root / snf-pithos-backend / pithos / backends / lib / sqlalchemy / node.py @ d1e7d2b4
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# Copyright 2011-2012 GRNET S.A. All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or
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# without modification, are permitted provided that the following
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# conditions are met:
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#
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# 1. Redistributions of source code must retain the above
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# copyright notice, this list of conditions and the following
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# disclaimer.
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#
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# 2. Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following
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# disclaimer in the documentation and/or other materials
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# provided with the distribution.
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#
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# THIS SOFTWARE IS PROVIDED BY GRNET S.A. ``AS IS'' AND ANY EXPRESS
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# OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL GRNET S.A OR
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# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
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# USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
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# AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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# POSSIBILITY OF SUCH DAMAGE.
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#
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# The views and conclusions contained in the software and
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# documentation are those of the authors and should not be
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# interpreted as representing official policies, either expressed
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# or implied, of GRNET S.A.
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from time import time |
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from operator import itemgetter |
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from itertools import groupby |
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from sqlalchemy import Table, Integer, BigInteger, DECIMAL, Column, String, MetaData, ForeignKey |
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from sqlalchemy.types import Text |
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from sqlalchemy.schema import Index, Sequence |
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from sqlalchemy.sql import func, and_, or_, not_, null, select, bindparam, text, exists |
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from sqlalchemy.ext.compiler import compiles |
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from sqlalchemy.engine.reflection import Inspector |
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from sqlalchemy.exc import NoSuchTableError |
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from dbworker import DBWorker |
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from pithos.backends.filter import parse_filters |
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ROOTNODE = 0
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(SERIAL, NODE, HASH, SIZE, TYPE, SOURCE, MTIME, MUSER, UUID, CHECKSUM, |
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CLUSTER) = range(11) |
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(MATCH_PREFIX, MATCH_EXACT) = range(2) |
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inf = float('inf') |
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def strnextling(prefix): |
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"""Return the first unicode string
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greater than but not starting with given prefix.
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strnextling('hello') -> 'hellp'
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"""
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if not prefix: |
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## all strings start with the null string,
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## therefore we have to approximate strnextling('')
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## with the last unicode character supported by python
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## 0x10ffff for wide (32-bit unicode) python builds
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## 0x00ffff for narrow (16-bit unicode) python builds
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## We will not autodetect. 0xffff is safe enough.
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return unichr(0xffff) |
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s = prefix[:-1]
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c = ord(prefix[-1]) |
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if c >= 0xffff: |
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raise RuntimeError |
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s += unichr(c + 1) |
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return s
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def strprevling(prefix): |
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"""Return an approximation of the last unicode string
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less than but not starting with given prefix.
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strprevling(u'hello') -> u'helln\\xffff'
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"""
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if not prefix: |
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## There is no prevling for the null string
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return prefix
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s = prefix[:-1]
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c = ord(prefix[-1]) |
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if c > 0: |
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s += unichr(c - 1) + unichr(0xffff) |
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return s
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_propnames = { |
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'serial': 0, |
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'node': 1, |
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'hash': 2, |
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'size': 3, |
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'type': 4, |
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'source': 5, |
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'mtime': 6, |
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'muser': 7, |
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'uuid': 8, |
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'checksum': 9, |
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'cluster': 10 |
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} |
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def create_tables(engine): |
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metadata = MetaData() |
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#create nodes table
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columns = [] |
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columns.append(Column('node', Integer, primary_key=True)) |
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columns.append(Column('parent', Integer,
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ForeignKey('nodes.node',
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ondelete='CASCADE',
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onupdate='CASCADE'),
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autoincrement=False))
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columns.append(Column('latest_version', Integer))
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columns.append(Column('path', String(2048), default='', nullable=False)) |
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nodes = Table('nodes', metadata, *columns, mysql_engine='InnoDB') |
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Index('idx_nodes_path', nodes.c.path, unique=True) |
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Index('idx_nodes_parent', nodes.c.parent)
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#create policy table
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columns = [] |
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columns.append(Column('node', Integer,
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ForeignKey('nodes.node',
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ondelete='CASCADE',
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onupdate='CASCADE'),
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primary_key=True))
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columns.append(Column('key', String(128), primary_key=True)) |
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columns.append(Column('value', String(256))) |
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policy = Table('policy', metadata, *columns, mysql_engine='InnoDB') |
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#create statistics table
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columns = [] |
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columns.append(Column('node', Integer,
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ForeignKey('nodes.node',
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ondelete='CASCADE',
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onupdate='CASCADE'),
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primary_key=True))
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columns.append(Column('population', Integer, nullable=False, default=0)) |
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columns.append(Column('size', BigInteger, nullable=False, default=0)) |
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columns.append(Column('mtime', DECIMAL(precision=16, scale=6))) |
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columns.append(Column('cluster', Integer, nullable=False, default=0, |
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primary_key=True, autoincrement=False)) |
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statistics = Table('statistics', metadata, *columns, mysql_engine='InnoDB') |
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#create versions table
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columns = [] |
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columns.append(Column('serial', Integer, primary_key=True)) |
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columns.append(Column('node', Integer,
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ForeignKey('nodes.node',
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ondelete='CASCADE',
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onupdate='CASCADE')))
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columns.append(Column('hash', String(256))) |
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columns.append(Column('size', BigInteger, nullable=False, default=0)) |
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columns.append(Column('type', String(256), nullable=False, default='')) |
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columns.append(Column('source', Integer))
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columns.append(Column('mtime', DECIMAL(precision=16, scale=6))) |
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columns.append(Column('muser', String(256), nullable=False, default='')) |
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columns.append(Column('uuid', String(64), nullable=False, default='')) |
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columns.append(Column('checksum', String(256), nullable=False, default='')) |
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columns.append(Column('cluster', Integer, nullable=False, default=0)) |
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versions = Table('versions', metadata, *columns, mysql_engine='InnoDB') |
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Index('idx_versions_node_mtime', versions.c.node, versions.c.mtime)
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Index('idx_versions_node_uuid', versions.c.uuid)
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#create attributes table
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columns = [] |
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columns.append(Column('serial', Integer,
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ForeignKey('versions.serial',
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ondelete='CASCADE',
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onupdate='CASCADE'),
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primary_key=True))
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columns.append(Column('domain', String(256), primary_key=True)) |
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columns.append(Column('key', String(128), primary_key=True)) |
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columns.append(Column('value', String(256))) |
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attributes = Table('attributes', metadata, *columns, mysql_engine='InnoDB') |
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Index('idx_attributes_domain', attributes.c.domain)
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metadata.create_all(engine) |
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return metadata.sorted_tables
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class Node(DBWorker): |
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"""Nodes store path organization and have multiple versions.
