# # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """ This is a very crude version of "in-memory HBase", which implements just enough functionality of HappyBase API to support testing of our driver. """ import copy import re import six import ceilometer from ceilometer.i18n import _ from ceilometer.openstack.common import log LOG = log.getLogger(__name__) class MTable(object): """HappyBase.Table mock.""" def __init__(self, name, families): self.name = name self.families = families self._rows_with_ts = {} def row(self, key, columns=None): if key not in self._rows_with_ts: return {} res = copy.copy(sorted(six.iteritems( self._rows_with_ts.get(key)))[-1][1]) if columns: keys = res.keys() for key in keys: if key not in columns: res.pop(key) return res def rows(self, keys): return ((k, self.row(k)) for k in keys) def put(self, key, data, ts=None): # Note: Now we use 'timestamped' but only for one Resource table. # That's why we may put ts='0' in case when ts is None. If it is # needed to use 2 types of put in one table ts=0 cannot be used. if ts is None: ts = "0" if key not in self._rows_with_ts: self._rows_with_ts[key] = {ts: data} else: if ts in self._rows_with_ts[key]: self._rows_with_ts[key][ts].update(data) else: self._rows_with_ts[key].update({ts: data}) def delete(self, key): del self._rows_with_ts[key] def _get_latest_dict(self, row): # The idea here is to return latest versions of columns. # In _rows_with_ts we store {row: {ts_1: {data}, ts_2: {data}}}. # res will contain a list of tuples [(ts_1, {data}), (ts_2, {data})] # sorted by ts, i.e. in this list ts_2 is the most latest. # To get result as HBase provides we should iterate in reverse order # and get from "latest" data only key-values that are not in newer data data = {} for i in sorted(six.iteritems(self._rows_with_ts[row])): data.update(i[1]) return data def scan(self, filter=None, columns=None, row_start=None, row_stop=None, limit=None): columns = columns or [] sorted_keys = sorted(self._rows_with_ts) # copy data between row_start and row_stop into a dict rows = {} for row in sorted_keys: if row_start and row < row_start: continue if row_stop and row > row_stop: break rows[row] = self._get_latest_dict(row) if columns: ret = {} for row, data in six.iteritems(rows): for key in data: if key in columns: ret[row] = data rows = ret if filter: # TODO(jdanjou): we should really parse this properly, # but at the moment we are only going to support AND here filters = filter.split('AND') for f in filters: # Extract filter name and its arguments g = re.search("(.*)\((.*),?\)", f) fname = g.group(1).strip() fargs = [s.strip().replace('\'', '') for s in g.group(2).split(',')] m = getattr(self, fname) if callable(m): # overwrite rows for filtering to take effect # in case of multiple filters rows = m(fargs, rows) else: raise ceilometer.NotImplementedError( "%s filter is not implemented, " "you may want to add it!") for k in sorted(rows)[:limit]: yield k, rows[k] @staticmethod def SingleColumnValueFilter(args, rows): """This is filter for testing "in-memory HBase". This method is called from scan() when 'SingleColumnValueFilter' is found in the 'filter' argument. """ op = args[2] column = "%s:%s" % (args[0], args[1]) value = args[3] if value.startswith('binary:'): value = value[7:] r = {} for row in rows: data = rows[row] if op == '=': if column in data and data[column] == value: r[row] = data elif op == '<': if column in data and data[column] < value: r[row] = data elif op == '<=': if column in data and data[column] <= value: r[row] = data elif op == '>': if column in data and data[column] > value: r[row] = data elif op == '>=': if column in data and data[column] >= value: r[row] = data elif op == '!=': if column in data and data[column] != value: r[row] = data return r @staticmethod def ColumnPrefixFilter(args, rows): """This is filter for testing "in-memory HBase". This method is called from scan() when 'ColumnPrefixFilter' is found in the 'filter' argument. :param args: a list of filter arguments, contain prefix of column :param rows: a dict of row prefixes for filtering """ value = args[0] column = 'f:' + value r = {} for row, data in rows.items(): column_dict = {} for key in data: if key.startswith(column): column_dict[key] = data[key] r[row] = column_dict return r @staticmethod def RowFilter(args, rows): """This is filter for testing "in-memory HBase". This method is called from scan() when 'RowFilter' is found in the 'filter' argument. :param args: a list of filter arguments, it contains operator and sought string :param rows: a dict of rows which are filtered """ op = args[0] value = args[1] if value.startswith('regexstring:'): value = value[len('regexstring:'):] r = {} for row, data in rows.items(): try: g = re.search(value, row).group() if op == '=': if g == row: r[row] = data else: raise ceilometer.NotImplementedError( "In-memory " "RowFilter doesn't support " "the %s operation yet" % op) except AttributeError: pass return r @staticmethod def QualifierFilter(args, rows): """This is filter for testing "in-memory HBase". This method is called from scan() when 'QualifierFilter' is found in the 'filter' argument """ op = args[0] value = args[1] is_regex = False if value.startswith('binaryprefix:'): value = value[len('binaryprefix:'):] if value.startswith('regexstring:'): value = value[len('regexstring:'):] is_regex = True column = 'f:' + value r = {} for row in rows: data = rows[row] r_data = {} for key in data: if ((op == '=' and key.startswith(column)) or (op == '>=' and key >= column) or (op == '<=' and key <= column) or (op == '>' and key > column) or (op == '<' and key < column) or (is_regex and re.search(value, key))): r_data[key] = data[key] else: raise ceilometer.NotImplementedError( "In-memory QualifierFilter " "doesn't support the %s " "operation yet" % op) if r_data: r[row] = r_data return r class MConnectionPool(object): def __init__(self): self.conn = MConnection() def connection(self): return self.conn class MConnection(object): """HappyBase.Connection mock.""" def __init__(self): self.tables = {} def __enter__(self, *args, **kwargs): return self def __exit__(self, exc_type, exc_val, exc_tb): pass @staticmethod def open(): LOG.debug(_("Opening in-memory HBase connection")) def create_table(self, n, families=None): families = families or {} if n in self.tables: return self.tables[n] t = MTable(n, families) self.tables[n] = t return t def delete_table(self, name, use_prefix=True): del self.tables[name] def table(self, name): return self.create_table(name)