import re
import sys
import csv
import json
import ftfy
import sqlite3
import itertools
import subprocess
from collections import Counter
import pykafka
import fatcat_client
from fatcat_client.rest import ApiException
def clean(thing, force_xml=False):
"""
This function is appropriate to be called on any random, non-markup string,
such as author names, titles, etc.
It will try to clean up commong unicode mangles, HTML characters, etc.
This will detect XML/HTML and "do the right thing" (aka, not remove
entities like '&' if there are tags in the string), unless you pass the
'force_xml' parameter, which might be appropriate for, eg, names and
titles, which generally should be projected down to plain text.
Also strips extra whitespace.
"""
if not thing:
return None
fix_entities = 'auto'
if force_xml:
fix_entities = True
fixed = ftfy.fix_text(thing, fix_entities=fix_entities).strip()
if not fixed or len(fixed) <= 1:
# wasn't zero-length before, but is now; return None
return None
return fixed
def test_clean():
assert clean(None) == None
assert clean('') == None
assert clean('1') == None
assert clean('123') == '123'
assert clean('a&b') == 'a&b'
assert clean('a&b') == 'a&b'
assert clean('a&b', force_xml=True) == 'a&b'
DOMAIN_REL_MAP = {
"archive.org": "repository",
"arxiv.org": "repository",
"babel.hathitrust.org": "repository",
"cds.cern.ch": "repository",
"deepblue.lib.umich.edu": "repository",
"europepmc.org": "repository",
"hal.inria.fr": "repository",
"scielo.isciii.es": "repository",
"www.dtic.mil": "repository",
"www.jstage.jst.go.jp": "repository",
"www.jstor.org": "repository",
"www.ncbi.nlm.nih.gov": "repository",
"ftp.ncbi.nlm.nih.gov": "repository",
"www.scielo.br": "repository",
"www.scielo.cl": "repository",
"www.scielo.org.mx": "repository",
"zenodo.org": "repository",
"citeseerx.ist.psu.edu": "aggregator",
"publisher-connector.core.ac.uk": "aggregator",
"core.ac.uk": "aggregator",
"static.aminer.org": "aggregator",
"aminer.org": "aggregator",
"pdfs.semanticscholar.org": "aggregator",
"semanticscholar.org": "aggregator",
"www.semanticscholar.org": "aggregator",
"academic.oup.com": "publisher",
"cdn.elifesciences.org": "publisher",
"cell.com": "publisher",
"dl.acm.org": "publisher",
"downloads.hindawi.com": "publisher",
"elifesciences.org": "publisher",
"iopscience.iop.org": "publisher",
"journals.plos.org": "publisher",
"link.springer.com": "publisher",
"onlinelibrary.wiley.com": "publisher",
"works.bepress.com": "publisher",
"www.biomedcentral.com": "publisher",
"www.cell.com": "publisher",
"www.nature.com": "publisher",
"www.pnas.org": "publisher",
"www.tandfonline.com": "publisher",
"www.researchgate.net": "social",
"academia.edu": "social",
"wayback.archive-it.org": "webarchive",
"web.archive.org": "webarchive",
"archive.is": "webarchive",
}
def make_rel_url(raw_url, default_link_rel="web"):
# this is where we map specific domains to rel types, and also filter out
# bad domains, invalid URLs, etc
rel = default_link_rel
for domain, domain_rel in DOMAIN_REL_MAP.items():
if "//{}/".format(domain) in raw_url:
rel = domain_rel
break
return (rel, raw_url)
def test_make_rel_url():
assert make_rel_url("http://example.com/thing.pdf")[0] == "web"
assert make_rel_url("http://example.com/thing.pdf", default_link_rel="jeans")[0] == "jeans"
assert make_rel_url("https://web.archive.org/web/*/http://example.com/thing.pdf")[0] == "webarchive"
assert make_rel_url("http://cell.com/thing.pdf")[0] == "publisher"
class EntityImporter:
"""
Base class for fatcat entity importers.