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Versions store object history and have multiple attributes.
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Attributes store metadata.
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"""
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# TODO: Provide an interface for included and excluded clusters.
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def __init__(self, **params): |
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DBWorker.__init__(self, **params)
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try:
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metadata = MetaData(self.engine)
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self.nodes = Table('nodes', metadata, autoload=True) |
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self.policy = Table('policy', metadata, autoload=True) |
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self.statistics = Table('statistics', metadata, autoload=True) |
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self.versions = Table('versions', metadata, autoload=True) |
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self.attributes = Table('attributes', metadata, autoload=True) |
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except NoSuchTableError:
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tables = create_tables(self.engine)
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map(lambda t: self.__setattr__(t.name, t), tables) |
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s = self.nodes.select().where(and_(self.nodes.c.node == ROOTNODE, |
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self.nodes.c.parent == ROOTNODE))
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wrapper = self.wrapper
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wrapper.execute() |
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try:
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rp = self.conn.execute(s)
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r = rp.fetchone() |
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rp.close() |
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if not r: |
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s = self.nodes.insert(
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).values(node=ROOTNODE, parent=ROOTNODE, path='')
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self.conn.execute(s)
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finally:
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wrapper.commit() |
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def node_create(self, parent, path): |
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"""Create a new node from the given properties.
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Return the node identifier of the new node.
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"""
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#TODO catch IntegrityError?
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s = self.nodes.insert().values(parent=parent, path=path)
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r = self.conn.execute(s)
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inserted_primary_key = r.inserted_primary_key[0]
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r.close() |
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return inserted_primary_key
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def node_lookup(self, path): |
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"""Lookup the current node of the given path.
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Return None if the path is not found.
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"""
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# Use LIKE for comparison to avoid MySQL problems with trailing spaces.
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s = select([self.nodes.c.node], self.nodes.c.path.like( |
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self.escape_like(path), escape='\\')) |
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r = self.conn.execute(s)
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row = r.fetchone() |
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r.close() |
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if row:
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return row[0] |
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return None |
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def node_lookup_bulk(self, paths): |
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"""Lookup the current nodes for the given paths.
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Return () if the path is not found.
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"""
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if not paths: |
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return ()
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# Use LIKE for comparison to avoid MySQL problems with trailing spaces.
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s = select([self.nodes.c.node], self.nodes.c.path.in_(paths)) |
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r = self.conn.execute(s)
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rows = r.fetchall() |
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r.close() |
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return [row[0] for row in rows] |
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def node_get_properties(self, node): |
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"""Return the node's (parent, path).
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Return None if the node is not found.
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"""
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s = select([self.nodes.c.parent, self.nodes.c.path]) |
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s = s.where(self.nodes.c.node == node)
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r = self.conn.execute(s)
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l = r.fetchone() |
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r.close() |
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return l
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def node_get_versions(self, node, keys=(), propnames=_propnames): |
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"""Return the properties of all versions at node.
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If keys is empty, return all properties in the order
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(serial, node, hash, size, type, source, mtime, muser, uuid, checksum, cluster).
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"""
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s = select([self.versions.c.serial,
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self.versions.c.node,
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self.versions.c.hash,
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self.versions.c.size,
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self.versions.c.type,
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self.versions.c.source,
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self.versions.c.mtime,
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self.versions.c.muser,
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self.versions.c.uuid,
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self.versions.c.checksum,
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self.versions.c.cluster], self.versions.c.node == node) |
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s = s.order_by(self.versions.c.serial)
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r = self.conn.execute(s)
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rows = r.fetchall() |
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r.close() |
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if not rows: |
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return rows
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if not keys: |
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return rows
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return [[p[propnames[k]] for k in keys if k in propnames] for p in rows] |
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def node_count_children(self, node): |
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"""Return node's child count."""
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s = select([func.count(self.nodes.c.node)])
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s = s.where(and_(self.nodes.c.parent == node,
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self.nodes.c.node != ROOTNODE))
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r = self.conn.execute(s)
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row = r.fetchone() |
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r.close() |
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return row[0] |
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def node_purge_children(self, parent, before=inf, cluster=0): |
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"""Delete all versions with the specified
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parent and cluster, and return
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the hashes, the total size and the serials of versions deleted.
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Clears out nodes with no remaining versions.
