/usr/lib/python2.7/dist-packages/slapos/format.py is in slapos-node-unofficial 1.3.10-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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-*-
# vim: set et sts=2:
##############################################################################
#
# Copyright (c) 2010, 2011, 2012 Vifib SARL and Contributors.
# All Rights Reserved.
#
# WARNING: This program as such is intended to be used by professional
# programmers who take the whole responsibility of assessing all potential
# consequences resulting from its eventual inadequacies and bugs
# End users who are looking for a ready-to-use solution with commercial
# guarantees and support are strongly advised to contract a Free Software
# Service Company
#
# This program is Free Software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 3
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
##############################################################################
import ConfigParser
import errno
import fcntl
import grp
import json
import logging
import netaddr
import netifaces
import os
import glob
import pwd
import random
import shutil
import socket
import struct
import subprocess
import sys
import threading
import time
import traceback
import zipfile
import lxml.etree
import xml_marshaller.xml_marshaller
import slapos.util
from slapos.util import mkdir_p
import slapos.slap as slap
def prettify_xml(xml):
root = lxml.etree.fromstring(xml)
return lxml.etree.tostring(root, pretty_print=True)
class OS(object):
"""Wrap parts of the 'os' module to provide logging of performed actions."""
_os = os
def __init__(self, conf):
self._dry_run = conf.dry_run
self._logger = conf.logger
add = self._addWrapper
add('chown')
add('chmod')
add('makedirs')
add('mkdir')
def _addWrapper(self, name):
def wrapper(*args, **kw):
arg_list = [repr(x) for x in args] + [
'%s=%r' % (x, y) for x, y in kw.iteritems()
]
self._logger.debug('%s(%s)' % (name, ', '.join(arg_list)))
if not self._dry_run:
getattr(self._os, name)(*args, **kw)
setattr(self, name, wrapper)
def __getattr__(self, name):
return getattr(self._os, name)
class UsageError(Exception):
pass
class NoAddressOnInterface(Exception):
"""
Exception raised if there is no address on the interface to construct IPv6
address with.
Attributes:
brige: String, the name of the interface.
"""
def __init__(self, interface):
super(NoAddressOnInterface, self).__init__(
'No IPv6 found on interface %s to construct IPv6 with.' % interface
)
class AddressGenerationError(Exception):
"""
Exception raised if the generation of an IPv6 based on the prefix obtained
from the interface failed.
Attributes:
addr: String, the invalid address the exception is raised for.
"""
def __init__(self, addr):
super(AddressGenerationError, self).__init__(
'Generated IPv6 %s seems not to be a valid IP.' % addr
)
def callAndRead(argument_list, raise_on_error=True):
popen = subprocess.Popen(argument_list,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
result = popen.communicate()[0]
if raise_on_error and popen.returncode != 0:
raise ValueError('Issue while invoking %r, result was:\n%s' % (
argument_list, result))
return popen.returncode, result
def isGlobalScopeAddress(a):
"""Returns True if a is global scope IP v4/6 address"""
ip = netaddr.IPAddress(a)
return not ip.is_link_local() and not ip.is_loopback() and \
not ip.is_reserved() and ip.is_unicast()
def netmaskToPrefixIPv4(netmask):
"""Convert string represented netmask to its integer prefix"""
return netaddr.strategy.ipv4.netmask_to_prefix[
netaddr.strategy.ipv4.str_to_int(netmask)]
def netmaskToPrefixIPv6(netmask):
"""Convert string represented netmask to its integer prefix"""
return netaddr.strategy.ipv6.netmask_to_prefix[
netaddr.strategy.ipv6.str_to_int(netmask)]
def getIfaceAddressIPv4(iface):
"""return dict containing ipv4 address netmask, network and broadcast address
of interface"""
if not iface in netifaces.interfaces():
raise ValueError('Could not find interface called %s to use as gateway ' \
'for tap network' % iface)
try:
addresses_list = netifaces.ifaddresses(iface)[socket.AF_INET]
if len (addresses_list) > 0:
addresses = addresses_list[0].copy()
addresses['network'] = str(netaddr.IPNetwork('%s/%s' % (addresses['addr'],
addresses['netmask'])).cidr.network)
return addresses
else:
return {}
except KeyError:
raise KeyError('Could not find IPv4 adress on interface %s.' % iface)
def getIPv4SubnetAddressRange(ip_address, mask, size):
"""Check if a given ipaddress can be used to create 'size'
host ip address, then return list of ip address in the subnet"""
ip = netaddr.IPNetwork('%s/%s' % (ip_address, mask))
# Delete network and default ip_address from the list
ip_list = [x for x in sorted(list(ip))
if str(x) != ip_address and x.value != ip.cidr.network.value]
if len(ip_list) < size:
raise ValueError('Could not create %s tap interfaces from address %s.' % (
size, ip_address))
return ip_list
def _getDict(obj):
"""
Serialize an object into dictionaries. List and dict will remains
the same, basic type too. But encapsulated object will be returned as dict.
Set, collections and other aren't handle for now.
Args:
obj: an object of any type.
Returns:
A dictionary if the given object wasn't a list, a list otherwise.