The API exposed to record iterator is:
push_record(raw_record)
finish()
The API that implementations are expected to fill in are:
want(raw_record) -> boolean
parse(raw_record) -> entity
try_update(entity) -> boolean
insert_batch([entity]) -> None
This class exposes helpers for implementations:
self.api
self.get_editgroup_id()
self.create_(entity) -> EntityEdit
for related entity types
self.push_entity(entity)
self.counts['exists'] += 1
if didn't update or insert because of existing)
self.counts['update'] += 1
if updated an entity
"""
def __init__(self, api, **kwargs):
eg_extra = kwargs.get('editgroup_extra', dict())
eg_extra['git_rev'] = eg_extra.get('git_rev',
subprocess.check_output(["git", "describe", "--always"]).strip()).decode('utf-8')
eg_extra['agent'] = eg_extra.get('agent', 'fatcat_tools.EntityImporter')
self.api = api
self.bezerk_mode = kwargs.get('bezerk_mode', False)
self.edit_batch_size = kwargs.get('edit_batch_size', 100)
self.editgroup_description = kwargs.get('editgroup_description')
self.editgroup_extra = kwargs.get('editgroup_extra')
self.reset()
self._issnl_id_map = dict()
self._orcid_id_map = dict()
self._orcid_regex = re.compile("^\\d{4}-\\d{4}-\\d{4}-\\d{3}[\\dX]$")
self._doi_id_map = dict()
def reset(self):
self.counts = Counter({'skip': 0, 'insert': 0, 'update': 0, 'exists': 0})
self._edit_count = 0
self._editgroup_id = None
self._entity_queue = []
def push_record(self, raw_record):
"""
Returns nothing.
"""
if (not raw_record) or (not self.want(raw_record)):
self.counts['skip'] += 1
return
entity = self.parse_record(raw_record)
if not entity:
self.counts['skip'] += 1
return
if self.bezerk_mode:
self.push_entity(entity)
return
if self.try_update(entity):
self.push_entity(entity)
return
def parse_record(self, raw_record):
# implementations should fill this in
raise NotImplementedError
def finish(self):
if self._edit_count > 0:
self.api.accept_editgroup(self._editgroup_id)
self._editgroup_id = None
self._edit_count = 0
if self._entity_queue:
self.insert_batch(self._entity_queue)
self.counts['insert'] += len(self._entity_queue)
self._entity_queue = []
self.counts['total'] = 0
for key in ('skip', 'insert', 'update', 'exists'):
self.counts['total'] += self.counts[key]
return self.counts
def get_editgroup_id(self, edits=1):
if self._edit_count >= self.edit_batch_size:
self.api.accept_editgroup(self._editgroup_id)
self._editgroup_id = None
self._edit_count = 0
if not self._editgroup_id:
eg = self.api.create_editgroup(
fatcat_client.Editgroup(
description=self.editgroup_description,
extra=self.editgroup_extra))
self._editgroup_id = eg.editgroup_id
self._edit_count += edits
return self._editgroup_id
def create_container(self, entity):
eg_id = self.get_editgroup_id()
self.counts['inserted.container'] += 1
return self.api.create_container(entity, editgroup_id=eg_id)
def create_release(self, entity):
eg_id = self.get_editgroup_id()
self.counts['inserted.release'] += 1
return self.api.create_release(entity, editgroup_id=eg_id)
def create_file(self, entity):
eg_id = self.get_editgroup_id()
self.counts['inserted.file'] += 1
return self.api.create_file(entity, editgroup_id=eg_id)
def updated(self):
"""
Implementations should call this from try_update() if the update was successful
"""
self.counts['update'] += 1
def push_entity(self, entity):
self._entity_queue.append(entity)
if len(self._entity_queue) >= self.edit_batch_size:
self.insert_batch(self._entity_queue)
self.counts['insert'] += len(self._entity_queue)
self._entity_queue = []
def want(self, raw_record):
"""
Implementations can override for optional fast-path to drop a record.
Must have no side-effects; returns bool.
"""
return True
def parse(self, raw_record):
"""
Returns an entity class type, or None if we should skip this one.
May have side-effects (eg, create related entities), but shouldn't
update/mutate the actual entity.
"""
raise NotImplementedError
def try_update(self, raw_record):
"""
Passed the output of parse(). Should try to find an existing entity and
update it (PUT), decide we should do nothing (based on the existing
record), or create a new one.
Implementations must update the exists/updated/skip counts
appropriately in this method.
