Mercurial > repos > gga > apollo_list_organism
view webapollo.py @ 3:aaf308a49899 draft
planemo upload for repository https://github.com/galaxy-genome-annotation/galaxy-tools/tree/master/tools/apollo commit 079b759c21c00200544a6d8d5521617dce8ca70d
| author | gga |
|---|---|
| date | Wed, 20 Sep 2017 09:44:54 -0400 |
| parents | c570db69288b |
| children | b69804a685e2 |
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from __future__ import print_function import argparse import collections import json import logging import os import time from abc import abstractmethod from builtins import next from builtins import object from builtins import str from BCBio import GFF from Bio import SeqIO from future import standard_library import requests standard_library.install_aliases() try: import StringIO as io except BaseException: import io logging.getLogger("requests").setLevel(logging.CRITICAL) log = logging.getLogger() ############################################# # BEGIN IMPORT OF CACHING LIBRARY # ############################################# # This code is licensed under the MIT # # License and is a copy of code publicly # # available in rev. # # e27332bc82f4e327aedaec17c9b656ae719322ed # # of https://github.com/tkem/cachetools/ # ############################################# class DefaultMapping(collections.MutableMapping): __slots__ = () @abstractmethod def __contains__(self, key): # pragma: nocover return False @abstractmethod def __getitem__(self, key): # pragma: nocover if hasattr(self.__class__, '__missing__'): return self.__class__.__missing__(self, key) else: raise KeyError(key) def get(self, key, default=None): if key in self: return self[key] else: return default __marker = object() def pop(self, key, default=__marker): if key in self: value = self[key] del self[key] elif default is self.__marker: raise KeyError(key) else: value = default return value def setdefault(self, key, default=None): if key in self: value = self[key] else: self[key] = value = default return value DefaultMapping.register(dict) class _DefaultSize(object): def __getitem__(self, _): return 1 def __setitem__(self, _, value): assert value == 1 def pop(self, _): return 1 class Cache(DefaultMapping): """Mutable mapping to serve as a simple cache or cache base class.""" __size = _DefaultSize() def __init__(self, maxsize, missing=None, getsizeof=None): if missing: self.__missing = missing if getsizeof: self.__getsizeof = getsizeof self.__size = dict() self.__data = dict() self.__currsize = 0 self.__maxsize = maxsize def __repr__(self): return '%s(%r, maxsize=%r, currsize=%r)' % ( self.__class__.__name__, list(self.__data.items()), self.__maxsize, self.__currsize, ) def __getitem__(self, key): try: return self.__data[key] except KeyError: return self.__missing__(key) def __setitem__(self, key, value): maxsize = self.__maxsize size = self.getsizeof(value) if size > maxsize: raise ValueError('value too large') if key not in self.__data or self.__size[key] < size: while self.__currsize + size > maxsize: self.popitem() if key in self.__data: diffsize = size - self.__size[key] else: diffsize = size self.__data[key] = value self.__size[key] = size self.__currsize += diffsize def __delitem__(self, key): size = self.__size.pop(key) del self.__data[key] self.__currsize -= size def __contains__(self, key): return key in self.__data def __missing__(self, key): value = self.__missing(key) try: self.__setitem__(key, value) except ValueError: pass # value too large return value def __iter__(self): return iter(self.__data) def __len__(self): return len(self.__data) @staticmethod def __getsizeof(value): return 1 @staticmethod def __missing(key): raise KeyError(key) @property def maxsize(self): """The maximum size of the cache.""" return self.__maxsize @property def currsize(self): """The current size of the cache.""" return self.__currsize def getsizeof(self, value): """Return the size of a cache element's value.""" return self.__getsizeof(value) class _Link(object): __slots__ = ('key', 'expire', 'next', 'prev') def __init__(self, key=None, expire=None): self.key = key self.expire = expire def __reduce__(self): return _Link, (self.key, self.expire) def unlink(self): next = self.next prev = self.prev prev.next = next next.prev = prev class _Timer(object): def __init__(self, timer): self.__timer = timer self.__nesting = 0 def __call__(self): if self.__nesting == 0: return self.__timer() else: return self.__time def __enter__(self): if self.__nesting == 0: self.__time = time = self.__timer() else: time = self.__time self.__nesting += 1 return time def __exit__(self, *exc): self.__nesting -= 1 def __reduce__(self): return _Timer, (self.__timer,) def __getattr__(self, name): return getattr(self.