"""
if isinstance(obj, list):
return [_getDict(item) for item in obj]
if isinstance(obj, dict):
dikt = obj
else:
try:
dikt = obj.__dict__
except AttributeError:
return obj
return {
key: _getDict(value) \
for key, value in dikt.iteritems() \
# do not attempt to serialize logger: it is both useless and recursive.
if not isinstance(value, logging.Logger)
}
class Computer(object):
"Object representing the computer"
instance_root = None
software_root = None
instance_storage_home = None
def __init__(self, reference, interface=None, addr=None, netmask=None,
ipv6_interface=None, software_user='slapsoft',
tap_gateway_interface=None):
"""
Attributes:
reference: String, the reference of the computer.
interface: String, the name of the computer's used interface.
"""
self.reference = str(reference)
self.interface = interface
self.partition_list = []
self.address = addr
self.netmask = netmask
self.ipv6_interface = ipv6_interface
self.software_user = software_user
self.tap_gateway_interface = tap_gateway_interface
def __getinitargs__(self):
return (self.reference, self.interface)
def getAddress(self, allow_tap=False):
"""
Return a list of the interface address not attributed to any partition (which
are therefore free for the computer itself).
Returns:
False if the interface isn't available, else the list of the free addresses.
"""
if self.interface is None:
return {'addr': self.address, 'netmask': self.netmask}
computer_partition_address_list = []
for partition in self.partition_list:
for address in partition.address_list:
if netaddr.valid_ipv6(address['addr']):
computer_partition_address_list.append(address['addr'])
# Going through addresses of the computer's interface
for address_dict in self.interface.getGlobalScopeAddressList():
# Comparing with computer's partition addresses
if address_dict['addr'] not in computer_partition_address_list:
return address_dict
if allow_tap:
# all addresses on interface are for partition, so let's add new one
computer_tap = Tap('compdummy')
computer_tap.createWithOwner(User('root'), attach_to_tap=True)
self.interface.addTap(computer_tap)
return self.interface.addAddr()
# Can't find address
raise NoAddressOnInterface('No valid IPv6 found on %s.' % self.interface.name)
def send(self, conf):
"""
Send a marshalled dictionary of the computer object serialized via_getDict.
"""
slap_instance = slap.slap()
connection_dict = {}
if conf.key_file and conf.cert_file:
connection_dict['key_file'] = conf.key_file
connection_dict['cert_file'] = conf.cert_file
slap_instance.initializeConnection(conf.master_url,
**connection_dict)
slap_computer = slap_instance.registerComputer(self.reference)
if conf.dry_run:
return
try:
slap_computer.updateConfiguration(xml_marshaller.xml_marshaller.dumps(_getDict(self)))
except slap.NotFoundError as error:
raise slap.NotFoundError("%s\nERROR: This SlapOS node is not recognised by "
"SlapOS Master and/or computer_id and certificates don't match. "
"Please make sure computer_id of slapos.cfg looks "
"like 'COMP-123' and is correct.\nError is : 404 Not Found." % error)
def dump(self, path_to_xml, path_to_json, logger):
"""
Dump the computer object to an xml file via xml_marshaller.
Args:
path_to_xml: String, path to the file to load.
path_to_json: String, path to the JSON version to save.
"""
computer_dict = _getDict(self)
if path_to_json:
with open(path_to_json, 'wb') as fout:
fout.write(json.dumps(computer_dict, sort_keys=True, indent=2))
new_xml = xml_marshaller.xml_marshaller.dumps(computer_dict)
new_pretty_xml = prettify_xml(new_xml)
path_to_archive = path_to_xml + '.zip'
if os.path.exists(path_to_archive) and os.path.exists(path_to_xml):
# the archive file exists, we only backup if something has changed
with open(path_to_xml, 'rb') as fin:
if fin.read() == new_pretty_xml:
# computer configuration did not change, nothing to write
return
if os.path.exists(path_to_xml):
try:
self.backup_xml(path_to_archive, path_to_xml)
except:
# might be a corrupted zip file. let's move it out of the way and retry.
shutil.move(path_to_archive,
path_to_archive + time.strftime('_broken_%Y%m%d-%H:%M'))
try:
self.backup_xml(path_to_archive, path_to_xml)
except:
# give up trying
logger.exception("Can't backup %s:", path_to_xml)
with open(path_to_xml, 'wb') as fout:
fout.write(new_pretty_xml)
def backup_xml(self, path_to_archive, path_to_xml):
"""
Stores a copy of the current xml file to an historical archive.
"""
xml_content = open(path_to_xml).read()
saved_filename = os.path.basename(path_to_xml) + time.strftime('.%Y%m%d-%H:%M')
with zipfile.ZipFile(path_to_archive, 'a') as archive:
archive.writestr(saved_filename, xml_content, zipfile.ZIP_DEFLATED)
@classmethod
def load(cls, path_to_xml, reference, ipv6_interface, tap_gateway_interface):
"""
Create a computer object from a valid xml file.
Arg:
path_to_xml: String, a path to a valid file containing
a valid configuration.
Return:
A Computer object.