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"""
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#update statistics
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c1 = select([self.nodes.c.node],
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self.nodes.c.parent == parent)
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where_clause = and_(self.versions.c.node.in_(c1),
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self.versions.c.cluster == cluster)
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if before != inf:
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where_clause = and_(where_clause, |
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self.versions.c.mtime <= before)
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s = select([func.count(self.versions.c.serial),
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func.sum(self.versions.c.size)])
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s = s.where(where_clause) |
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r = self.conn.execute(s)
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row = r.fetchone() |
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r.close() |
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if not row: |
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return (), 0, () |
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nr, size = row[0], row[1] if row[1] else 0 |
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mtime = time() |
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self.statistics_update(parent, -nr, -size, mtime, cluster)
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self.statistics_update_ancestors(parent, -nr, -size, mtime, cluster)
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s = select([self.versions.c.hash, self.versions.c.serial]) |
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s = s.where(where_clause) |
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r = self.conn.execute(s)
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hashes = [] |
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serials = [] |
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for row in r.fetchall(): |
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hashes += [row[0]]
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serials += [row[1]]
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r.close() |
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#delete versions
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s = self.versions.delete().where(where_clause)
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r = self.conn.execute(s)
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r.close() |
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#delete nodes
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s = select([self.nodes.c.node],
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and_(self.nodes.c.parent == parent,
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select([func.count(self.versions.c.serial)],
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self.versions.c.node == self.nodes.c.node).as_scalar() == 0)) |
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rp = self.conn.execute(s)
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nodes = [r[0] for r in rp.fetchall()] |
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rp.close() |
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if nodes:
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s = self.nodes.delete().where(self.nodes.c.node.in_(nodes)) |
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self.conn.execute(s).close()
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return hashes, size, serials
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def node_purge(self, node, before=inf, cluster=0): |
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"""Delete all versions with the specified
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node and cluster, and return
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the hashes and size of versions deleted.
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Clears out the node if it has no remaining versions.
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"""
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#update statistics
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s = select([func.count(self.versions.c.serial),
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func.sum(self.versions.c.size)])
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where_clause = and_(self.versions.c.node == node,
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self.versions.c.cluster == cluster)
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if before != inf:
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where_clause = and_(where_clause, |
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self.versions.c.mtime <= before)
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s = s.where(where_clause) |
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r = self.conn.execute(s)
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row = r.fetchone() |
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nr, size = row[0], row[1] |
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r.close() |
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if not nr: |
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return (), 0, () |
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mtime = time() |
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self.statistics_update_ancestors(node, -nr, -size, mtime, cluster)
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s = select([self.versions.c.hash, self.versions.c.serial]) |
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s = s.where(where_clause) |
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r = self.conn.execute(s)
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hashes = [] |
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serials = [] |
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for row in r.fetchall(): |
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hashes += [row[0]]
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serials += [row[1]]
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r.close() |
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#delete versions
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s = self.versions.delete().where(where_clause)
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r = self.conn.execute(s)
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r.close() |
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#delete nodes
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s = select([self.nodes.c.node],
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and_(self.nodes.c.node == node,
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select([func.count(self.versions.c.serial)],
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self.versions.c.node == self.nodes.c.node).as_scalar() == 0)) |
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rp= self.conn.execute(s)
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nodes = [r[0] for r in rp.fetchall()] |
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rp.close() |
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if nodes:
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s = self.nodes.delete().where(self.nodes.c.node.in_(nodes)) |
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self.conn.execute(s).close()
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return hashes, size, serials
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|
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def node_remove(self, node): |
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"""Remove the node specified.
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Return false if the node has children or is not found.
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"""
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if self.node_count_children(node): |
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return False |
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mtime = time() |
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s = select([func.count(self.versions.c.serial),
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func.sum(self.versions.c.size),
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self.versions.c.cluster])
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s = s.where(self.versions.c.node == node)
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s = s.group_by(self.versions.c.cluster)
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r = self.conn.execute(s)
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for population, size, cluster in r.fetchall(): |
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self.statistics_update_ancestors(
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node, -population, -size, mtime, cluster) |
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r.close() |
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|
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s = self.nodes.delete().where(self.nodes.c.node == node) |
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self.conn.execute(s).close()
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return True |
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|
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def node_accounts(self, accounts=()): |
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s = select([self.nodes.c.path, self.nodes.c.node]) |
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s = s.where(and_(self.nodes.c.node != 0, |
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self.nodes.c.parent == 0)) |
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if accounts:
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s = s.where(self.nodes.c.path.in_(accounts))
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r = self.conn.execute(s)
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rows = r.fetchall() |
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r.close() |
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return rows
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|
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def node_account_usage(self, account_node, cluster): |
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select_children = select( |
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[self.nodes.c.node]).where(self.nodes.c.parent == account_node) |
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select_descendants = select([self.nodes.c.node]).where(
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or_(self.nodes.c.parent.in_(select_children),
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self.nodes.c.node.in_(select_children)))
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s = select([func.sum(self.versions.c.size)])
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s = s.group_by(self.versions.c.cluster)
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s = s.where(self.nodes.c.node == self.versions.c.node) |
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s = s.where(self.nodes.c.node.in_(select_descendants))
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s = s.where(self.versions.c.cluster == cluster)
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r = self.conn.execute(s)
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usage = r.fetchone()[0]
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r.close() |
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return usage
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|
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def policy_get(self, node): |
480 |
s = select([self.policy.c.key, self.policy.c.value], |
481 |
self.policy.c.node == node)
|
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r = self.conn.execute(s)
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d = dict(r.fetchall())
|
484 |
r.close() |
485 |
return d
|
486 |
|
487 |
def policy_set(self, node, policy): |
488 |
#insert or replace
|
489 |
for k, v in policy.iteritems(): |
490 |
s = self.policy.update().where(and_(self.policy.c.node == node, |
491 |
self.policy.c.key == k))
|
492 |
s = s.values(value=v) |
493 |
rp = self.conn.execute(s)
|
494 |
rp.close() |
495 |
if rp.rowcount == 0: |
496 |
s = self.policy.insert()
|
497 |
values = {'node': node, 'key': k, 'value': v} |
498 |
r = self.conn.execute(s, values)
|
499 |
r.close() |
500 |
|
501 |
def statistics_get(self, node, cluster=0): |
502 |
"""Return population, total size and last mtime
|
503 |
for all versions under node that belong to the cluster.