__timer, name) class TTLCache(Cache): """LRU Cache implementation with per-item time-to-live (TTL) value.""" def __init__(self, maxsize, ttl, timer=time.time, missing=None, getsizeof=None): Cache.__init__(self, maxsize, missing, getsizeof) self.__root = root = _Link() root.prev = root.next = root self.__links = collections.OrderedDict() self.__timer = _Timer(timer) self.__ttl = ttl def __contains__(self, key): try: link = self.__links[key] # no reordering except KeyError: return False else: return not (link.expire < self.__timer()) def __getitem__(self, key, cache_getitem=Cache.__getitem__): try: link = self.__getlink(key) except KeyError: expired = False else: expired = link.expire < self.__timer() if expired: return self.__missing__(key) else: return cache_getitem(self, key) def __setitem__(self, key, value, cache_setitem=Cache.__setitem__): with self.__timer as time: self.expire(time) cache_setitem(self, key, value) try: link = self.__getlink(key) except KeyError: self.__links[key] = link = _Link(key) else: link.unlink() link.expire = time + self.__ttl link.next = root = self.__root link.prev = prev = root.prev prev.next = root.prev = link def __delitem__(self, key, cache_delitem=Cache.__delitem__): cache_delitem(self, key) link = self.__links.pop(key) link.unlink() if link.expire < self.__timer(): raise KeyError(key) def __iter__(self): root = self.__root curr = root.next while curr is not root: # "freeze" time for iterator access with self.__timer as time: if not (curr.expire < time): yield curr.key curr = curr.next def __len__(self): root = self.__root curr = root.next time = self.__timer() count = len(self.__links) while curr is not root and curr.expire < time: count -= 1 curr = curr.next return count def __setstate__(self, state): self.__dict__.update(state) root = self.__root root.prev = root.next = root for link in sorted(self.__links.values(), key=lambda obj: obj.expire): link.next = root link.prev = prev = root.prev prev.next = root.prev = link self.expire(self.__timer()) def __repr__(self, cache_repr=Cache.__repr__): with self.__timer as time: self.expire(time) return cache_repr(self) @property def currsize(self): with self.__timer as time: self.expire(time) return super(TTLCache, self).currsize @property def timer(self): """The timer function used by the cache.""" return self.__timer @property def ttl(self): """The time-to-live value of the cache's items.""" return self.__ttl def expire(self, time=None): """Remove expired items from the cache.""" if time is None: time = self.__timer() root = self.__root curr = root.next links = self.__links cache_delitem = Cache.__delitem__ while curr is not root and curr.expire < time: cache_delitem(self, curr.key) del links[curr.key] next = curr.next curr.unlink() curr = next def clear(self): with self.__timer as time: self.expire(time) Cache.clear(self) def get(self, *args, **kwargs): with self.__timer: return Cache.get(self, *args, **kwargs) def pop(self, *args, **kwargs): with self.__timer: return Cache.pop(self, *args, **kwargs) def setdefault(self, *args, **kwargs): with self.__timer: return Cache.setdefault(self, *args, **kwargs) def popitem(self): """Remove and return the `(key, value)` pair least recently used that has not already expired. """ with self.__timer as time: self.expire(time) try: key = next(iter(self.__links)) except StopIteration: raise KeyError('%s is empty' % self.__class__.__name__) else: return (key, self.pop(key)) if hasattr(collections.OrderedDict, 'move_to_end'): def __getlink(self, key): value = self.__links[key] self.__links.move_to_end(key) return value else: def __getlink(self, key): value = self.__links.pop(key) self.__links[key] = value return value ############################################# # END IMPORT OF CACHING LIBRARY # ############################################# cache = TTLCache( 100, # Up to 100 items 5 * 60 # 5 minute cache life ) userCache = TTLCache( 2, # Up to 2 items 60 # 1 minute cache life ) class UnknownUserException(Exception): pass def WAAuth(parser): parser.add_argument('apollo', help='Complete Apollo URL') parser.add_argument('username', help='WA Username') parser.add_argument('password', help='WA Password') def OrgOrGuess(parser): parser.add_argument('--org_json', type=argparse.FileType("r"), help='Apollo JSON output, source for common name') parser.add_argument('--org_raw', help='Common Name') parser.add_argument('--org_id', help='Organism ID') def CnOrGuess(parser): OrgOrGuess(parser) parser.add_argument('--seq_fasta', type=argparse.FileType("r"), help='Fasta file, IDs used as sequence sources') parser.add_argument('--seq_raw', nargs='*', help='Sequence Names') def GuessOrg(args, wa): if args.org_json: orgs = [x.get('commonName', None) for x in json.load(args.org_json)] orgs = [x for