall(constants.METAMSGID_MBOX_RE, mdoc_id)[0] chash = re.findall(constants.METAMSGID_CHASH_RE, mdoc_id)[0] def _get_fdoc_id_from_mdoc_id(): return constants.FDOCID.format(mbox_uuid=mbox, chash=chash) fdoc_id = _get_fdoc_id_from_mdoc_id() def wrap_fdoc(doc): if not doc: return cls = FlagsDocWrapper return cls(doc_id=doc.doc_id, **doc.content) def get_flags(fdoc_wrapper): if not fdoc_wrapper: return [] return fdoc_wrapper.get_flags() d = store.get_doc(fdoc_id) d.addCallback(wrap_fdoc) d.addCallback(get_flags) return d def create_msg(self, store, msg): """ :param store: an instance of soledad, or anything that behaves alike :param msg: a Message object. :return: a Deferred that is fired when all the underlying documents have been created. :rtype: defer.Deferred """ wrapper = msg.get_wrapper() return wrapper.create(store) def update_msg(self, store, msg): """ :param msg: a Message object. :param store: an instance of soledad, or anything that behaves alike :return: a Deferred that is fired when all the underlying documents have been updated (actually, it's only the fdoc that's allowed to update). :rtype: defer.Deferred """ wrapper = msg.get_wrapper() return wrapper.update(store) # batch deletion def del_all_flagged_messages(self, store, mbox_uuid): """ Delete all messages flagged as deleted. """ def err(failure): log.err(failure) def delete_fdoc_and_mdoc_flagged(fdocs): # low level here, not using the wrappers... # get meta doc ids from the flag doc ids fdoc_ids = [doc.doc_id for doc in fdocs] mdoc_ids = map(lambda s: "M" + s[1:], fdoc_ids) def delete_all_docs(mdocs, fdocs): mdocs = list(mdocs) doc_ids = [m.doc_id for m in mdocs] _d = [] docs = mdocs + fdocs for doc in docs: _d.append(store.delete_doc(doc)) d = defer.gatherResults(_d) # return the mdocs ids only d.addCallback(lambda _: doc_ids) return d d = store.get_docs(mdoc_ids) d.addCallback(delete_all_docs, fdocs) d.addErrback(err) return d type_ = FlagsDocWrapper.model.type_ uuid = mbox_uuid.replace('-', '_') deleted_index = indexes.TYPE_MBOX_DEL_IDX d = store.get_from_index(deleted_index, type_, uuid, "1") d.addCallbacks(delete_fdoc_and_mdoc_flagged, err) return d # count messages def get_count_unseen(self, store, mbox_uuid): """ Get the number of unseen messages for a given mailbox. :param store: instance of Soledad. :param mbox_uuid: the uuid for this mailbox. :rtype: int """ type_ = FlagsDocWrapper.model.type_ uuid = mbox_uuid.replace('-', '_') unseen_index = indexes.TYPE_MBOX_SEEN_IDX d = store.get_count_from_index(unseen_index, type_, uuid, "0") d.addErrback(self._errback) return d def get_count_recent(self, store, mbox_uuid): """ Get the number of recent messages for a given mailbox. :param store: instance of Soledad. :param mbox_uuid: the uuid for this mailbox. :rtype: int """ type_ = FlagsDocWrapper.model.type_ uuid = mbox_uuid.replace('-', '_') recent_index = indexes.TYPE_MBOX_RECENT_IDX d = store.get_count_from_index(recent_index, type_, uuid, "1") d.addErrback(self._errback) return d # search api def get_mdoc_id_from_msgid(self, store, mbox_uuid, msgid): """ Get the UID for a message with the passed msgid (the one in the headers msg-id). This is used by the MUA to retrieve the recently saved draft. """ type_ = HeaderDocWrapper.model.type_ uuid = mbox_uuid.replace('-', '_') msgid_index = indexes.TYPE_MSGID_IDX def get_mdoc_id(hdoc): if not hdoc: log.msg("Could not find a HDOC with MSGID %s" % msgid) return None hdoc = hdoc[0] mdoc_id = hdoc.doc_id.replace("H-", "M-%s-" % uuid) return mdoc_id d = store.get_from_index(msgid_index, type_, msgid) d.addCallback(get_mdoc_id) return d # Mailbox handling def get_or_create_mbox(self, store, name): """ Get the mailbox with the given name, or create one if it does not exist. :param store: instance of Soledad :param name: the name of the mailbox :type name: str """ index = indexes.TYPE_MBOX_IDX mbox = normalize_mailbox(name) return MailboxWrapper.get_or_create(store, index, mbox) def update_mbox(self, store, mbox_wrapper): """ Update the documents for a given mailbox. :param mbox_wrapper: MailboxWrapper instance :type mbox_wrapper: MailboxWrapper :return: a Deferred that will be fired when the mailbox documents have been updated. :rtype: defer.Deferred """ leap_assert_type(mbox_wrapper, SoledadDocumentWrapper) return mbox_wrapper.update(store) def delete_mbox(self, store, mbox_wrapper): leap_assert_type(mbox_wrapper, SoledadDocumentWrapper) return mbox_wrapper.delete(store) def get_all_mboxes(self, store): """ Retrieve a list with wrappers for all the mailboxes. :return: a deferred that will be fired with a list of all the MailboxWrappers found. :rtype: defer.Deferred """ return MailboxWrapper.get_all(store) def _errback(self, failure): log.err(failure) def _split_into_parts(raw): # TODO signal that we can delete the original message!----- # when all the processing is done. # TODO add the linked-from info ! # TODO add reference to the original message? # TODO populate Default FLAGS/TAGS (unseen?) # TODO seed propely the content_docs with defaults?? msg, parts, chash, multi = _parse_msg(raw) size = len(msg.as_string()) body_phash = walk.get_body_phash(msg) parts_map = walk.walk_msg_tree(parts, body_phash=body_phash) cdocs_list = list(walk.get_raw_docs(msg, parts)) cdocs_phashes = [c['phash'] for c in cdocs_list] mdoc = _build_meta_doc(chash, cdocs_phashes) fdoc = _build_flags_doc(chash, size, multi) hdoc = _build_headers_doc(msg, chash, body_phash, parts_map) # The MessageWrapper expects a dict, one-indexed cdocs = dict(enumerate(cdocs_list, 1)) return mdoc, fdoc, hdoc, cdocs def _parse_msg(raw): msg = message_from_string(raw) parts = walk.get_parts(msg) chash = sha256.SHA256(raw).hexdigest() multi = msg.is_multipart() return msg, parts, chash, multi def _build_meta_doc(chash, cdocs_phashes): _mdoc = MetaMsgDocWrapper() # FIXME passing the inbox name because we don't have the uuid at this # point. _mdoc.fdoc = constants.FDOCID.format(mbox_uuid=INBOX_NAME, chash=chash) _mdoc.hdoc = constants.HDOCID.format(chash=chash) _mdoc.cdocs = [constants.CDOCID.format(phash=p) for p in cdocs_phashes] return _mdoc.serialize() def _build_flags_doc(chash, size, multi): _fdoc = FlagsDocWrapper(chash=chash, size=size, multi=multi) return _fdoc.serialize() def _build_headers_doc(msg, chash, body_phash, parts_map): """ Assemble a headers document from the original parsed message, the content-hash, and the parts map. It takes into account possibly repeated headers. """ headers = defaultdict(list) for k, v in msg.items(): headers[k].append(v) # "fix" for repeated headers (as in "Received:" for k, v in headers.items(): newline = "\n%s: " % (k.lower(),) headers[k] = newline.join(v) lower_headers = lowerdict(dict(headers)) msgid = first(_MSGID_RE.findall( lower_headers.get('message-id', ''))) _hdoc = HeaderDocWrapper( chash=chash, headers=headers, body=body_phash, msgid=msgid) def copy_attr(headers, key, doc): if key in headers: setattr(doc, key, headers[key]) copy_attr(lower_headers, "subject", _hdoc) copy_attr(lower_headers, "date", _hdoc) hdoc = _hdoc.serialize() # add parts map to header doc # (body, multi, part_map) for key in parts_map: hdoc[key] = parts_map[key] return stringify_parts_map(hdoc)