Returns boolean: True if the entity should still be inserted, False otherwise
"""
raise NotImplementedError
def insert_batch(self, raw_record):
raise NotImplementedError
def is_orcid(self, orcid):
return self._orcid_regex.match(orcid) is not None
def lookup_orcid(self, orcid):
"""Caches calls to the Orcid lookup API endpoint in a local dict"""
if not self.is_orcid(orcid):
return None
if orcid in self._orcid_id_map:
return self._orcid_id_map[orcid]
creator_id = None
try:
rv = self.api.lookup_creator(orcid=orcid)
creator_id = rv.ident
except ApiException as ae:
# If anything other than a 404 (not found), something is wrong
assert ae.status == 404
self._orcid_id_map[orcid] = creator_id # might be None
return creator_id
def is_doi(self, doi):
return doi.startswith("10.") and doi.count("/") >= 1
def lookup_doi(self, doi):
"""Caches calls to the doi lookup API endpoint in a local dict"""
assert self.is_doi(doi)
doi = doi.lower()
if doi in self._doi_id_map:
return self._doi_id_map[doi]
release_id = None
try:
rv = self.api.lookup_release(doi=doi)
release_id = rv.ident
except ApiException as ae:
# If anything other than a 404 (not found), something is wrong
assert ae.status == 404
self._doi_id_map[doi] = release_id # might be None
return release_id
def is_issnl(self, issnl):
return len(issnl) == 9 and issnl[4] == '-'
def lookup_issnl(self, issnl):
"""Caches calls to the ISSN-L lookup API endpoint in a local dict"""
if issnl in self._issnl_id_map:
return self._issnl_id_map[issnl]
container_id = None
try:
rv = self.api.lookup_container(issnl=issnl)
container_id = rv.ident
except ApiException as ae:
# If anything other than a 404 (not found), something is wrong
assert ae.status == 404
self._issnl_id_map[issnl] = container_id # might be None
return container_id
def read_issn_map_file(self, issn_map_file):
print("Loading ISSN map file...")
self._issn_issnl_map = dict()
for line in issn_map_file:
if line.startswith("ISSN") or len(line) == 0:
continue
(issn, issnl) = line.split()[0:2]
self._issn_issnl_map[issn] = issnl
# double mapping makes lookups easy
self._issn_issnl_map[issnl] = issnl
print("Got {} ISSN-L mappings.".format(len(self._issn_issnl_map)))
def issn2issnl(self, issn):
if issn is None:
return None
return self._issn_issnl_map.get(issn)
class RecordPusher:
"""
Base class for different importer sources. Pretty trivial interface, just
wraps an importer and pushes records in to it.
"""
def __init__(self, importer, **kwargs):
self.importer = importer
def run(self):
"""
This will look something like:
for line in sys.stdin:
record = json.loads(line)
self.importer.push_record(record)
print(self.importer.finish())
"""
raise NotImplementedError
class JsonLinePusher(RecordPusher):
def __init__(self, importer, json_file, **kwargs):
self.importer = importer
self.json_file = json_file
def run(self):
for line in self.json_file:
if not line:
continue
record = json.loads(line)
self.importer.push_record(record)
counts = self.importer.finish()
print(counts)
return counts
class CsvPusher(RecordPusher):
def __init__(self, importer, csv_file, **kwargs):
self.importer = importer
self.reader = csv.DictReader(csv_file, delimiter=kwargs.get('delimiter', ','))
def run(self):
for line in self.reader:
if not line:
continue
self.importer.push_record(line)
counts = self.importer.finish()
print(counts)
return counts
class LinePusher(RecordPusher):
def __init__(self, importer, text_file, **kwargs):
self.importer = importer
self.text_file = text_file
def run(self):
for line in self.text_file:
if not line:
continue
self.importer.push_record(line)
counts = self.importer.finish()
print(counts)
return counts
class SqlitePusher(RecordPusher):
def __init__(self, importer, db_file, table_name, where_clause="", **kwargs):
self.importer = importer
self.db = sqlite3.connect(db_file, isolation_level='EXCLUSIVE')
self.db.row_factory = sqlite3.Row
self.table_name = table_name
self.where_clause = where_clause
def run(self):
cur = self.db.execute("SELECT * FROM {} {};".format(
self.table_name, self.where_clause))
for row in cur:
self.importer.push_record(row)
counts = self.importer.finish()
print(counts)
return counts
class KafkaJsonPusher(RecordPusher):
def __init__(self, importer, kafka_hosts, kafka_env, topic_suffix, group, **kwargs):
self.importer = importer
self.consumer = make_kafka_consumer(
kafka_hosts,
kafka_env,
topic_suffix,
group,
)
def run(self):
count = 0
for msg in self.consumer:
if not msg:
continue
record = json.loads(msg.value.decode('utf-8'))
self.importer.push_record(record)
count += 1
if count % 500 == 0:
print("Import counts: {}".format(self.importer.counts))
# TODO: should catch UNIX signals (HUP?) to shutdown cleanly, and/or
# commit the current batch if it has been lingering
counts = self.importer.finish()
print(counts)
return counts
def make_kafka_consumer(hosts, env, topic_suffix, group):
topic_name = "fatcat-{}.{}".format(env, topic_suffix).encode('utf-8')
client = pykafka.KafkaClient(hosts=hosts, broker_version="1.0.0")
consume_topic = client.topics[topic_name]
print("Consuming from kafka topic {}, group {}".format(topic_name, group))
consumer = consume_topic.get_balanced_consumer(
consumer_group=group.encode('utf-8'),
managed=True,
auto_commit_enable=True,
auto_commit_interval_ms=30000, # 30 seconds
compacted_topic=True,
)
return consumer