x in orgs if x is not None] return orgs elif args.org_raw: org = args.org_raw.strip() if len(org) > 0: return [org] else: raise Exception("Organism Common Name not provided") elif args.org_id: return [wa.organisms.findOrganismById(args.org_id).get('commonName', None)] else: raise Exception("Organism Common Name not provided") def GuessCn(args, wa): org = GuessOrg(args, wa) seqs = [] if args.seq_fasta: # If we have a fasta, pull all rec ids from that. for rec in SeqIO.parse(args.seq_fasta, 'fasta'): seqs.append(rec.id) elif args.seq_raw: # Otherwise raw list. seqs = [x.strip() for x in args.seq_raw if len(x.strip()) > 0] return org, seqs def AssertUser(user_list): if len(user_list) == 0: raise UnknownUserException() elif len(user_list) == 1: return user_list[0] else: raise Exception("Too many users!") def AssertAdmin(user): if user.role == 'ADMIN': return True else: raise Exception("User is not an administrator. Permission denied") class WebApolloInstance(object): def __init__(self, url, username, password): self.apollo_url = url self.username = username self.password = password self.annotations = AnnotationsClient(self) self.groups = GroupsClient(self) self.io = IOClient(self) self.organisms = OrganismsClient(self) self.users = UsersClient(self) self.metrics = MetricsClient(self) self.bio = RemoteRecord(self) self.status = StatusClient(self) self.canned_comments = CannedCommentsClient(self) self.canned_keys = CannedKeysClient(self) self.canned_values = CannedValuesClient(self) def __str__(self): return '<WebApolloInstance at %s>' % self.apollo_url def requireUser(self, email): cacheKey = 'user-list' try: # Get the cached value data = userCache[cacheKey] except KeyError: # If we hit a key error above, indicating that # we couldn't find the key, we'll simply re-request # the data data = self.users.loadUsers() userCache[cacheKey] = data return AssertUser([x for x in data if x.username == email]) class GroupObj(object): def __init__(self, **kwargs): self.name = kwargs['name'] if 'id' in kwargs: self.groupId = kwargs['id'] class UserObj(object): ROLE_USER = 'USER' ROLE_ADMIN = 'ADMIN' def __init__(self, **kwargs): # Generally expect 'userId', 'firstName', 'lastName', 'username' (email) for attr in kwargs.keys(): setattr(self, attr, kwargs[attr]) if 'groups' in kwargs: groups = [] for groupData in kwargs['groups']: groups.append(GroupObj(**groupData)) self.groups = groups self.__props = kwargs.keys() def isAdmin(self): if hasattr(self, 'role'): return self.role == self.ROLE_ADMIN return False def refresh(self, wa): # This method requires some sleeping usually. newU = wa.users.loadUser(self).toDict() for prop in newU: setattr(self, prop, newU[prop]) def toDict(self): data = {} for prop in self.__props: data[prop] = getattr(self, prop) return data def orgPerms(self): for orgPer in self.organismPermissions: if len(orgPer['permissions']) > 2: orgPer['permissions'] = json.loads(orgPer['permissions']) yield orgPer def __str__(self): return '<User %s: %s %s <%s>>' % (self.userId, self.firstName, self.lastName, self.username) class Client(object): def __init__(self, webapolloinstance, **requestArgs): self._wa = webapolloinstance self.__verify = requestArgs.get('verify', True) self._requestArgs = requestArgs if 'verify' in self._requestArgs: del self._requestArgs['verify'] def request(self, clientMethod, data, post_params={}, isJson=True): url = self._wa.apollo_url + self.CLIENT_BASE + clientMethod headers = { 'Content-Type': 'application/json' } data.update({ 'username': self._wa.username, 'password': self._wa.password, }) r = requests.post(url, data=json.dumps(data), headers=headers, verify=self.__verify, params=post_params, allow_redirects=False, **self._requestArgs) if r.status_code == 200 or r.status_code == 302: if isJson: d = r.json() if 'username' in d: del d['username'] if 'password' in d: del d['password'] return d else: return r.text # @see self.body for HTTP response body raise Exception("Unexpected response from apollo %s: %s" % (r.status_code, r.text)) def get(self, clientMethod, get_params): url = self._wa.apollo_url + self.CLIENT_BASE + clientMethod headers = {} r = requests.get(url, headers=headers, verify=self.