|
504 |
"""
|
505 |
|
506 |
s = select([self.statistics.c.population,
|
507 |
self.statistics.c.size,
|
508 |
self.statistics.c.mtime])
|
509 |
s = s.where(and_(self.statistics.c.node == node,
|
510 |
self.statistics.c.cluster == cluster))
|
511 |
r = self.conn.execute(s)
|
512 |
row = r.fetchone() |
513 |
r.close() |
514 |
return row
|
515 |
|
516 |
def statistics_update(self, node, population, size, mtime, cluster=0): |
517 |
"""Update the statistics of the given node.
|
518 |
Statistics keep track the population, total
|
519 |
size of objects and mtime in the node's namespace.
|
520 |
May be zero or positive or negative numbers.
|
521 |
"""
|
522 |
s = select([self.statistics.c.population, self.statistics.c.size], |
523 |
and_(self.statistics.c.node == node,
|
524 |
self.statistics.c.cluster == cluster))
|
525 |
rp = self.conn.execute(s)
|
526 |
r = rp.fetchone() |
527 |
rp.close() |
528 |
if not r: |
529 |
prepopulation, presize = (0, 0) |
530 |
else:
|
531 |
prepopulation, presize = r |
532 |
population += prepopulation |
533 |
population = max(population, 0) |
534 |
size += presize |
535 |
|
536 |
#insert or replace
|
537 |
#TODO better upsert
|
538 |
u = self.statistics.update().where(and_(self.statistics.c.node == node, |
539 |
self.statistics.c.cluster == cluster))
|
540 |
u = u.values(population=population, size=size, mtime=mtime) |
541 |
rp = self.conn.execute(u)
|
542 |
rp.close() |
543 |
if rp.rowcount == 0: |
544 |
ins = self.statistics.insert()
|
545 |
ins = ins.values(node=node, population=population, size=size, |
546 |
mtime=mtime, cluster=cluster) |
547 |
self.conn.execute(ins).close()
|
548 |
|
549 |
def statistics_update_ancestors(self, node, population, size, mtime, cluster=0): |
550 |
"""Update the statistics of the given node's parent.
|
551 |
Then recursively update all parents up to the root.
|
552 |
Population is not recursive.
|
553 |
"""
|
554 |
|
555 |
while True: |
556 |
if node == ROOTNODE:
|
557 |
break
|
558 |
props = self.node_get_properties(node)
|
559 |
if props is None: |
560 |
break
|
561 |
parent, path = props |
562 |
self.statistics_update(parent, population, size, mtime, cluster)
|
563 |
node = parent |
564 |
population = 0 # Population isn't recursive |
565 |
|
566 |
def statistics_latest(self, node, before=inf, except_cluster=0): |
567 |
"""Return population, total size and last mtime
|
568 |
for all latest versions under node that
|
569 |
do not belong to the cluster.
|
570 |
"""
|
571 |
|
572 |
# The node.
|
573 |
props = self.node_get_properties(node)
|
574 |
if props is None: |
575 |
return None |
576 |
parent, path = props |
577 |
|
578 |
# The latest version.
|
579 |
s = select([self.versions.c.serial,
|
580 |
self.versions.c.node,
|
581 |
self.versions.c.hash,
|
582 |
self.versions.c.size,
|
583 |
self.versions.c.type,
|
584 |
self.versions.c.source,
|
585 |
self.versions.c.mtime,
|
586 |
self.versions.c.muser,
|
587 |
self.versions.c.uuid,
|
588 |
self.versions.c.checksum,
|
589 |
self.versions.c.cluster])
|
590 |
if before != inf:
|
591 |
filtered = select([func.max(self.versions.c.serial)],
|
592 |
self.versions.c.node == node)
|
593 |
filtered = filtered.where(self.versions.c.mtime < before)
|
594 |
else:
|
595 |
filtered = select([self.nodes.c.latest_version],
|
596 |
self.versions.c.node == node)
|
597 |
s = s.where(and_(self.versions.c.cluster != except_cluster,
|
598 |
self.versions.c.serial == filtered))
|
599 |
r = self.conn.execute(s)
|
600 |
props = r.fetchone() |
601 |
r.close() |
602 |
if not props: |
603 |
return None |
604 |
mtime = props[MTIME] |
605 |
|
606 |
# First level, just under node (get population).
|
607 |
v = self.versions.alias('v') |
608 |
s = select([func.count(v.c.serial), |
609 |
func.sum(v.c.size), |
610 |
func.max(v.c.mtime)]) |
611 |
if before != inf:
|
612 |
c1 = select([func.max(self.versions.c.serial)])
|
613 |
c1 = c1.where(self.versions.c.mtime < before)
|
614 |
c1.where(self.versions.c.node == v.c.node)
|
615 |
else:
|
616 |
c1 = select([self.nodes.c.latest_version])
|
617 |
c1.where(self.nodes.c.node == v.c.node)
|
618 |
c2 = select([self.nodes.c.node], self.nodes.c.parent == node) |
619 |
s = s.where(and_(v.c.serial == c1, |
620 |
v.c.cluster != except_cluster, |
621 |
v.c.node.in_(c2))) |
622 |
rp = self.conn.execute(s)
|
623 |
r = rp.fetchone() |
624 |
rp.close() |
625 |
if not r: |
626 |
return None |
627 |
count = r[0]
