Mercurial > repos > shellac > sam_consensus_v3
diff env/lib/python3.9/site-packages/boto/manage/volume.py @ 0:4f3585e2f14b draft default tip
"planemo upload commit 60cee0fc7c0cda8592644e1aad72851dec82c959"
| author | shellac |
|---|---|
| date | Mon, 22 Mar 2021 18:12:50 +0000 |
| parents | |
| children |
line wrap: on
line diff
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/env/lib/python3.9/site-packages/boto/manage/volume.py Mon Mar 22 18:12:50 2021 +0000 @@ -0,0 +1,420 @@ +# Copyright (c) 2006-2009 Mitch Garnaat http://garnaat.org/ +# +# Permission is hereby granted, free of charge, to any person obtaining a +# copy of this software and associated documentation files (the +# "Software"), to deal in the Software without restriction, including +# without limitation the rights to use, copy, modify, merge, publish, dis- +# tribute, sublicense, and/or sell copies of the Software, and to permit +# persons to whom the Software is furnished to do so, subject to the fol- +# lowing conditions: +# +# The above copyright notice and this permission notice shall be included +# in all copies or substantial portions of the Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS +# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABIL- +# ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT +# SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, +# WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS +# IN THE SOFTWARE. +from __future__ import print_function + +from boto.sdb.db.model import Model +from boto.sdb.db.property import StringProperty, IntegerProperty, ListProperty, ReferenceProperty, CalculatedProperty +from boto.manage.server import Server +from boto.manage import propget +import boto.utils +import boto.ec2 +import time +import traceback +from contextlib import closing +import datetime + + +class CommandLineGetter(object): + + def get_region(self, params): + if not params.get('region', None): + prop = self.cls.find_property('region_name') + params['region'] = propget.get(prop, choices=boto.ec2.regions) + + def get_zone(self, params): + if not params.get('zone', None): + prop = StringProperty(name='zone', verbose_name='EC2 Availability Zone', + choices=self.ec2.get_all_zones) + params['zone'] = propget.get(prop) + + def get_name(self, params): + if not params.get('name', None): + prop = self.cls.find_property('name') + params['name'] = propget.get(prop) + + def get_size(self, params): + if not params.get('size', None): + prop = IntegerProperty(name='size', verbose_name='Size (GB)') + params['size'] = propget.get(prop) + + def get_mount_point(self, params): + if not params.get('mount_point', None): + prop = self.cls.find_property('mount_point') + params['mount_point'] = propget.get(prop) + + def get_device(self, params): + if not params.get('device', None): + prop = self.cls.find_property('device') + params['device'] = propget.get(prop) + + def get(self, cls, params): + self.cls = cls + self.get_region(params) + self.ec2 = params['region'].connect() + self.get_zone(params) + self.get_name(params) + self.get_size(params) + self.get_mount_point(params) + self.get_device(params) + +class Volume(Model): + + name = StringProperty(required=True, unique=True, verbose_name='Name') + region_name = StringProperty(required=True, verbose_name='EC2 Region') + zone_name = StringProperty(required=True, verbose_name='EC2 Zone') + mount_point = StringProperty(verbose_name='Mount Point') + device = StringProperty(verbose_name="Device Name", default='/dev/sdp') + volume_id = StringProperty(required=True) + past_volume_ids = ListProperty(item_type=str) + server = ReferenceProperty(Server, collection_name='volumes', + verbose_name='Server Attached To') + volume_state = CalculatedProperty(verbose_name="Volume State", + calculated_type=str, use_method=True) + attachment_state = CalculatedProperty(verbose_name="Attachment State", + calculated_type=str, use_method=True) + size = CalculatedProperty(verbose_name="Size (GB)", + calculated_type=int, use_method=True) + + @classmethod + def create(cls, **params): + getter = CommandLineGetter() + getter.get(cls, params) + region = params.get('region') + ec2 = region.connect() + zone = params.get('zone') + size = params.get('size') + ebs_volume = ec2.create_volume(size, zone.name) + v = cls() + v.ec2 = ec2 + v.volume_id = ebs_volume.id + v.name = params.get('name') + v.mount_point = params.get('mount_point') + v.device = params.get('device') + v.region_name = region.name + v.zone_name = zone.name + v.put() + return v + + @classmethod + def create_from_volume_id(cls, region_name, volume_id, name): + vol = None + ec2 = boto.ec2.connect_to_region(region_name) + rs = ec2.get_all_volumes([volume_id]) + if len(rs) == 1: + v = rs[0] + vol = cls() + vol.volume_id = v.id + vol.name = name + vol.region_name = v.region.name + vol.zone_name = v.zone + vol.put() + return vol + + def create_from_latest_snapshot(self, name, size=None): + snapshot = self.get_snapshots()[-1] + return self.create_from_snapshot(name, snapshot, size) + + def create_from_snapshot(self, name, snapshot, size=None): + if size < self.size: + size = self.size + ec2 = self.get_ec2_connection() + if self.zone_name is None or self.zone_name == '': + # deal with the migration case where the zone is not set in the logical volume: + current_volume = ec2.get_all_volumes([self.volume_id])[0] + self.zone_name = current_volume.zone + ebs_volume = ec2.create_volume(size, self.zone_name, snapshot) + v = Volume() + v.ec2 = self.ec2 + v.volume_id = ebs_volume.id + v.name = name + v.mount_point = self.mount_point + v.device = self.device + v.region_name = self.region_name + v.zone_name = self.zone_name + v.put() + return v + + def get_ec2_connection(self): + if self.server: + return self.server.ec2 + if not hasattr(self, 'ec2') or self.ec2 is None: + self.ec2 = boto.ec2.connect_to_region(self.region_name) + return self.ec2 + + def _volume_state(self): + ec2 = self.get_ec2_connection() + rs = ec2.get_all_volumes([self.volume_id]) + return rs[0].volume_state() + + def _attachment_state(self): + ec2 = self.get_ec2_connection() + rs = ec2.get_all_volumes([self.volume_id]) + return rs[0].attachment_state() + + def _size(self): + if not hasattr(self, '__size'): + ec2 = self.get_ec2_connection() + rs = ec2.get_all_volumes([self.volume_id]) + self.__size = rs[0].size + return self.__size + + def install_xfs(self): + if self.server: + self.server.install('xfsprogs xfsdump') + + def get_snapshots(self): + """ + Returns a list of all completed snapshots for this volume ID. + """ + ec2 = self.get_ec2_connection() + rs = ec2.get_all_snapshots() + all_vols = [self.volume_id] + self.past_volume_ids + snaps = [] + for snapshot in rs: + if snapshot.volume_id in all_vols: + if snapshot.progress == '100%': + snapshot.date = boto.utils.parse_ts(snapshot.start_time) + snapshot.keep = True + snaps.append(snapshot) + snaps.sort(cmp=lambda x, y: cmp(x.date, y.date)) + return snaps + + def attach(self, server=None): + if self.attachment_state == 'attached': + print('already attached') + return None + if server: + self.server = server + self.put() + ec2 = self.get_ec2_connection() + ec2.attach_volume(self.volume_id, self.server.instance_id, self.device) + + def detach(self, force=False): + state = self.attachment_state + if state == 'available' or state is None or state == 'detaching': + print('already detached') + return None + ec2 = self.get_ec2_connection() + ec2.detach_volume(self.volume_id, self.server.instance_id, self.device, force) + self.server = None + self.put() + + def checkfs(self, use_cmd=None): + if self.server is None: + raise ValueError('server attribute must be set to run this command') + # detemine state of file system on volume, only works if attached + if use_cmd: + cmd = use_cmd + else: + cmd = self.server.get_cmdshell() + status = cmd.run('xfs_check %s' % self.device) + if not use_cmd: + cmd.close() + if status[1].startswith('bad superblock magic number 0'): + return False + return True + + def wait(self): + if self.server is None: + raise ValueError('server attribute must be set to run this command') + with closing(self.server.get_cmdshell()) as cmd: + # wait for the volume device to appear + cmd = self.server.get_cmdshell() + while not cmd.exists(self.device): + boto.log.info('%s still does not exist, waiting 10 seconds' % self.device) + time.sleep(10) + + def format(self): + if self.server is None: + raise ValueError('server attribute must be set to run this command') + status = None + with closing(self.server.get_cmdshell()) as cmd: + if not self.checkfs(cmd): + boto.log.info('make_fs...') + status = cmd.run('mkfs -t xfs %s' % self.device) + return status + + def mount(self): + if self.server is None: + raise ValueError('server attribute must be set to run this command') + boto.log.info('handle_mount_point') + with closing(self.server.get_cmdshell()) as cmd: + cmd = self.server.get_cmdshell() + if not cmd.isdir(self.mount_point): + boto.log.info('making directory') + # mount directory doesn't exist so create it + cmd.run("mkdir %s" % self.mount_point) + else: + boto.log.info('directory exists already') + status = cmd.run('mount -l') + lines = status[1].split('\n') + for line