"""
dumped_dict = xml_marshaller.xml_marshaller.loads(open(path_to_xml).read())
# Reconstructing the computer object from the xml
computer = Computer(
reference=reference,
addr=dumped_dict['address'],
netmask=dumped_dict['netmask'],
ipv6_interface=ipv6_interface,
software_user=dumped_dict.get('software_user', 'slapsoft'),
tap_gateway_interface=tap_gateway_interface,
)
for partition_dict in dumped_dict['partition_list']:
if partition_dict['user']:
user = User(partition_dict['user']['name'])
else:
user = User('root')
if partition_dict['tap']:
tap = Tap(partition_dict['tap']['name'])
if tap_gateway_interface:
tap.ipv4_addr = partition_dict['tap'].get('ipv4_addr', '')
tap.ipv4_netmask = partition_dict['tap'].get('ipv4_netmask', '')
tap.ipv4_gateway = partition_dict['tap'].get('ipv4_gateway', '')
tap.ipv4_network = partition_dict['tap'].get('ipv4_network', '')
else:
tap = Tap(partition_dict['reference'])
address_list = partition_dict['address_list']
external_storage_list = partition_dict.get('external_storage_list', [])
partition = Partition(
reference=partition_dict['reference'],
path=partition_dict['path'],
user=user,
address_list=address_list,
tap=tap,
external_storage_list=external_storage_list,
)
computer.partition_list.append(partition)
return computer
def _speedHackAddAllOldIpsToInterface(self):
"""
Speed hack:
Blindly add all IPs from existing configuration, just to speed up actual
computer configuration later on.
"""
# XXX-TODO: only add an address if it doesn't already exist.
if self.ipv6_interface:
interface_name = self.ipv6_interface
elif self.interface:
interface_name = self.interface.name
else:
return
for partition in self.partition_list:
try:
for address in partition.address_list:
try:
netmask = netmaskToPrefixIPv6(address['netmask'])
except:
continue
callAndRead(['ip', 'addr', 'add',
'%s/%s' % (address['addr'], netmask),
'dev', interface_name])
except ValueError:
pass
def _addUniqueLocalAddressIpv6(self, interface_name):
"""
Create a unique local address in the interface interface_name, so that
slapformat can build upon this.
See https://en.wikipedia.org/wiki/Unique_local_address.
"""
command = 'ip address add dev %s fd00::1/64' % interface_name
callAndRead(command.split())
def construct(self, alter_user=True, alter_network=True, create_tap=True, use_unique_local_address_block=False):
"""
Construct the computer object as it is.
"""
if alter_network and self.address is not None:
self.interface.addAddr(self.address, self.netmask)
if use_unique_local_address_block and alter_network:
if self.ipv6_interface:
network_interface_name = self.ipv6_interface
else:
network_interface_name = self.interface.name
self._addUniqueLocalAddressIpv6(network_interface_name)
for path in self.instance_root, self.software_root:
if not os.path.exists(path):
os.makedirs(path, 0o755)
else:
os.chmod(path, 0o755)
# own self.software_root by software user
slapsoft = User(self.software_user)
slapsoft.path = self.software_root
if alter_user:
slapsoft.create()
slapsoft_pw = pwd.getpwnam(slapsoft.name)
os.chown(slapsoft.path, slapsoft_pw.pw_uid, slapsoft_pw.pw_gid)
os.chmod(self.software_root, 0o755)
# get list of instance external storage if exist
instance_external_list = []
if self.instance_storage_home:
# get all /XXX/dataN where N is a digit
data_list = glob.glob(os.path.join(self.instance_storage_home, 'data*'))
for i in range(0, len(data_list)):
data_path = data_list.pop()
the_digit = os.path.basename(data_path).split('data')[-1]
if the_digit.isdigit():
instance_external_list.append(data_path)
tap_address_list = []
if alter_network and self.tap_gateway_interface and create_tap:
gateway_addr_dict = getIfaceAddressIPv4(self.tap_gateway_interface)
tap_address_list = getIPv4SubnetAddressRange(gateway_addr_dict['addr'],
gateway_addr_dict['netmask'],
len(self.partition_list))
assert(len(self.partition_list) <= len(tap_address_list))
if alter_network:
self._speedHackAddAllOldIpsToInterface()
try:
for partition_index, partition in enumerate(self.partition_list):
# Reconstructing User's
partition.path = os.path.join(self.instance_root, partition.reference)
partition.user.setPath(partition.path)
partition.user.additional_group_list = [slapsoft.name]
partition.external_storage_list = ['%s/%s' % (path, partition.reference)
for path in instance_external_list]
if alter_user:
partition.user.create()
# Reconstructing Tap
if partition.user and partition.user.isAvailable():
owner = partition.user
else:
owner = User('root')
if alter_network and create_tap:
# In case it has to be attached to the TAP network device, only one
# is necessary for the interface to assert carrier
if self.interface.attach_to_tap and partition_index == 0:
partition.tap.createWithOwner(owner, attach_to_tap=True)
else:
partition.tap.createWithOwner(owner)
# If tap_gateway_interface is specified, we don't add tap to bridge
# but we create route for this tap
if not self.tap_gateway_interface:
self.interface.addTap(partition.tap)
else:
next_ipv4_addr = '%s' % tap_address_list.pop(0)
if not partition.tap.ipv4_addr:
# define new ipv4 address for this tap
partition.tap.ipv4_addr = next_ipv4_addr
partition.tap.ipv4_netmask = gateway_addr_dict['netmask']
partition.tap.ipv4_gateway = gateway_addr_dict['addr']
partition.tap.ipv4_network = gateway_addr_dict['network']
partition.tap.createRoutes()
# Reconstructing partition's directory
partition.createPath(alter_user)
partition.createExternalPath(alter_user)
# Reconstructing partition's address
# There should be two addresses on each Computer Partition:
# * global IPv6
# * local IPv4, took from slapformat:ipv4_local_network
if not partition.address_list:
# regenerate
partition.address_list.append(self.interface.addIPv4LocalAddress())
partition.address_list.append(self.interface.addAddr())
elif alter_network:
# regenerate list of addresses
old_partition_address_list = partition.address_list
partition.address_list = []
if len(old_partition_address_list) != 2:
raise ValueError(
'There should be exactly 2 stored addresses. Got: %r' %
(old_partition_address_list,))
if not any(netaddr.valid_ipv6(q['addr'])
for q in old_partition_address_list):
raise ValueError('Not valid ipv6 addresses loaded')
if not any(netaddr.valid_ipv4(q['addr'])
for q in old_partition_address_list):
raise ValueError('Not valid ipv6 addresses loaded')
for address in old_partition_address_list:
if netaddr.valid_ipv6(address['addr']):
partition.address_list.append(self.interface.addAddr(
address['addr'],
address['netmask']))
elif netaddr.valid_ipv4(address['addr']):
partition.address_list.append(self.interface.addIPv4LocalAddress(
address['addr']))
else:
raise ValueError('Address %r is incorrect' % address['addr'])
finally:
if alter_network and create_tap and self.interface.attach_to_tap:
try:
self.partition_list[0].tap.detach()
except IndexError:
pass
class Partition(object):
"Represent a computer partition"
def __init__(self, reference, path, user, address_list, tap, external_storage_list=[]):
"""
Attributes:
reference: String, the name of the partition.