|
628 |
mtime = max(mtime, r[2]) |
629 |
if count == 0: |
630 |
return (0, 0, mtime) |
631 |
|
632 |
# All children (get size and mtime).
|
633 |
# This is why the full path is stored.
|
634 |
s = select([func.count(v.c.serial), |
635 |
func.sum(v.c.size), |
636 |
func.max(v.c.mtime)]) |
637 |
if before != inf:
|
638 |
c1 = select([func.max(self.versions.c.serial)],
|
639 |
self.versions.c.node == v.c.node)
|
640 |
c1 = c1.where(self.versions.c.mtime < before)
|
641 |
else:
|
642 |
c1 = select([self.nodes.c.serial],
|
643 |
self.nodes.c.node == v.c.node)
|
644 |
c2 = select([self.nodes.c.node], self.nodes.c.path.like( |
645 |
self.escape_like(path) + '%', escape='\\')) |
646 |
s = s.where(and_(v.c.serial == c1, |
647 |
v.c.cluster != except_cluster, |
648 |
v.c.node.in_(c2))) |
649 |
rp = self.conn.execute(s)
|
650 |
r = rp.fetchone() |
651 |
rp.close() |
652 |
if not r: |
653 |
return None |
654 |
size = r[1] - props[SIZE]
|
655 |
mtime = max(mtime, r[2]) |
656 |
return (count, size, mtime)
|
657 |
|
658 |
def nodes_set_latest_version(self, node, serial): |
659 |
s = self.nodes.update().where(self.nodes.c.node == node) |
660 |
s = s.values(latest_version=serial) |
661 |
self.conn.execute(s).close()
|
662 |
|
663 |
def version_create(self, node, hash, size, type, source, muser, uuid, checksum, cluster=0): |
664 |
"""Create a new version from the given properties.
|
665 |
Return the (serial, mtime) of the new version.
|
666 |
"""
|
667 |
|
668 |
mtime = time() |
669 |
s = self.versions.insert(
|
670 |
).values(node=node, hash=hash, size=size, type=type, source=source, |
671 |
mtime=mtime, muser=muser, uuid=uuid, checksum=checksum, cluster=cluster) |
672 |
serial = self.conn.execute(s).inserted_primary_key[0] |
673 |
self.statistics_update_ancestors(node, 1, size, mtime, cluster) |
674 |
|
675 |
self.nodes_set_latest_version(node, serial)
|
676 |
|
677 |
return serial, mtime
|
678 |
|
679 |
def version_lookup(self, node, before=inf, cluster=0, all_props=True): |
680 |
"""Lookup the current version of the given node.
|
681 |
Return a list with its properties:
|
682 |
(serial, node, hash, size, type, source, mtime,
|
683 |
muser, uuid, checksum, cluster)
|
684 |
or None if the current version is not found in the given cluster.
|
685 |
"""
|
686 |
|
687 |
v = self.versions.alias('v') |
688 |
if not all_props: |
689 |
s = select([v.c.serial]) |
690 |
else:
|
691 |
s = select([v.c.serial, v.c.node, v.c.hash, |
692 |
v.c.size, v.c.type, v.c.source, |
693 |
v.c.mtime, v.c.muser, v.c.uuid, |
694 |
v.c.checksum, v.c.cluster]) |
695 |
if before != inf:
|
696 |
c = select([func.max(self.versions.c.serial)],
|
697 |
self.versions.c.node == node)
|
698 |
c = c.where(self.versions.c.mtime < before)
|
699 |
else:
|
700 |
c = select([self.nodes.c.latest_version],
|
701 |
self.nodes.c.node == node)
|
702 |
s = s.where(and_(v.c.serial == c, |
703 |
v.c.cluster == cluster)) |
704 |
r = self.conn.execute(s)
|
705 |
props = r.fetchone() |
706 |
r.close() |
707 |
if props:
|
708 |
return props
|
709 |
return None |
710 |
|
711 |
def version_lookup_bulk(self, nodes, before=inf, cluster=0, all_props=True): |
712 |
"""Lookup the current versions of the given nodes.
|
713 |
Return a list with their properties:
|
714 |
(serial, node, hash, size, type, source, mtime, muser, uuid, checksum, cluster).
|
715 |
"""
|
716 |
if not nodes: |
717 |
return ()
|
718 |
v = self.versions.alias('v') |
719 |
if not all_props: |
720 |
s = select([v.c.serial]) |
721 |
else:
|
722 |
s = select([v.c.serial, v.c.node, v.c.hash, |
723 |
v.c.size, v.c.type, v.c.source, |
724 |
v.c.mtime, v.c.muser, v.c.uuid, |
725 |
v.c.checksum, v.c.cluster]) |
726 |
if before != inf:
|
727 |
c = select([func.max(self.versions.c.serial)],
|
728 |
self.versions.c.node.in_(nodes))
|
729 |
c = c.where(self.versions.c.mtime < before)
|
730 |
c = c.group_by(self.versions.c.node)
|
731 |
else:
|
732 |
c = select([self.nodes.c.latest_version],
|
733 |
self.nodes.c.node.in_(nodes))
|
734 |
s = s.where(and_(v.c.serial.in_(c), |
735 |
v.c.cluster == cluster)) |
736 |
s = s.order_by(v.c.node) |
737 |
r = self.conn.execute(s)
|
738 |
rproxy = r.fetchall() |
739 |
r.close() |
740 |
return (tuple(row.values()) for row in rproxy) |
741 |
|
742 |
def version_get_properties(self, serial, keys=(), propnames=_propnames): |
743 |
"""Return a sequence of values for the properties of
|
744 |
the version specified by serial and the keys, in the order given.
|
745 |
If keys is empty, return all properties in the order
|
746 |
(serial, node, hash, size, type, source, mtime, muser, uuid, checksum, cluster).
|
747 |
"""
|
748 |
|
749 |
v = self.versions.alias()
|
750 |
s = select([v.c.serial, v.c.node, v.c.hash, |
751 |
v.c.size, v.c.type, v.c.source, |
752 |
v.c.mtime, v.c.muser, v.c.uuid, |
753 |
v.c.checksum, v.c.cluster], v.c.serial == serial) |
754 |
rp = self.conn.execute(s)
|
755 |
r = rp.fetchone() |
756 |
rp.close() |
757 |
if r is None: |
758 |
return r
|
759 |
|
760 |
if not keys: |
761 |
return r
|
762 |
return [r[propnames[k]] for k in keys if k in propnames] |
763 |
|
764 |
def version_put_property(self, serial, key, value): |
765 |
"""Set value for the property of version specified by key."""