in lines: + t = line.split() + if t and t[2] == self.mount_point: + # something is already mounted at the mount point + # unmount that and mount it as /tmp + if t[0] != self.device: + cmd.run('umount %s' % self.mount_point) + cmd.run('mount %s /tmp' % t[0]) + cmd.run('chmod 777 /tmp') + break + # Mount up our new EBS volume onto mount_point + cmd.run("mount %s %s" % (self.device, self.mount_point)) + cmd.run('xfs_growfs %s' % self.mount_point) + + def make_ready(self, server): + self.server = server + self.put() + self.install_xfs() + self.attach() + self.wait() + self.format() + self.mount() + + def freeze(self): + if self.server: + return self.server.run("/usr/sbin/xfs_freeze -f %s" % self.mount_point) + + def unfreeze(self): + if self.server: + return self.server.run("/usr/sbin/xfs_freeze -u %s" % self.mount_point) + + def snapshot(self): + # if this volume is attached to a server + # we need to freeze the XFS file system + try: + self.freeze() + if self.server is None: + snapshot = self.get_ec2_connection().create_snapshot(self.volume_id) + else: + snapshot = self.server.ec2.create_snapshot(self.volume_id) + boto.log.info('Snapshot of Volume %s created: %s' % (self.name, snapshot)) + except Exception: + boto.log.info('Snapshot error') + boto.log.info(traceback.format_exc()) + finally: + status = self.unfreeze() + return status + + def get_snapshot_range(self, snaps, start_date=None, end_date=None): + l = [] + for snap in snaps: + if start_date and end_date: + if snap.date >= start_date and snap.date <= end_date: + l.append(snap) + elif start_date: + if snap.date >= start_date: + l.append(snap) + elif end_date: + if snap.date <= end_date: + l.append(snap) + else: + l.append(snap) + return l + + def trim_snapshots(self, delete=False): + """ + Trim the number of snapshots for this volume. This method always + keeps the oldest snapshot. It then uses the parameters passed in + to determine how many others should be kept. + + The algorithm is to keep all snapshots from the current day. Then + it will keep the first snapshot of the day for the previous seven days. + Then, it will keep the first snapshot of the week for the previous + four weeks. After than, it will keep the first snapshot of the month + for as many months as there are. + + """ + snaps = self.get_snapshots() + # Always keep the oldest and the newest + if len(snaps) <= 2: + return snaps + snaps = snaps[1:-1] + now = datetime.datetime.now(snaps[0].date.tzinfo) + midnight = datetime.datetime(year=now.year, month=now.month, + day=now.day, tzinfo=now.tzinfo) + # Keep the first snapshot from each day of the previous week + one_week = datetime.timedelta(days=7, seconds=60*60) + print(midnight-one_week, midnight) + previous_week = self.get_snapshot_range(snaps, midnight-one_week, midnight) + print(previous_week) + if not previous_week: + return snaps + current_day = None + for snap in previous_week: + if current_day and current_day == snap.date.day: + snap.keep = False + else: + current_day = snap.date.day + # Get ourselves onto the next full week boundary + if previous_week: + week_boundary = previous_week[0].date + if week_boundary.weekday() != 0: + delta = datetime.timedelta(days=week_boundary.weekday()) + week_boundary = week_boundary - delta + # Keep one within this partial week + partial_week = self.get_snapshot_range(snaps, week_boundary, previous_week[0].date) + if len(partial_week) > 1: + for snap in partial_week[1:]: + snap.keep = False + # Keep the first snapshot of each week for the previous 4 weeks + for i in range(0, 4): + weeks_worth = self.get_snapshot_range(snaps, week_boundary-one_week, week_boundary) + if len(weeks_worth) > 1: + for snap in weeks_worth[1:]: + snap.keep = False + week_boundary = week_boundary - one_week + # Now look through all remaining snaps and keep one per month + remainder = self.get_snapshot_range(snaps, end_date=week_boundary) + current_month = None + for snap in remainder: + if current_month and current_month == snap.date.month: + snap.keep = False + else: + current_month = snap.date.month + if delete: + for snap in snaps: + if not snap.keep: + boto.log.info('Deleting %s(%s) for %s' % (snap, snap.date, self.name)) + snap.delete() + return snaps + + def grow(self, size): + pass + + def copy(self, snapshot): + pass + + def get_snapshot_from_date(self, date): + pass + + def delete(self, delete_ebs_volume=False): + if delete_ebs_volume: + self.detach() + ec2 = self.get_ec2_connection() + ec2.delete_volume(self.volume_id) + super(Volume, self).delete() + + def archive(self): + # snapshot volume, trim snaps, delete volume-id + pass + +