__verify, params=get_params, **self._requestArgs) if r.status_code == 200: d = r.json() if 'username' in d: del d['username'] if 'password' in d: del d['password'] return d # @see self.body for HTTP response body raise Exception("Unexpected response from apollo %s: %s" % (r.status_code, r.text)) class MetricsClient(Client): CLIENT_BASE = '/metrics/' def getServerMetrics(self): return self.get('metrics', {}) class AnnotationsClient(Client): CLIENT_BASE = '/annotationEditor/' def _update_data(self, data): if not hasattr(self, '_extra_data'): raise Exception("Please call setSequence first") data.update(self._extra_data) return data def setSequence(self, sequence, organism): self._extra_data = { 'sequence': sequence, 'organism': organism, } def setDescription(self, featureDescriptions): data = { 'features': featureDescriptions, } data = self._update_data(data) return self.request('setDescription', data) def setName(self, uniquename, name): # TODO data = { 'features': [ { 'uniquename': uniquename, 'name': name, } ], } data = self._update_data(data) return self.request('setName', data) def setNames(self, features): # TODO data = { 'features': features, } data = self._update_data(data) return self.request('setName', data) def setStatus(self, statuses): # TODO data = { 'features': statuses, } data = self._update_data(data) return self.request('setStatus', data) def setSymbol(self, symbols): data = { 'features': symbols, } data.update(self._extra_data) return self.request('setSymbol', data) def getComments(self, feature_id): data = { 'features': [{'uniquename': feature_id}], } data = self._update_data(data) return self.request('getComments', data) def addComments(self, feature_id, comments): # TODO: This is probably not great and will delete comments, if I had to guess... data = { 'features': [ { 'uniquename': feature_id, 'comments': comments } ], } data = self._update_data(data) return self.request('addComments', data) def addAttributes(self, feature_id, attributes): nrps = [] for (key, values) in attributes.items(): for value in values: nrps.append({ 'tag': key, 'value': value }) data = { 'features': [ { 'uniquename': feature_id, 'non_reserved_properties': nrps } ] } data = self._update_data(data) return self.request('addAttribute', data) def deleteAttribute(self, feature_id, key, value): data = { 'features': [ { 'uniquename': feature_id, 'non_reserved_properties': [ {'tag': key, 'value': value} ] } ] } data = self._update_data(data) return self.request('addAttribute', data) def getFeatures(self): data = self._update_data({}) return self.request('getFeatures', data) def getSequence(self, uniquename): data = { 'features': [ {'uniquename': uniquename} ] } data = self._update_data(data) return self.request('getSequence', data) def addFeature(self, feature, trustme=False): if not trustme: raise NotImplementedError("Waiting on better docs from project. If you know what you are doing, pass trustme=True to this function.") data = { 'features': feature, } data = self._update_data(data) return self.request('addFeature', data) def addTranscript(self, transcript, trustme=False): if not trustme: raise NotImplementedError("Waiting on better docs from project. If you know what you are doing, pass trustme=True to this function.") data = {} data.update(transcript) data = self._update_data(data) return self.request('addTranscript', data) # addExon, add/delete/updateComments, addTranscript skipped due to docs def duplicateTranscript(self, transcriptId): data = { 'features': [{'uniquename': transcriptId}] } data = self._update_data(data) return self.request('duplicateTranscript', data) def setTranslationStart(self, uniquename, start): data = { 'features': [{ 'uniquename': uniquename, 'location': { 'fmin': start } }] } data = self._update_data(data) return self.request('setTranslationStart', data) def setTranslationEnd(self, uniquename, end): data = { 'features': [{ 'uniquename': uniquename, 'location': { 'fmax': end } }] } data = self._update_data(data) return self.request('setTranslationEnd', data) def setLongestOrf(self, uniquename): data = { 'features': [{ 'uniquename': uniquename, }] } data = self._update_data(data) return self.request('setLongestOrf', data) def setBoundaries(self, uniquename, start, end): data = { 'features': [{ 'uniquename': uniquename, 'location': { 'fmin': start, 'fmax': end, } }] } data = self._update_data(data) return self.request('setBoundaries', data) def getSequenceAlterations(self): data = { } data = self._update_data(data) return self.request('getSequenceAlterations', data) def setReadthroughStopCodon(self, uniquename): data = { 'features': [{ 'uniquename': uniquename, }] } data = self._update_data(data) return self.request('setReadthroughStopCodon', data) def deleteSequenceAlteration(self, uniquename): data = { 'features': [{ 'uniquename': uniquename, }] } data = self._update_data(data) return self.request('deleteSequenceAlteration', data) def flipStrand(self, uniquenames): data = { 'features': [ {'uniquename': x} for x in uniquenames ] } data = self._update_data(data) return self.request('flipStrand', data) def mergeExons(self, exonA, exonB): data = { 'features': [ {'uniquename': exonA}, {'uniquename': exonB}, ] } data = self._update_data(data) return self.request('mergeExons', data) # def splitExon(): pass def