path: String, the path to the partition folder.
user: User, the user linked to this partition.
address_list: List of associated IP addresses.
tap: Tap, the tap interface linked to this partition.
external_storage_list: Base path list of folder to format for data storage
"""
self.reference = str(reference)
self.path = str(path)
self.user = user
self.address_list = address_list or []
self.tap = tap
self.external_storage_list = []
def __getinitargs__(self):
return (self.reference, self.path, self.user, self.address_list, self.tap)
def createPath(self, alter_user=True):
"""
Create the directory of the partition, assign to the partition user and
give it the 750 permission. In case if path exists just modifies it.
"""
self.path = os.path.abspath(self.path)
owner = self.user if self.user else User('root')
if not os.path.exists(self.path):
os.mkdir(self.path, 0o750)
if alter_user:
owner_pw = pwd.getpwnam(owner.name)
os.chown(self.path, owner_pw.pw_uid, owner_pw.pw_gid)
os.chmod(self.path, 0o750)
def createExternalPath(self, alter_user=True):
"""
Create and external directory of the partition, assign to the partition user
and give it the 750 permission. In case if path exists just modifies it.
"""
for path in self.external_storage_list:
storage_path = os.path.abspath(path)
owner = self.user if self.user else User('root')
if not os.path.exists(storage_path):
os.mkdir(storage_path, 0o750)
if alter_user:
owner_pw = pwd.getpwnam(owner.name)
os.chown(storage_path, owner_pw.pw_uid, owner_pw.pw_gid)
os.chmod(storage_path, 0o750)
class User(object):
"""User: represent and manipulate a user on the system."""
path = None
def __init__(self, user_name, additional_group_list=None):
"""
Attributes:
user_name: string, the name of the user, who will have is home in
"""
self.name = str(user_name)
self.additional_group_list = additional_group_list
def __getinitargs__(self):
return (self.name,)
def setPath(self, path):
self.path = path
def create(self):
"""
Create a user on the system who will be named after the self.name with its
own group and directory.
Returns:
True: if the user creation went right
"""
# XXX: This method shall be no-op in case if all is correctly setup
# This method shall check if all is correctly done
# This method shall not reset groups, just add them
grpname = 'grp_' + self.name if sys.platform == 'cygwin' else self.name
try:
grp.getgrnam(grpname)
except KeyError:
callAndRead(['groupadd', grpname])
user_parameter_list = ['-d', self.path, '-g', self.name]
if self.additional_group_list is not None:
user_parameter_list.extend(['-G', ','.join(self.additional_group_list)])
user_parameter_list.append(self.name)
try:
pwd.getpwnam(self.name)
except KeyError:
user_parameter_list.append('-r')
callAndRead(['useradd'] + user_parameter_list)
else:
callAndRead(['usermod'] + user_parameter_list)
return True
def isAvailable(self):
"""
Determine the availability of a user on the system
Return:
True: if available
False: otherwise
"""
try:
pwd.getpwnam(self.name)
return True
except KeyError:
return False
class Tap(object):
"Tap represent a tap interface on the system"
IFF_TAP = 0x0002
TUNSETIFF = 0x400454ca
KEEP_TAP_ATTACHED_EVENT = threading.Event()
def __init__(self, tap_name):
"""
Attributes:
tap_name: String, the name of the tap interface.
ipv4_address: String, local ipv4 to route to this tap
ipv4_network: String, netmask to use when configure route for this tap
gateway_ipv4: String, ipv4 of gateway to be used to reach local network
"""
self.name = str(tap_name)
self.ipv4_addr = ""
self.ipv4_netmask = ""
self.ipv4_gateway = ""
self.ipv4_network = ""
def __getinitargs__(self):
return (self.name,)
def attach(self):
"""
Attach to the TAP interface, meaning that it just opens the TAP interface
and waits for the caller to notify that it can be safely detached.
Linux distinguishes administrative and operational state of an network
interface. The former can be set manually by running ``ip link set dev
<dev> up|down'', whereas the latter states that the interface can actually
transmit data (for a wired network interface, it basically means that
there is carrier, e.g. the network cable is plugged into a switch for
example).
In case of bridge:
In order to be able to check the uniqueness of IPv6 address assigned to
the bridge, the network interface must be up from an administrative *and*
operational point of view.