|
766 |
|
767 |
if key not in _propnames: |
768 |
return
|
769 |
s = self.versions.update()
|
770 |
s = s.where(self.versions.c.serial == serial)
|
771 |
s = s.values(**{key: value}) |
772 |
self.conn.execute(s).close()
|
773 |
|
774 |
def version_recluster(self, serial, cluster): |
775 |
"""Move the version into another cluster."""
|
776 |
|
777 |
props = self.version_get_properties(serial)
|
778 |
if not props: |
779 |
return
|
780 |
node = props[NODE] |
781 |
size = props[SIZE] |
782 |
oldcluster = props[CLUSTER] |
783 |
if cluster == oldcluster:
|
784 |
return
|
785 |
|
786 |
mtime = time() |
787 |
self.statistics_update_ancestors(node, -1, -size, mtime, oldcluster) |
788 |
self.statistics_update_ancestors(node, 1, size, mtime, cluster) |
789 |
|
790 |
s = self.versions.update()
|
791 |
s = s.where(self.versions.c.serial == serial)
|
792 |
s = s.values(cluster=cluster) |
793 |
self.conn.execute(s).close()
|
794 |
|
795 |
def version_remove(self, serial): |
796 |
"""Remove the serial specified."""
|
797 |
|
798 |
props = self.version_get_properties(serial)
|
799 |
if not props: |
800 |
return
|
801 |
node = props[NODE] |
802 |
hash = props[HASH] |
803 |
size = props[SIZE] |
804 |
cluster = props[CLUSTER] |
805 |
|
806 |
mtime = time() |
807 |
self.statistics_update_ancestors(node, -1, -size, mtime, cluster) |
808 |
|
809 |
s = self.versions.delete().where(self.versions.c.serial == serial) |
810 |
self.conn.execute(s).close()
|
811 |
|
812 |
props = self.version_lookup(node, cluster=cluster, all_props=False) |
813 |
if props:
|
814 |
self.nodes_set_latest_version(node, serial)
|
815 |
|
816 |
return hash, size |
817 |
|
818 |
def attribute_get(self, serial, domain, keys=()): |
819 |
"""Return a list of (key, value) pairs of the version specified by serial.
|
820 |
If keys is empty, return all attributes.
|
821 |
Othwerise, return only those specified.
|
822 |
"""
|
823 |
|
824 |
if keys:
|
825 |
attrs = self.attributes.alias()
|
826 |
s = select([attrs.c.key, attrs.c.value]) |
827 |
s = s.where(and_(attrs.c.key.in_(keys), |
828 |
attrs.c.serial == serial, |
829 |
attrs.c.domain == domain)) |
830 |
else:
|
831 |
attrs = self.attributes.alias()
|
832 |
s = select([attrs.c.key, attrs.c.value]) |
833 |
s = s.where(and_(attrs.c.serial == serial, |
834 |
attrs.c.domain == domain)) |
835 |
r = self.conn.execute(s)
|
836 |
l = r.fetchall() |
837 |
r.close() |
838 |
return l
|
839 |
|
840 |
def attribute_set(self, serial, domain, items): |
841 |
"""Set the attributes of the version specified by serial.
|
842 |
Receive attributes as an iterable of (key, value) pairs.
|
843 |
"""
|
844 |
#insert or replace
|
845 |
#TODO better upsert
|
846 |
for k, v in items: |
847 |
s = self.attributes.update()
|
848 |
s = s.where(and_(self.attributes.c.serial == serial,
|
849 |
self.attributes.c.domain == domain,
|
850 |
self.attributes.c.key == k))
|
851 |
s = s.values(value=v) |
852 |
rp = self.conn.execute(s)
|
853 |
rp.close() |
854 |
if rp.rowcount == 0: |
855 |
s = self.attributes.insert()
|
856 |
s = s.values(serial=serial, domain=domain, key=k, value=v) |
857 |
self.conn.execute(s).close()
|
858 |
|
859 |
def attribute_del(self, serial, domain, keys=()): |
860 |
"""Delete attributes of the version specified by serial.
|
861 |
If keys is empty, delete all attributes.
|
862 |
Otherwise delete those specified.
|
863 |
"""
|
864 |
|
865 |
if keys:
|
866 |
#TODO more efficient way to do this?
|
867 |
for key in keys: |
868 |
s = self.attributes.delete()
|
869 |
s = s.where(and_(self.attributes.c.serial == serial,
|
870 |
self.attributes.c.domain == domain,
|
871 |
self.attributes.c.key == key))
|
872 |
self.conn.execute(s).close()
|
873 |
else:
|
874 |
s = self.attributes.delete()
|
875 |
s = s.where(and_(self.attributes.c.serial == serial,
|
876 |
self.attributes.c.domain == domain))
|
877 |
self.conn.execute(s).close()
|
878 |
|
879 |
def attribute_copy(self, source, dest): |
880 |
s = select( |
881 |
[dest, self.attributes.c.domain,
|
882 |
self.attributes.c.key, self.attributes.c.value], |
883 |
self.attributes.c.serial == source)
|
884 |
rp = self.conn.execute(s)
|
885 |
attributes = rp.fetchall() |
886 |
rp.close() |
887 |
for dest, domain, k, v in attributes: |
888 |
#insert or replace
|
889 |
s = self.attributes.update().where(and_(
|
890 |
self.attributes.c.serial == dest,
|
891 |
self.attributes.c.domain == domain,
|
892 |
self.attributes.c.key == k))
|
893 |
rp = self.conn.execute(s, value=v)
|
894 |
rp.close() |
895 |
if rp.rowcount == 0: |
896 |
s = self.attributes.insert()
|
897 |
values = {'serial': dest, 'domain': domain, |
898 |
'key': k, 'value': v} |
899 |
self.conn.execute(s, values).close()
|
900 |
|
901 |
def latest_attribute_keys(self, parent, domain, before=inf, except_cluster=0, pathq=None): |
902 |
"""Return a list with all keys pairs defined
|
903 |
for all latest versions under parent that
|
904 |
do not belong to the cluster.