deleteFeatures(self, uniquenames): assert isinstance(uniquenames, collections.Iterable) data = { 'features': [ {'uniquename': x} for x in uniquenames ] } data = self._update_data(data) return self.request('deleteFeature', data) # def deleteExon(): pass # def makeIntron(self, uniquename, ): pass def getSequenceSearchTools(self): return self.get('getSequenceSearchTools', {}) def getCannedComments(self): return self.get('getCannedComments', {}) def searchSequence(self, searchTool, sequence, database): data = { 'key': searchTool, 'residues': sequence, 'database_id': database, } return self.request('searchSequences', data) def getGff3(self, uniquenames): assert isinstance(uniquenames, collections.Iterable) data = { 'features': [ {'uniquename': x} for x in uniquenames ] } data = self._update_data(data) return self.request('getGff3', data, isJson=False) class GroupsClient(Client): CLIENT_BASE = '/group/' def createGroup(self, name): data = {'name': name} return self.request('createGroup', data) def getOrganismPermissionsForGroup(self, group): data = { 'id': group.groupId, 'name': group.name, } return self.request('getOrganismPermissionsForGroup', data) def loadGroup(self, group): return self.loadGroupById(group.groupId) def loadGroupById(self, groupId): res = self.request('loadGroups', {'groupId': groupId}) if isinstance(res, list): # We can only match one, right? return GroupObj(**res[0]) else: return res def loadGroupByName(self, name): res = self.request('loadGroups', {'name': name}) if isinstance(res, list): # We can only match one, right? return GroupObj(**res[0]) else: return res def loadGroups(self, group=None): res = self.request('loadGroups', {}) data = [GroupObj(**x) for x in res] if group is not None: data = [x for x in data if x.name == group] return data def deleteGroup(self, group): data = { 'id': group.groupId, 'name': group.name, } return self.request('deleteGroup', data) def updateGroup(self, group, newName): # TODO: Sure would be nice if modifying ``group.name`` would invoke # this? data = { 'id': group.groupId, 'name': newName, } return self.request('updateGroup', data) def updateOrganismPermission(self, group, organismName, administrate=False, write=False, read=False, export=False): data = { 'groupId': group.groupId, 'organism': organismName, 'ADMINISTRATE': administrate, 'WRITE': write, 'EXPORT': export, 'READ': read, } return self.request('updateOrganismPermission', data) def updateMembership(self, group, users): data = { 'groupId': group.groupId, 'user': [user.email for user in users] } return self.request('updateMembership', data) class IOClient(Client): CLIENT_BASE = '/IOService/' def write(self, exportType='FASTA', seqType='peptide', exportFormat='text', sequences=None, organism=None, output='text', exportAllSequences=False, exportGff3Fasta=False): if exportType not in ('FASTA', 'GFF3'): raise Exception("exportType must be one of FASTA, GFF3") if seqType not in ('peptide', 'cds', 'cdna', 'genomic'): raise Exception("seqType must be one of peptide, cds, dna, genomic") if exportFormat not in ('gzip', 'text'): raise Exception("exportFormat must be one of gzip, text") if output not in ('file', 'text'): raise Exception("output must be one of file, text") data = { 'type': exportType, 'seqType': seqType, 'format': exportFormat, 'sequences': sequences, 'organism': organism, 'output': output, 'exportAllSequences': exportAllSequences, 'exportGff3Fasta': exportGff3Fasta, } return self.request('write', data, isJson=output == 'file') def download(self, uuid, outputFormat='gzip'): if outputFormat.lower() not in ('gzip', 'text'): raise Exception("outputFormat must be one of file, text") data = { 'format': outputFormat, 'uuid': uuid, } return self.request('write', data) class StatusClient(Client): CLIENT_BASE = '/availableStatus/' def addStatus(self, value): data = { 'value': value } return self.request('createStatus', data) def findAllStatuses(self): return self.request('showStatus', {}) def findStatusByValue(self, value): statuses = self.findAllStatuses() statuses = [x for x in statuses if x['value'] == value] if len(statuses) == 0: raise Exception("Unknown status value") else: return statuses[0] def findStatusById(self, id_number): statuses = self.findAllStatuses() statuses = [x for x in statuses if str(x['id']) == str(id_number)] if len(statuses) == 0: raise Exception("Unknown ID") else: return statuses[0] def updateStatus(self, id_number, new_value): data = { 'id': id_number, 'new_value': new_value } return self.request('updateStatus', data) def deleteStatus(self, id_number): data = { 'id': id_number } return self.request('deleteStatus', data) class CannedCommentsClient(Client): CLIENT_BASE = '/cannedComment/' def addComment(self, comment, metadata=""): data = { 