However, from Linux 2.6.39, the bridge reflects the state of the
underlying device (e.g. the bridge asserts carrier if at least one of its
ports has carrier) whereas it always asserted carrier before. This should
work fine for "real" network interface, but will not work properly if the
bridge only binds TAP interfaces, which, from 2.6.36, reports carrier only
and only if an userspace program is attached.
"""
tap_fd = os.open("/dev/net/tun", os.O_RDWR)
try:
# Attach to the TAP interface which has previously been created
fcntl.ioctl(tap_fd, self.TUNSETIFF,
struct.pack("16sI", self.name, self.IFF_TAP))
except IOError as error:
# If EBUSY, it means another program is already attached, thus just
# ignore it...
if error.errno != errno.EBUSY:
os.close(tap_fd)
raise
else:
# Block until the caller send an event stating that the program can be
# now detached safely, thus bringing down the TAP device (from 2.6.36)
# and the bridge at the same time (from 2.6.39)
self.KEEP_TAP_ATTACHED_EVENT.wait()
finally:
os.close(tap_fd)
def detach(self):
"""
Detach to the TAP network interface by notifying the thread which attach
to the TAP and closing the TAP file descriptor
"""
self.KEEP_TAP_ATTACHED_EVENT.set()
def createWithOwner(self, owner, attach_to_tap=False):
"""
Create a tap interface on the system.
"""
# some systems does not have -p switch for tunctl
#callAndRead(['tunctl', '-p', '-t', self.name, '-u', owner.name])
check_file = '/sys/devices/virtual/net/%s/owner' % self.name
owner_id = None
if os.path.exists(check_file):
owner_id = open(check_file).read().strip()
try:
owner_id = int(owner_id)
except ValueError:
pass
if owner_id != pwd.getpwnam(owner.name).pw_uid:
callAndRead(['tunctl', '-t', self.name, '-u', owner.name])
callAndRead(['ip', 'link', 'set', self.name, 'up'])
if attach_to_tap:
threading.Thread(target=self.attach).start()
def createRoutes(self):
"""
Configure ipv4 route to reach this interface from local network
"""
if self.ipv4_addr:
# Check if this route exits
code, result = callAndRead(['ip', 'route', 'show', self.ipv4_addr])
if code == 0 and self.ipv4_addr in result and self.name in result:
return
callAndRead(['route', 'add', '-host', self.ipv4_addr, 'dev', self.name])
else:
raise ValueError("%s should not be empty. No ipv4 address assigned to %s" %
(self.ipv4_addr, self.name))
class Interface(object):
"""Represent a network interface on the system"""
def __init__(self, logger, name, ipv4_local_network, ipv6_interface=None):
"""
Attributes:
name: String, the name of the interface
"""
self.logger = logger
self.name = str(name)
self.ipv4_local_network = ipv4_local_network
self.ipv6_interface = ipv6_interface
# Attach to TAP network interface, only if the interface interface does not
# report carrier
_, result = callAndRead(['ip', 'addr', 'list', self.name])
self.attach_to_tap = 'DOWN' in result.split('\n', 1)[0]
# XXX no __getinitargs__, as instances of this class are never deserialized.
def getIPv4LocalAddressList(self):
"""
Returns currently configured local IPv4 addresses which are in
ipv4_local_network
"""
if not socket.AF_INET in netifaces.ifaddresses(self.name):
return []
return [
{
'addr': q['addr'],
'netmask': q['netmask']
}
for q in netifaces.ifaddresses(self.name)[socket.AF_INET]
if netaddr.IPAddress(q['addr'], 4) in netaddr.glob_to_iprange(
netaddr.cidr_to_glob(self.ipv4_local_network))
]
def getGlobalScopeAddressList(self):
"""Returns currently configured global scope IPv6 addresses"""
if self.ipv6_interface:
interface_name = self.ipv6_interface
else:
interface_name = self.name
try:
address_list = [
q
for q in netifaces.ifaddresses(interface_name)[socket.AF_INET6]
if isGlobalScopeAddress(q['addr'].split('%')[0])
]
except KeyError:
raise ValueError("%s must have at least one IPv6 address assigned" %
interface_name)
if sys.platform == 'cygwin':
for q in address_list:
q.setdefault('netmask', 'FFFF:FFFF:FFFF:FFFF::')
# XXX: Missing implementation of Unique Local IPv6 Unicast Addresses as
# defined in http://www.rfc-editor.org/rfc/rfc4193.txt
# XXX: XXX: XXX: IT IS DISALLOWED TO IMPLEMENT link-local addresses as
# Linux and BSD are possibly wrongly implementing it -- it is "too local"
# it is impossible to listen or access it on same node
# XXX: IT IS DISALLOWED to implement ad hoc solution like inventing node
# local addresses or anything which does not exists in RFC!
return address_list
def getInterfaceList(self):
"""Returns list of interfaces already present on bridge"""
interface_list = []
_, result = callAndRead(['brctl', 'show'])
in_interface = False
for line in result.split('\n'):
if len(line.split()) > 1:
if self.name in line:
interface_list.append(line.split()[-1])
in_interface = True
continue
if in_interface:
break
elif in_interface:
if line.strip():
interface_list.append(line.strip())
return interface_list
def addTap(self, tap):
"""
Add the tap interface tap to the bridge.
Args:
tap: Tap, the tap interface.
"""
if tap.name not in self.getInterfaceList():
callAndRead(['brctl', 'addif', self.name, tap.name])
def _addSystemAddress(self, address, netmask, ipv6=True):
"""Adds system address to interface
Returns True if address was added successfully.