|
905 |
"""
|
906 |
|
907 |
pathq = pathq or []
|
908 |
|
909 |
# TODO: Use another table to store before=inf results.
|
910 |
a = self.attributes.alias('a') |
911 |
v = self.versions.alias('v') |
912 |
n = self.nodes.alias('n') |
913 |
s = select([a.c.key]).distinct() |
914 |
if before != inf:
|
915 |
filtered = select([func.max(self.versions.c.serial)])
|
916 |
filtered = filtered.where(self.versions.c.mtime < before)
|
917 |
filtered = filtered.where(self.versions.c.node == v.c.node)
|
918 |
else:
|
919 |
filtered = select([self.nodes.c.latest_version])
|
920 |
filtered = filtered.where(self.nodes.c.node == v.c.node)
|
921 |
s = s.where(v.c.serial == filtered) |
922 |
s = s.where(v.c.cluster != except_cluster) |
923 |
s = s.where(v.c.node.in_(select([self.nodes.c.node],
|
924 |
self.nodes.c.parent == parent)))
|
925 |
s = s.where(a.c.serial == v.c.serial) |
926 |
s = s.where(a.c.domain == domain) |
927 |
s = s.where(n.c.node == v.c.node) |
928 |
conj = [] |
929 |
for path, match in pathq: |
930 |
if match == MATCH_PREFIX:
|
931 |
conj.append( |
932 |
n.c.path.like(self.escape_like(path) + '%', escape='\\')) |
933 |
elif match == MATCH_EXACT:
|
934 |
conj.append(n.c.path == path) |
935 |
if conj:
|
936 |
s = s.where(or_(*conj)) |
937 |
rp = self.conn.execute(s)
|
938 |
rows = rp.fetchall() |
939 |
rp.close() |
940 |
return [r[0] for r in rows] |
941 |
|
942 |
def latest_version_list(self, parent, prefix='', delimiter=None, |
943 |
start='', limit=10000, before=inf, |
944 |
except_cluster=0, pathq=[], domain=None, |
945 |
filterq=[], sizeq=None, all_props=False): |
946 |
"""Return a (list of (path, serial) tuples, list of common prefixes)
|
947 |
for the current versions of the paths with the given parent,
|
948 |
matching the following criteria.
|
949 |
|
950 |
The property tuple for a version is returned if all
|
951 |
of these conditions are true:
|
952 |
|
953 |
a. parent matches
|
954 |
|
955 |
b. path > start
|
956 |
|
957 |
c. path starts with prefix (and paths in pathq)
|
958 |
|
959 |
d. version is the max up to before
|
960 |
|
961 |
e. version is not in cluster
|
962 |
|
963 |
f. the path does not have the delimiter occuring
|
964 |
after the prefix, or ends with the delimiter
|
965 |
|
966 |
g. serial matches the attribute filter query.
|
967 |
|
968 |
A filter query is a comma-separated list of
|
969 |
terms in one of these three forms:
|
970 |
|
971 |
key
|
972 |
an attribute with this key must exist
|
973 |
|
974 |
!key
|
975 |
an attribute with this key must not exist
|
976 |
|
977 |
key ?op value
|
978 |
the attribute with this key satisfies the value
|
979 |
where ?op is one of ==, != <=, >=, <, >.
|
980 |
|
981 |
h. the size is in the range set by sizeq
|
982 |
|
983 |
The list of common prefixes includes the prefixes
|
984 |
matching up to the first delimiter after prefix,
|
985 |
and are reported only once, as "virtual directories".
|
986 |
The delimiter is included in the prefixes.
|
987 |
|
988 |
If arguments are None, then the corresponding matching rule
|
989 |
will always match.
|
990 |
|
991 |
Limit applies to the first list of tuples returned.
|
992 |
|
993 |
If all_props is True, return all properties after path, not just serial.
|
994 |
"""
|
995 |
|
996 |
if not start or start < prefix: |
997 |
start = strprevling(prefix) |
998 |
nextling = strnextling(prefix) |
999 |
|
1000 |
v = self.versions.alias('v') |
1001 |
n = self.nodes.alias('n') |
1002 |
if not all_props: |
1003 |
s = select([n.c.path, v.c.serial]).distinct() |
1004 |
else:
|
1005 |
s = select([n.c.path, |
1006 |
v.c.serial, v.c.node, v.c.hash, |
1007 |
v.c.size, v.c.type, v.c.source, |
1008 |
v.c.mtime, v.c.muser, v.c.uuid, |
1009 |
v.c.checksum, v.c.cluster]).distinct() |
1010 |
if before != inf:
|
1011 |
filtered = select([func.max(self.versions.c.serial)])
|
1012 |
filtered = filtered.where(self.versions.c.mtime < before)
|
1013 |
else:
|
1014 |
filtered = select([self.nodes.c.latest_version])
|
1015 |
s = s.where( |
1016 |
v.c.serial == filtered.where(self.nodes.c.node == v.c.node))
|
1017 |
s = s.where(v.c.cluster != except_cluster) |
1018 |
s = s.where(v.c.node.in_(select([self.nodes.c.node],
|
1019 |
self.nodes.c.parent == parent)))
|
1020 |
|
1021 |
s = s.where(n.c.node == v.c.node) |
1022 |
s = s.where(and_(n.c.path > bindparam('start'), n.c.path < nextling))
|
1023 |
conj = [] |
1024 |
for path, match in pathq: |
1025 |
if match == MATCH_PREFIX:
|
1026 |
conj.append( |
1027 |
