import json import requests.compat import logging import boto import boto.s3.connection import dateutil.parser from nose.tools import eq_ as eq from itertools import zip_longest # type: ignore from .multisite import * from .tools import * log = logging.getLogger(__name__) def get_key_ver(k): if not k.version_id: return 'null' return k.version_id def check_object_eq(k1, k2, check_extra = True): assert k1 assert k2 log.debug('comparing key name=%s', k1.name) eq(k1.name, k2.name) eq(k1.metadata, k2.metadata) # eq(k1.cache_control, k2.cache_control) eq(k1.content_type, k2.content_type) # eq(k1.content_encoding, k2.content_encoding) # eq(k1.content_disposition, k2.content_disposition) # eq(k1.content_language, k2.content_language) eq(k1.etag, k2.etag) mtime1 = dateutil.parser.parse(k1.last_modified) mtime2 = dateutil.parser.parse(k2.last_modified) assert abs((mtime1 - mtime2).total_seconds()) < 1 # handle different time resolution if check_extra: eq(k1.owner.id, k2.owner.id) eq(k1.owner.display_name, k2.owner.display_name) # eq(k1.storage_class, k2.storage_class) eq(k1.size, k2.size) eq(get_key_ver(k1), get_key_ver(k2)) # eq(k1.encrypted, k2.encrypted) def make_request(conn, method, bucket, key, query_args, headers): result = conn.make_request(method, bucket=bucket, key=key, query_args=query_args, headers=headers) if result.status // 100 != 2: raise boto.exception.S3ResponseError(result.status, result.reason, result.read()) return result class MDSearch: def __init__(self, conn, bucket_name, query, query_args = None, marker = None): self.conn = conn self.bucket_name = bucket_name or '' if bucket_name: self.bucket = boto.s3.bucket.Bucket(name=bucket_name) else: self.bucket = None self.query = query self.query_args = query_args self.max_keys = None self.marker = marker def raw_search(self): q = self.query or '' query_args = append_query_arg(self.query_args, 'query', requests.compat.quote_plus(q)) if self.max_keys is not None: query_args = append_query_arg(query_args, 'max-keys', self.max_keys) if self.marker: query_args = append_query_arg(query_args, 'marker', self.marker) query_args = append_query_arg(query_args, 'format', 'json') headers = {} result = make_request(self.conn, "GET", bucket=self.bucket_name, key='', query_args=query_args, headers=headers) l = [] result_dict = json.loads(result.read()) for entry in result_dict['Objects']: bucket = self.conn.get_bucket(entry['Bucket'], validate = False) k = boto.s3.key.Key(bucket, entry['Key']) k.version_id = entry['Instance'] k.etag = entry['ETag'] k.owner = boto.s3.user.User(id=entry['Owner']['ID'], display_name=entry['Owner']['DisplayName']) k.last_modified = entry['LastModified'] k.size = entry['Size'] k.content_type = entry['ContentType'] k.versioned_epoch = entry['VersionedEpoch'] k.metadata = {} for e in entry['CustomMetadata']: k.metadata[e['Name']] = str(e['Value']) # int values will return as int, cast to string for compatibility with object meta response l.append(k) return result_dict, l def search(self, drain = True, sort = True, sort_key = None): l = [] is_done = False while not is_done: result, result_keys = self.raw_search() l = l + result_keys is_done = not (drain and (result['IsTruncated'] == "true")) marker = result['Marker'] if sort: if not sort_key: sort_key = lambda k: (k.name, -k.versioned_epoch) l.sort(key = sort_key) return l class MDSearchConfig: def __init__(self, conn, bucket_name): self.conn = conn self.bucket_name = bucket_name or '' if bucket_name: self.bucket = boto.s3.bucket.Bucket(name=bucket_name) else: self.bucket = None def send_request(self, conf, method): query_args = 'mdsearch' headers = None if conf: headers = { 'X-Amz-Meta-Search': conf } query_args = append_query_arg(query_args, 'format', 'json') return make_request(self.conn, method, bucket=self.bucket_name, key='', query_args=query_args, headers=headers) def get_config(self): result = self.send_request(None, 'GET') return json.loads(result.read()) def set_config(self, conf): self.send_request(conf, 'POST') def del_config(self): self.send_request(None, 'DELETE') class ESZoneBucket: def __init__(self, zone_conn, name, conn): self.zone_conn = zone_conn self.name = name self.conn = conn self.bucket = boto.s3.bucket.Bucket(name=name) def get_all_versions(self): marker = None is_done = False req = MDSearch(self.conn, self.name, 'bucket == ' + self.name, marker=marker) for k in req.search(): yield k class ESZone(Zone): def __init__(self, name, es_endpoint, zonegroup = None, cluster = None, data = None, zone_id = None, gateways = None): self.es_endpoint = es_endpoint super(ESZone, self).__init__(name, zonegroup, cluster, data, zone_id, gateways) def is_read_only(self): return True def tier_type(self): return "elasticsearch" def create(self, cluster, args = None, check_retcode = True): """ create the object with the given arguments """ if args is None: args = '' tier_config = ','.join([ 'endpoint=' + self.es_endpoint, 'explicit_custom_meta=false' ]) args += [ '--tier-type', self.tier_type(), '--tier-config', tier_config ] return self.json_command(cluster, 'create', args, check_retcode=check_retcode) def has_buckets(self): return False def has_roles(self): return False class Conn(ZoneConn): def __init__(self, zone, credentials): super(ESZone.Conn, self).__init__(zone, credentials) def get_bucket(self, bucket_name): return ESZoneBucket(self, bucket_name, self.conn) def create_bucket(self, name): # should not be here, a bug in the test suite log.critical('Conn.create_bucket() should not be called in ES zone') assert False def check_bucket_eq(self, zone_conn, bucket_name): assert(zone_conn.zone.tier_type() == "rados") log.info('comparing bucket=%s zones={%s, %s}', bucket_name, self.name, self.name) b1 = self.get_bucket(bucket_name) b2 = zone_conn.get_bucket(bucket_name) log.debug('bucket1 objects:') for o in b1.get_all_versions(): log.debug('o=%s', o.name) log.debug('bucket2 objects:') for o in b2.get_all_versions(): log.debug('o=%s', o.name) for k1, k2 in zip_longest(b1.get_all_versions(), b2.get_all_versions()): if k1 is None: log.critical('key=%s is missing from zone=%s', k2.name, self.name) assert False if k2 is None: log.critical('key=%s is missing from zone=%s', k1.name, zone_conn.name) assert False check_object_eq(k1, k2) log.info('success, bucket identical: bucket=%s zones={%s, %s}', bucket_name, self.name, zone_conn.name) return True def create_role(self, path, rolename, policy_document, tag_list): assert False def get_conn(self, credentials): return self.Conn(self, credentials) class ESZoneConfig: def __init__(self, cfg, section): self.endpoint = cfg.get(section, 'endpoint')