Returns False if there was issue.
"""
if ipv6:
address_string = '%s/%s' % (address, netmaskToPrefixIPv6(netmask))
af = socket.AF_INET6
if self.ipv6_interface:
interface_name = self.ipv6_interface
else:
interface_name = self.name
else:
af = socket.AF_INET
address_string = '%s/%s' % (address, netmaskToPrefixIPv4(netmask))
interface_name = self.name
# check if address is already took by any other interface
for interface in netifaces.interfaces():
if interface != interface_name:
address_dict = netifaces.ifaddresses(interface)
if af in address_dict:
if address in [q['addr'].split('%')[0] for q in address_dict[af]]:
return False
if not af in netifaces.ifaddresses(interface_name) \
or not address in [q['addr'].split('%')[0]
for q in netifaces.ifaddresses(interface_name)[af]
]:
# add an address
callAndRead(['ip', 'addr', 'add', address_string, 'dev', interface_name])
# Fake success for local ipv4
if not ipv6:
return True
# wait few moments
time.sleep(2)
# Fake success for local ipv4
if not ipv6:
return True
# check existence on interface for ipv6
_, result = callAndRead(['ip', '-6', 'addr', 'list', interface_name])
for l in result.split('\n'):
if address in l:
if 'tentative' in l:
# duplicate, remove
callAndRead(['ip', 'addr', 'del', address_string, 'dev', interface_name])
return False
# found and clean
return True
# even when added not found, this is bad...
return False
def _generateRandomIPv4Address(self, netmask):
# no addresses found, generate new one
# Try 10 times to add address, raise in case if not possible
try_num = 10
while try_num > 0:
addr = random.choice([q for q in netaddr.glob_to_iprange(
netaddr.cidr_to_glob(self.ipv4_local_network))]).format()
if (dict(addr=addr, netmask=netmask) not in
self.getIPv4LocalAddressList()):
# Checking the validity of the IPv6 address
if self._addSystemAddress(addr, netmask, False):
return dict(addr=addr, netmask=netmask)
try_num -= 1
raise AddressGenerationError(addr)
def addIPv4LocalAddress(self, addr=None):
"""Adds local IPv4 address in ipv4_local_network"""
netmask = str(netaddr.IPNetwork(self.ipv4_local_network).netmask) if sys.platform == 'cygwin' \
else '255.255.255.255'
local_address_list = self.getIPv4LocalAddressList()
if addr is None:
return self._generateRandomIPv4Address(netmask)
elif dict(addr=addr, netmask=netmask) not in local_address_list:
if self._addSystemAddress(addr, netmask, False):
return dict(addr=addr, netmask=netmask)
else:
self.logger.warning('Impossible to add old local IPv4 %s. Generating '
'new IPv4 address.' % addr)
return self._generateRandomIPv4Address(netmask)
else:
# confirmed to be configured
return dict(addr=addr, netmask=netmask)
def addAddr(self, addr=None, netmask=None):
"""
Adds IP address to interface.
If addr is specified and exists already on interface does nothing.
If addr is specified and does not exists on interface, tries to add given
address. If it is not possible (ex. because network changed) calculates new
address.
Args:
addr: Wished address to be added to interface.
netmask: Wished netmask to be used.
Returns:
Tuple of (address, netmask).
Raises:
AddressGenerationError: Couldn't construct valid address with existing
one's on the interface.
NoAddressOnInterface: There's no address on the interface to construct
an address with.
"""
# Getting one address of the interface as base of the next addresses
if self.ipv6_interface:
interface_name = self.ipv6_interface
else:
interface_name = self.name
interface_addr_list = self.getGlobalScopeAddressList()
# No address found
if len(interface_addr_list) == 0:
raise NoAddressOnInterface(interface_name)
address_dict = interface_addr_list[0]
if addr is not None:
if dict(addr=addr, netmask=netmask) in interface_addr_list:
# confirmed to be configured
return dict(addr=addr, netmask=netmask)
if netmask == address_dict['netmask']:
# same netmask, so there is a chance to add good one
interface_network = netaddr.ip.IPNetwork('%s/%s' % (address_dict['addr'],
netmaskToPrefixIPv6(address_dict['netmask'])))
requested_network = netaddr.ip.IPNetwork('%s/%s' % (addr,
netmaskToPrefixIPv6(netmask)))
if interface_network.network == requested_network.network:
# same network, try to add
if self._addSystemAddress(addr, netmask):
# succeed, return it
return dict(addr=addr, netmask=netmask)
else:
self.logger.warning('Impossible to add old public IPv6 %s. '
'Generating new IPv6 address.' % addr)
# Try 10 times to add address, raise in case if not possible
try_num = 10
netmask = address_dict['netmask']
while try_num > 0:
addr = ':'.join(address_dict['addr'].split(':')[:-1] + ['%x' % (
random.randint(1, 65000), )])
socket.inet_pton(socket.AF_INET6, addr)
if (dict(addr=addr, netmask=netmask) not in
self.getGlobalScopeAddressList()):
# Checking the validity of the IPv6 address
if self._addSystemAddress(addr, netmask):
return dict(addr=addr, netmask=netmask)
try_num -= 1
raise AddressGenerationError(addr)
def parse_computer_definition(conf, definition_path):
conf.logger.info('Using definition file %r' % definition_path)
computer_definition = ConfigParser.RawConfigParser({
'software_user': 'slapsoft',
})
computer_definition.read(definition_path)
interface = None
address = None
netmask = None
if computer_definition.has_option('computer', 'address'):
address, netmask = computer_definition.get('computer', 'address').split('/')
if (conf.alter_network and conf.interface_name is not None
and conf.ipv4_local_network is not None):
interface = Interface(logger=conf.logger,