'comment': comment, 'metadata': metadata } return self.request('createComment', data) def findAllComments(self): return self.request('showComment', {}) def findCommentByValue(self, value): comments = self.findAllComments() comments = [x for x in comments if x['comment'] == value] if len(comments) == 0: raise Exception("Unknown comment") else: return comments[0] def findCommentById(self, id_number): comments = self.findAllComments() comments = [x for x in comments if str(x['id']) == str(id_number)] if len(comments) == 0: raise Exception("Unknown ID") else: return comments[0] def updateComment(self, id_number, new_value, metadata=None): data = { 'id': id_number, 'new_comment': new_value } if metadata is not None: data['metadata'] = metadata return self.request('updateComment', data) def deleteComment(self, id_number): data = { 'id': id_number } return self.request('deleteComment', data) class CannedKeysClient(Client): CLIENT_BASE = '/cannedKey/' def addKey(self, key, metadata=""): data = { 'key': key, 'metadata': metadata } return self.request('createKey', data) def findAllKeys(self): return self.request('showKey', {}) def findKeyByValue(self, value): keys = self.findAllKeys() keys = [x for x in keys if x['label'] == value] if len(keys) == 0: raise Exception("Unknown key") else: return keys[0] def findKeyById(self, id_number): keys = self.findAllKeys() keys = [x for x in keys if str(x['id']) == str(id_number)] if len(keys) == 0: raise Exception("Unknown ID") else: return keys[0] def updateKey(self, id_number, new_key, metadata=None): data = { 'id': id_number, 'new_key': new_key } if metadata is not None: data['metadata'] = metadata return self.request('updateKey', data) def deleteKey(self, id_number): data = { 'id': id_number } return self.request('deleteKey', data) class CannedValuesClient(Client): CLIENT_BASE = '/cannedValue/' def addValue(self, value, metadata=""): data = { 'value': value, 'metadata': metadata } return self.request('createValue', data) def findAllValues(self): return self.request('showValue', {}) def findValueByValue(self, value): values = self.findAllValues() values = [x for x in values if x['label'] == value] if len(values) == 0: raise Exception("Unknown value") else: return values[0] def findValueById(self, id_number): values = self.findAllValues() values = [x for x in values if str(x['id']) == str(id_number)] if len(values) == 0: raise Exception("Unknown ID") else: return values[0] def updateValue(self, id_number, new_value, metadata=None): data = { 'id': id_number, 'new_value': new_value } if metadata is not None: data['metadata'] = metadata return self.request('updateValue', data) def deleteValue(self, id_number): data = { 'id': id_number } return self.request('deleteValue', data) class OrganismsClient(Client): CLIENT_BASE = '/organism/' def addOrganism(self, commonName, directory, blatdb=None, species=None, genus=None, public=False): data = { 'commonName': commonName, 'directory': directory, 'publicMode': public, } if blatdb is not None: data['blatdb'] = blatdb if genus is not None: data['genus'] = genus if species is not None: data['species'] = species return self.request('addOrganism', data) def findAllOrganisms(self): return self.request('findAllOrganisms', {}) def findOrganismByCn(self, cn): orgs = self.findAllOrganisms() orgs = [x for x in orgs if x['commonName'] == cn] if len(orgs) == 0: raise Exception("Unknown common name") else: return orgs[0] def findOrganismById(self, id_number): orgs = self.findAllOrganisms() orgs = [x for x in orgs if str(x['id']) == str(id_number)] if len(orgs) == 0: raise Exception("Unknown ID") else: return orgs[0] def deleteOrganism(self, organismId): return self.request('deleteOrganism', {'id': organismId}) def deleteOrganismFeatures(self, organismId): return self.request('deleteOrganismFeatures', {'id': organismId}) def getSequencesForOrganism(self, commonName): return self.request('getSequencesForOrganism', {'organism': commonName}) def updateOrganismInfo(self, organismId, commonName, directory, blatdb=None, species=None, genus=None, public=False): data = { 'id': organismId, 'name': commonName, 'directory': directory, 'publicMode': public, } if blatdb is not None: data['blatdb'] = blatdb if genus is not None: data['genus'] = genus if species is not None: data['species'] = species return self.request('updateOrganismInfo', data) class UsersClient(Client): CLIENT_BASE = '/user/' # Real one # def getOrganismPermissionsForUser(self, user): # data = { # 'userId': user.userId, # } # return self.request('getOrganismPermissionsForUser', data) # Utter frigging hack def getOrganismPermissionsForUser(self, user): return self.loadUser(user).organismPermissions def updateOrganismPermission(self, user, organism, administrate=False, write=False, export=False, read=False): data = { 'userId': user.userId, 'organism': organism, 'ADMINISTRATE': administrate, 'WRITE': write, 'EXPORT': export, 'READ': read, } return self.request('updateOrganismPermission', data) def loadUser(self, user): return self.loadUserById(user.userId) def loadUserById(self, userId): res = self.request('loadUsers', {'userId': userId}) if isinstance(res, list): # We can only match one, right? return UserObj(**res[0]) else: return res def loadUsers(self, email=None): res = self.request('loadUsers', {}) data = [UserObj(**x) for x in res] if email is not None: data = [x for x in data if x.username == email] return data def addUserToGroup(self, group, user): data = {'group': group.name, 'userId': user.userId} return self.request('addUserToGroup', data) def removeUserFromGroup(self, group, user): data = {'group': group.name, 'userId': user.userId} return self.request('removeUserFromGroup', data) def createUser(self, email, firstName, lastName, newPassword, role="user", groups=None): data = { 'firstName': firstName, 'lastName': lastName, 'email': email, 'role': role, 'groups': [] if groups is None else groups, # 'availableGroups': [], 'newPassword': newPassword, # 'organismPermissions': [], } return self.request('createUser', data) def deleteUser(self, user): return self.request('deleteUser', {'userId': user.userId}) def updateUser(self, user, email, firstName, lastName, newPassword): data = { 'userId': user.userId, 'email': email, 'firstName': firstName, 'lastName': lastName, 'newPassword': newPassword, } return self.request('updateUser', data) class RemoteRecord(Client): CLIENT_BASE = None def ParseRecord(self, cn): org = self._wa.organisms.findOrganismByCn(cn) self._wa.annotations.setSequence(org['commonName'], org['id']) data = io.StringIO(self._wa.io.write( exportType='GFF3', seqType='genomic', exportAllSequences=False, exportGff3Fasta=True, output="text", exportFormat="text", sequences=cn, )) data.seek(0) for record in GFF.parse(data): yield WebApolloSeqRecord(record, self._wa) class WebApolloSeqRecord(object): def __init__(self, sr, wa): self._sr = sr self._wa = wa def __dir__(self): return dir(self._sr) def __getattr__(self, key): if key in ('_sr', '_wa'): return self.__dict__[key] else: if key == 'features': return (WebApolloSeqFeature(x, self._wa) for x in self._sr.__dict__[key]) else: return self._sr.__dict__[key] def __setattr__(self, key, value): if key in ('_sd', '_wa'): self.__dict__[key] = value else: self._sr.__dict__[key] = value # Methods acting on the SeqRecord object class WebApolloSeqFeature(object): def __init__(self, sf, wa): self._sf = sf self._wa = wa def __dir__(self): return dir(self._sf) def __getattr__(self, key): if key in ('_sf', '_wa'): return self.__dict__[key] else: return self._sf.__dict__[key] def __setattr__(self, key, value): if key in ('_sf', '_wa'): self.__dict__[key] = value else: # Methods acting on the SeqFeature object if key == 'location': if value.strand != self._sf.location.strand: self.wa.annotations.flipStrand( self._sf.qualifiers['ID'][0] ) self.wa.annotations.setBoundaries( self._sf.qualifiers['ID'][0], value.start, value.end, ) self._sf.__dict__[key] = value else: self._sf.__dict__[key] = value def _tnType(feature): if feature.type in ('gene', 'mRNA', 'exon', 'CDS', 'terminator', 'tRNA'): return feature.type else: return 'exon' def _yieldFeatData(features): for f in features: current = { 'location': { 'strand': f.strand, 'fmin': int(f.location.start), 'fmax': int(f.location.end), }, 'type': { 'name': _tnType(f), 'cv': { 'name': 'sequence', } }, } if f.type in ('gene', 'mRNA'): current['name'] = f.qualifiers.get('Name', [f.id])[0] if hasattr(f, 'sub_features') and len(f.sub_features) > 0: current['children'] = [x for x in _yieldFeatData(f.sub_features)] yield current def featuresToFeatureSchema(features): compiled = [] for feature in features: # if feature.type != 'gene': # log.warn("Not able to handle %s features just yet...", feature.type) # continue for x in _yieldFeatData([feature]): compiled.append(x) return compiled def accessible_organisms(user, orgs): permissionMap = { x['organism']: x['permissions'] for x in user.organismPermissions if 'WRITE' in x['permissions'] or 'READ' in x['permissions'] or 'ADMINISTRATE' in x['permissions'] or user.role == 'ADMIN' } if 'error' in orgs: raise Exception("Error received from Apollo server: \"%s\"" % orgs['error']) return [ (org['commonName'], org['id'], False) for org in sorted(orgs, key=lambda x: x['commonName']) if org['commonName'] in permissionMap ] def galaxy_list_groups(trans, *args, **kwargs): email = trans.get_user().email wa = WebApolloInstance( os.environ['GALAXY_WEBAPOLLO_URL'], os.environ['GALAXY_WEBAPOLLO_USER'], os.environ['GALAXY_WEBAPOLLO_PASSWORD'] ) # Assert