n.c.path.like(self.escape_like(path) + '%', escape='\\')) |
1028 |
elif match == MATCH_EXACT:
|
1029 |
conj.append(n.c.path == path) |
1030 |
if conj:
|
1031 |
s = s.where(or_(*conj)) |
1032 |
|
1033 |
if sizeq and len(sizeq) == 2: |
1034 |
if sizeq[0]: |
1035 |
s = s.where(v.c.size >= sizeq[0])
|
1036 |
if sizeq[1]: |
1037 |
s = s.where(v.c.size < sizeq[1])
|
1038 |
|
1039 |
if domain and filterq: |
1040 |
a = self.attributes.alias('a') |
1041 |
included, excluded, opers = parse_filters(filterq) |
1042 |
if included:
|
1043 |
subs = select([1])
|
1044 |
subs = subs.where(a.c.serial == v.c.serial).correlate(v) |
1045 |
subs = subs.where(a.c.domain == domain) |
1046 |
subs = subs.where(or_(*[a.c.key.op('=')(x) for x in included])) |
1047 |
s = s.where(exists(subs)) |
1048 |
if excluded:
|
1049 |
subs = select([1])
|
1050 |
subs = subs.where(a.c.serial == v.c.serial).correlate(v) |
1051 |
subs = subs.where(a.c.domain == domain) |
1052 |
subs = subs.where(or_(*[a.c.key.op('=')(x) for x in excluded])) |
1053 |
s = s.where(not_(exists(subs))) |
1054 |
if opers:
|
1055 |
for k, o, val in opers: |
1056 |
subs = select([1])
|
1057 |
subs = subs.where(a.c.serial == v.c.serial).correlate(v) |
1058 |
subs = subs.where(a.c.domain == domain) |
1059 |
subs = subs.where( |
1060 |
and_(a.c.key.op('=')(k), a.c.value.op(o)(val)))
|
1061 |
s = s.where(exists(subs)) |
1062 |
|
1063 |
s = s.order_by(n.c.path) |
1064 |
|
1065 |
if not delimiter: |
1066 |
s = s.limit(limit) |
1067 |
rp = self.conn.execute(s, start=start)
|
1068 |
r = rp.fetchall() |
1069 |
rp.close() |
1070 |
return r, ()
|
1071 |
|
1072 |
pfz = len(prefix)
|
1073 |
dz = len(delimiter)
|
1074 |
count = 0
|
1075 |
prefixes = [] |
1076 |
pappend = prefixes.append |
1077 |
matches = [] |
1078 |
mappend = matches.append |
1079 |
|
1080 |
rp = self.conn.execute(s, start=start)
|
1081 |
while True: |
1082 |
props = rp.fetchone() |
1083 |
if props is None: |
1084 |
break
|
1085 |
path = props[0]
|
1086 |
serial = props[1]
|
1087 |
idx = path.find(delimiter, pfz) |
1088 |
|
1089 |
if idx < 0: |
1090 |
mappend(props) |
1091 |
count += 1
|
1092 |
if count >= limit:
|
1093 |
break
|
1094 |
continue
|
1095 |
|
1096 |
if idx + dz == len(path): |
1097 |
mappend(props) |
1098 |
count += 1
|
1099 |
continue # Get one more, in case there is a path. |
1100 |
pf = path[:idx + dz] |
1101 |
pappend(pf) |
1102 |
if count >= limit:
|
1103 |
break
|
1104 |
|
1105 |
rp = self.conn.execute(s, start=strnextling(pf)) # New start. |
1106 |
rp.close() |
1107 |
|
1108 |
return matches, prefixes
|
1109 |
|
1110 |
def latest_uuid(self, uuid, cluster): |
1111 |
"""Return the latest version of the given uuid and cluster.
|
1112 |
|
1113 |
Return a (path, serial) tuple.
|
1114 |
If cluster is None, all clusters are considered.
|
1115 |
|
1116 |
"""
|
1117 |
|
1118 |
v = self.versions.alias('v') |
1119 |
n = self.nodes.alias('n') |
1120 |
s = select([n.c.path, v.c.serial]) |
1121 |
filtered = select([func.max(self.versions.c.serial)])
|
1122 |
filtered = filtered.where(self.versions.c.uuid == uuid)
|
1123 |
if cluster is not None: |
1124 |
filtered = filtered.where(self.versions.c.cluster == cluster)
|
1125 |
s = s.where(v.c.serial == filtered) |
1126 |
s = s.where(n.c.node == v.c.node) |
1127 |
|
1128 |
r = self.conn.execute(s)
|
1129 |
l = r.fetchone() |
1130 |
r.close() |
1131 |
return l
|
1132 |
|
1133 |
def domain_object_list(self, domain, cluster=None): |
1134 |
"""Return a list of (path, property list, attribute dictionary)
|
1135 |
for the objects in the specific domain and cluster.
|
1136 |
"""
|
1137 |
|
1138 |
v = self.versions.alias('v') |
1139 |
n = self.nodes.alias('n') |
1140 |
a = self.attributes.alias('a') |
1141 |
|
1142 |
s = select([n.c.path, v.c.serial, v.c.node, v.c.hash, v.c.size, |
1143 |
v.c.type, v.c.source, v.c.mtime, v.c.muser, v.c.uuid, |
1144 |
v.c.checksum, v.c.cluster, a.c.key, a.c.value]) |
1145 |
s = s.where(n.c.node == v.c.node) |
1146 |
s = s.where(n.c.latest_version == v.c.serial) |
1147 |
if cluster:
|
1148 |
s = s.where(v.c.cluster == cluster) |
1149 |
s = s.where(v.c.serial == a.c.serial) |
1150 |
s = s.where(a.c.domain == domain) |
1151 |
|
1152 |
r = self.conn.execute(s)
|
1153 |
rows = r.fetchall() |
1154 |
r.close() |
1155 |
|
1156 |
group_by = itemgetter(slice(12)) |
1157 |
rows.sort(key = group_by) |
1158 |
groups = groupby(rows, group_by) |
1159 |
return [(k[0], k[1:], dict([i[12:] for i in data])) \ |
1160 |
for (k, data) in groups] |