name=conf.interface_name,
ipv4_local_network=conf.ipv4_local_network,
ipv6_interface=conf.ipv6_interface)
computer = Computer(
reference=conf.computer_id,
interface=interface,
addr=address,
netmask=netmask,
ipv6_interface=conf.ipv6_interface,
software_user=computer_definition.get('computer', 'software_user'),
tap_gateway_interface=conf.tap_gateway_interface,
)
partition_list = []
for partition_number in range(int(conf.partition_amount)):
section = 'partition_%s' % partition_number
user = User(computer_definition.get(section, 'user'))
address_list = []
for a in computer_definition.get(section, 'address').split():
address, netmask = a.split('/')
address_list.append(dict(addr=address, netmask=netmask))
tap = Tap(computer_definition.get(section, 'network_interface'))
partition = Partition(reference=computer_definition.get(section, 'pathname'),
path=os.path.join(conf.instance_root,
computer_definition.get(section, 'pathname')),
user=user,
address_list=address_list,
tap=tap)
partition_list.append(partition)
computer.partition_list = partition_list
return computer
def parse_computer_xml(conf, xml_path):
interface = Interface(logger=conf.logger,
name=conf.interface_name,
ipv4_local_network=conf.ipv4_local_network,
ipv6_interface=conf.ipv6_interface)
if os.path.exists(xml_path):
conf.logger.debug('Loading previous computer data from %r' % xml_path)
computer = Computer.load(xml_path,
reference=conf.computer_id,
ipv6_interface=conf.ipv6_interface,
tap_gateway_interface=conf.tap_gateway_interface)
# Connect to the interface defined by the configuration
computer.interface = interface
else:
# If no pre-existent configuration found, create a new computer object
conf.logger.warning('Creating new computer data with id %r', conf.computer_id)
computer = Computer(
reference=conf.computer_id,
interface=interface,
addr=None,
netmask=None,
ipv6_interface=conf.ipv6_interface,
software_user=conf.software_user,
tap_gateway_interface=conf.tap_gateway_interface,
)
partition_amount = int(conf.partition_amount)
existing_partition_amount = len(computer.partition_list)
if partition_amount < existing_partition_amount:
conf.logger.critical('Requested amount of computer partitions (%s) is lower '
'than already configured (%s), cannot continue',
partition_amount, existing_partition_amount)
sys.exit(1)
elif partition_amount > existing_partition_amount:
conf.logger.info('Adding %s new partitions',
partition_amount - existing_partition_amount)
for i in range(existing_partition_amount, partition_amount):
# add new partitions
partition = Partition(
reference='%s%s' % (conf.partition_base_name, i),
path=os.path.join(conf.instance_root, '%s%s' % (
conf.partition_base_name, i)),
user=User('%s%s' % (conf.user_base_name, i)),
address_list=None,
tap=Tap('%s%s' % (conf.tap_base_name, i))
)
computer.partition_list.append(partition)
return computer
def write_computer_definition(conf, computer):
computer_definition = ConfigParser.RawConfigParser()
computer_definition.add_section('computer')
if computer.address is not None and computer.netmask is not None:
computer_definition.set('computer', 'address', '/'.join(
[computer.address, computer.netmask]))
for partition_number, partition in enumerate(computer.partition_list):
section = 'partition_%s' % partition_number
computer_definition.add_section(section)
address_list = []
for address in partition.address_list:
address_list.append('/'.join([address['addr'], address['netmask']]))
computer_definition.set(section, 'address', ' '.join(address_list))
computer_definition.set(section, 'user', partition.user.name)
computer_definition.set(section, 'network_interface', partition.tap.name)
computer_definition.set(section, 'pathname', partition.reference)
computer_definition.write(open(conf.output_definition_file, 'w'))
conf.logger.info('Stored computer definition in %r' % conf.output_definition_file)
def random_delay(conf):
# Add delay between 0 and 1 hour
# XXX should be the contrary: now by default, and cron should have
# --maximal-delay=3600
if not conf.now:
duration = float(60 * 60) * random.random()
conf.logger.info('Sleeping for %s seconds. To disable this feature, '
'use with --now parameter in manual.' % duration)
time.sleep(duration)
def do_format(conf):
random_delay(conf)
if conf.input_definition_file:
computer = parse_computer_definition(conf, conf.input_definition_file)
else:
# no definition file, figure out computer
computer = parse_computer_xml(conf, conf.computer_xml)
computer.instance_root = conf.instance_root
computer.software_root = conf.software_root
computer.instance_storage_home = conf.instance_storage_home
conf.logger.info('Updating computer')
address = computer.getAddress(conf.create_tap)
computer.address = address['addr']
computer.netmask = address['netmask']
if conf.output_definition_file:
write_computer_definition(conf, computer)
computer.construct(alter_user=conf.alter_user,
alter_network=conf.alter_network,
create_tap=conf.create_tap,
use_unique_local_address_block=conf.use_unique_local_address_block)
if getattr(conf, 'certificate_repository_path', None):
mkdir_p(conf.certificate_repository_path, mode=0o700)
# Dumping and sending to the erp5 the current configuration
if not conf.dry_run:
computer.dump(path_to_xml=conf.computer_xml,
path_to_json=conf.computer_json,
logger=conf.logger)
conf.logger.info('Posting information to %r' % conf.master_url)
computer.send(conf)
conf.logger.info('slapos successfully prepared the computer.')