that the email exists in apollo try: gx_user = wa.requireUser(email) except UnknownUserException: return [] # Key for cached data cacheKey = 'groups-' + email # We don't want to trust "if key in cache" because between asking and fetch # it might through key error. if cacheKey not in cache: # However if it ISN'T there, we know we're safe to fetch + put in # there. data = _galaxy_list_groups(wa, gx_user, *args, **kwargs) cache[cacheKey] = data return data try: # The cache key may or may not be in the cache at this point, it # /likely/ is. However we take no chances that it wasn't evicted between # when we checked above and now, so we reference the object from the # cache in preparation to return. data = cache[cacheKey] return data except KeyError: # If access fails due to eviction, we will fail over and can ensure that # data is inserted. data = _galaxy_list_groups(wa, gx_user, *args, **kwargs) cache[cacheKey] = data return data def _galaxy_list_groups(wa, gx_user, *args, **kwargs): # Fetch the groups. group_data = [] for group in wa.groups.loadGroups(): # Reformat group_data.append((group.name, group.name, False)) return group_data def galaxy_list_orgs(trans, *args, **kwargs): email = trans.get_user().email wa = WebApolloInstance( os.environ['GALAXY_WEBAPOLLO_URL'], os.environ['GALAXY_WEBAPOLLO_USER'], os.environ['GALAXY_WEBAPOLLO_PASSWORD'] ) try: gx_user = wa.requireUser(email) except UnknownUserException: return [] # Key for cached data cacheKey = 'orgs-' + email if cacheKey not in cache: data = _galaxy_list_orgs(wa, gx_user, *args, **kwargs) cache[cacheKey] = data return data try: data = cache[cacheKey] return data except KeyError: data = _galaxy_list_orgs(wa, gx_user, *args, **kwargs) cache[cacheKey] = data return data def _galaxy_list_orgs(wa, gx_user, *args, **kwargs): # Fetch all organisms all_orgs = wa.organisms.findAllOrganisms() # Figure out which are accessible to the user orgs = accessible_organisms(gx_user, all_orgs) # Return org list return orgs def galaxy_list_users(trans, *args, **kwargs): email = trans.get_user().email wa = WebApolloInstance( os.environ['GALAXY_WEBAPOLLO_URL'], os.environ['GALAXY_WEBAPOLLO_USER'], os.environ['GALAXY_WEBAPOLLO_PASSWORD'] ) # Assert that the email exists in apollo try: gx_user = wa.requireUser(email) except UnknownUserException: return [] # Key for cached data cacheKey = 'users-' + email # We don't want to trust "if key in cache" because between asking and fetch # it might through key error. if cacheKey not in cache: # However if it ISN'T there, we know we're safe to fetch + put in # there. data = _galaxy_list_users(wa, gx_user, *args, **kwargs) cache[cacheKey] = data return data try: # The cache key may or may not be in the cache at this point, it # /likely/ is. However we take no chances that it wasn't evicted between # when we checked above and now, so we reference the object from the # cache in preparation to return. data = cache[cacheKey] return data except KeyError: # If access fails due to eviction, we will fail over and can ensure that # data is inserted. data = _galaxy_list_users(wa, gx_user, *args, **kwargs) cache[cacheKey] = data return data def _galaxy_list_users(wa, gx_user, *args, **kwargs): # Fetch the users. user_data = [] for user in wa.users.loadUsers(): # Reformat user_data.append((user.username, user.username, False)) return user_data # This is all for implementing the command line interface for testing. class obj(object): pass class fakeTrans(object): def __init__(self, username): self.un = username def get_user(self): o = obj() o.email = self.un return o def retry(closure, sleep=1, limit=5): """ Apollo has the bad habit of returning 500 errors if you call APIs too quickly, largely because of the unholy things that happen in grails. To deal with the fact that we cannot send an addComments call too quickly after a createFeature call, we have this function that will keep calling a closure until it works. """ count = 0 while True: count += 1 if count >= limit: return False try: # Try calling it closure() # If successful, exit return True except Exception as e: log.info(str(e)[0:100]) time.sleep(sleep) if __name__ == '__main__': parser = argparse.ArgumentParser(description='Test access to apollo server') parser.add_argument('email', help='Email of user to test') parser.add_argument('--action', choices=['org', 'group', 'users'], default='org', help='Data set to test, fetch a list of groups or users known to the requesting user.') args = parser.parse_args() trans = fakeTrans(args.email) if args.action == 'org': for f in galaxy_list_orgs(trans): print(f) elif args.action == 'group': for f in galaxy_list_groups(trans): print(f) else: for f in galaxy_list_users(trans): print(f)