class FormatConfig(object):
key_file = None
cert_file = None
alter_network = None
alter_user = None
create_tap = None
computer_xml = None
computer_json = None
input_definition_file = None
log_file = None
output_definition_file = None
dry_run = None
software_user = None
tap_gateway_interface = None
use_unique_local_address_block = None
instance_storage_home = None
def __init__(self, logger):
self.logger = logger
@staticmethod
def checkRequiredBinary(binary_list):
missing_binary_list = []
for b in binary_list:
if type(b) != type([]):
b = [b]
try:
callAndRead(b)
except ValueError:
pass
except OSError:
missing_binary_list.append(b[0])
if missing_binary_list:
raise UsageError('Some required binaries are missing or not '
'functional: %s' % (','.join(missing_binary_list), ))
def mergeConfig(self, args, configp):
"""
Set options given by parameters.
Must be executed before setting up the logger.
"""
self.key_file = None
self.cert_file = None
# Set argument parameters
for key, value in args.__dict__.items():
setattr(self, key, value)
# Merges the arguments and configuration
for section in ("slapformat", "slapos"):
configuration_dict = dict(configp.items(section))
for key in configuration_dict:
if not getattr(self, key, None):
setattr(self, key, configuration_dict[key])
def setConfig(self):
# setup some nones
for parameter in ['interface_name', 'partition_base_name', 'user_base_name',
'tap_base_name', 'ipv4_local_network', 'ipv6_interface']:
if getattr(self, parameter, None) is None:
setattr(self, parameter, None)
# Backward compatibility
if not getattr(self, "interface_name", None) \
and getattr(self, "bridge_name", None):
setattr(self, "interface_name", self.bridge_name)
self.logger.warning('bridge_name option is deprecated and should be '
'replaced by interface_name.')
if not getattr(self, "create_tap", None) \
and getattr(self, "no_bridge", None):
setattr(self, "create_tap", not self.no_bridge)
self.logger.warning('no_bridge option is deprecated and should be '
'replaced by create_tap.')
# Set defaults lately
if self.alter_network is None:
self.alter_network = 'True'
if self.alter_user is None:
self.alter_user = 'True'
if self.software_user is None:
self.software_user = 'slapsoft'
if self.create_tap is None:
self.create_tap = True
if self.tap_gateway_interface is None:
self.tap_gateway_interface = ''
if self.use_unique_local_address_block is None:
self.use_unique_local_address_block = False
# Convert strings to booleans
for option in ['alter_network', 'alter_user', 'create_tap', 'use_unique_local_address_block']:
attr = getattr(self, option)
if isinstance(attr, str):
if attr.lower() == 'true':
root_needed = True
setattr(self, option, True)
elif attr.lower() == 'false':
setattr(self, option, False)
else:
message = 'Option %r needs to be "True" or "False", wrong value: ' \
'%r' % (option, getattr(self, option))
self.logger.error(message)
raise UsageError(message)
if not self.dry_run:
if self.alter_user:
self.checkRequiredBinary(['groupadd', 'useradd', 'usermod'])
if self.create_tap:
self.checkRequiredBinary([['tunctl', '-d']])
if self.tap_gateway_interface:
self.checkRequiredBinary(['route'])
if self.alter_network:
self.checkRequiredBinary(['ip'])
# Required, even for dry run
if self.alter_network and self.create_tap:
self.checkRequiredBinary(['brctl'])
# Check mandatory options
for parameter in ('computer_id', 'instance_root', 'master_url',
'software_root', 'computer_xml'):
if not getattr(self, parameter, None):
raise UsageError("Parameter '%s' is not defined." % parameter)
# Check existence of SSL certificate files, if defined
for attribute in ['key_file', 'cert_file', 'master_ca_file']:
file_location = getattr(self, attribute, None)
if file_location is not None:
if not os.path.exists(file_location):
self.logger.fatal('File %r does not exist or is not readable.' %
file_location)
sys.exit(1)
self.logger.debug('Started.')
if self.dry_run:
self.logger.info("Dry-run mode enabled.")
if self.create_tap:
self.logger.info("Tap creation mode enabled.")
# Calculate path once
self.computer_xml = os.path.abspath(self.computer_xml)
if self.input_definition_file:
self.input_definition_file = os.path.abspath(self.input_definition_file)
if self.output_definition_file:
self.output_definition_file = os.path.abspath(self.output_definition_file)
def tracing_monkeypatch(conf):
"""Substitute os module and callAndRead function with tracing wrappers."""
global os
global callAndRead
real_callAndRead = callAndRead
os = OS(conf)
if conf.dry_run:
def dry_callAndRead(argument_list, raise_on_error=True):
if argument_list == ['brctl', 'show']:
return real_callAndRead(argument_list, raise_on_error)
else:
return 0, ''
callAndRead = dry_callAndRead
def fake_getpwnam(user):
class result(object):
pw_uid = 12345
pw_gid = 54321
return result
pwd.getpwnam = fake_getpwnam
else:
dry_callAndRead = real_callAndRead
def logging_callAndRead(argument_list, raise_on_error=True):
conf.logger.debug(' '.join(argument_list))
return dry_callAndRead(argument_list, raise_on_error)
callAndRead = logging_callAndRead
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