Charm-helpers sync to fix CA cert comparison

The comparison of bytes vs string of the CA certificate produces a
false negative. This leads to rewriting certificates and affecting
connectivity to services.

Read in the certificate as bytes as well for a bytes vs bytes
comparison.

Change-Id: I1271ff7dc7fd2ebc0327801cd97d62971ff82e94
Closes-Bug: #1762431
This commit is contained in:
David Ames 2018-04-11 14:23:17 -07:00
parent fa18841919
commit 5f8d3317e6
12 changed files with 234 additions and 73 deletions

View File

@ -65,7 +65,8 @@ def get_ca_cert():
if ca_cert is None:
log("Inspecting identity-service relations for CA SSL certificate.",
level=INFO)
for r_id in relation_ids('identity-service'):
for r_id in (relation_ids('identity-service') +
relation_ids('identity-credentials')):
for unit in relation_list(r_id):
if ca_cert is None:
ca_cert = relation_get('ca_cert',
@ -76,7 +77,7 @@ def get_ca_cert():
def retrieve_ca_cert(cert_file):
cert = None
if os.path.isfile(cert_file):
with open(cert_file, 'r') as crt:
with open(cert_file, 'rb') as crt:
cert = crt.read()
return cert

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@ -371,6 +371,7 @@ def distributed_wait(modulo=None, wait=None, operation_name='operation'):
''' Distribute operations by waiting based on modulo_distribution
If modulo and or wait are not set, check config_get for those values.
If config values are not set, default to modulo=3 and wait=30.
:param modulo: int The modulo number creates the group distribution
:param wait: int The constant time wait value
@ -382,10 +383,17 @@ def distributed_wait(modulo=None, wait=None, operation_name='operation'):
:side effect: Calls time.sleep()
'''
if modulo is None:
modulo = config_get('modulo-nodes')
modulo = config_get('modulo-nodes') or 3
if wait is None:
wait = config_get('known-wait')
calculated_wait = modulo_distribution(modulo=modulo, wait=wait)
wait = config_get('known-wait') or 30
if juju_is_leader():
# The leader should never wait
calculated_wait = 0
else:
# non_zero_wait=True guarantees the non-leader who gets modulo 0
# will still wait
calculated_wait = modulo_distribution(modulo=modulo, wait=wait,
non_zero_wait=True)
msg = "Waiting {} seconds for {} ...".format(calculated_wait,
operation_name)
log(msg, DEBUG)

View File

@ -441,7 +441,7 @@ class OpenStackAmuletUtils(AmuletUtils):
if rel.get('api_version') != str(api_version):
raise Exception("api_version not propagated through relation"
" data yet ('{}' != '{}')."
"".format(rel['api_version'], api_version))
"".format(rel.get('api_version'), api_version))
def keystone_configure_api_version(self, sentry_relation_pairs, deployment,
api_version):
@ -463,16 +463,13 @@ class OpenStackAmuletUtils(AmuletUtils):
deployment._auto_wait_for_status()
self.keystone_wait_for_propagation(sentry_relation_pairs, api_version)
def authenticate_cinder_admin(self, keystone_sentry, username,
password, tenant, api_version=2):
def authenticate_cinder_admin(self, keystone, api_version=2):
"""Authenticates admin user with cinder."""
# NOTE(beisner): cinder python client doesn't accept tokens.
keystone_ip = keystone_sentry.info['public-address']
ept = "http://{}:5000/v2.0".format(keystone_ip.strip().decode('utf-8'))
self.log.debug('Authenticating cinder admin...')
_clients = {
1: cinder_client.Client,
2: cinder_clientv2.Client}
return _clients[api_version](username, password, tenant, ept)
return _clients[api_version](session=keystone.session)
def authenticate_keystone(self, keystone_ip, username, password,
api_version=False, admin_port=False,

View File

@ -151,3 +151,32 @@ def extend_logical_volume_by_device(lv_name, block_device):
'''
cmd = ['lvextend', lv_name, block_device]
check_call(cmd)
def create_logical_volume(lv_name, volume_group, size=None):
'''
Create a new logical volume in an existing volume group
:param lv_name: str: name of logical volume to be created.
:param volume_group: str: Name of volume group to use for the new volume.
:param size: str: Size of logical volume to create (100% if not supplied)
:raises subprocess.CalledProcessError: in the event that the lvcreate fails.
'''
if size:
check_call([
'lvcreate',
'--yes',
'-L',
'{}'.format(size),
'-n', lv_name, volume_group
])
# create the lv with all the space available, this is needed because the
# system call is different for LVM
else:
check_call([
'lvcreate',
'--yes',
'-l',
'100%FREE',
'-n', lv_name, volume_group
])

View File

@ -27,6 +27,7 @@ import glob
import os
import json
import yaml
import re
import subprocess
import sys
import errno
@ -67,7 +68,7 @@ def cached(func):
@wraps(func)
def wrapper(*args, **kwargs):
global cache
key = str((func, args, kwargs))
key = json.dumps((func, args, kwargs), sort_keys=True, default=str)
try:
return cache[key]
except KeyError:
@ -1043,7 +1044,6 @@ def juju_version():
universal_newlines=True).strip()
@cached
def has_juju_version(minimum_version):
"""Return True if the Juju version is at least the provided version"""
return LooseVersion(juju_version()) >= LooseVersion(minimum_version)
@ -1103,6 +1103,8 @@ def _run_atexit():
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def network_get_primary_address(binding):
'''
Deprecated since Juju 2.3; use network_get()
Retrieve the primary network address for a named binding
:param binding: string. The name of a relation of extra-binding
@ -1123,7 +1125,6 @@ def network_get_primary_address(binding):
return response
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def network_get(endpoint, relation_id=None):
"""
Retrieve the network details for a relation endpoint
@ -1131,24 +1132,20 @@ def network_get(endpoint, relation_id=None):
:param endpoint: string. The name of a relation endpoint
:param relation_id: int. The ID of the relation for the current context.
:return: dict. The loaded YAML output of the network-get query.
:raise: NotImplementedError if run on Juju < 2.1
:raise: NotImplementedError if request not supported by the Juju version.
"""
if not has_juju_version('2.2'):
raise NotImplementedError(juju_version()) # earlier versions require --primary-address
if relation_id and not has_juju_version('2.3'):
raise NotImplementedError # 2.3 added the -r option
cmd = ['network-get', endpoint, '--format', 'yaml']
if relation_id:
cmd.append('-r')
cmd.append(relation_id)
try:
response = subprocess.check_output(
cmd,
stderr=subprocess.STDOUT).decode('UTF-8').strip()
except CalledProcessError as e:
# Early versions of Juju 2.0.x required the --primary-address argument.
# We catch that condition here and raise NotImplementedError since
# the requested semantics are not available - the caller can then
# use the network_get_primary_address() method instead.
if '--primary-address is currently required' in e.output.decode('UTF-8'):
raise NotImplementedError
raise
response = subprocess.check_output(
cmd,
stderr=subprocess.STDOUT).decode('UTF-8').strip()
return yaml.safe_load(response)
@ -1204,9 +1201,23 @@ def iter_units_for_relation_name(relation_name):
def ingress_address(rid=None, unit=None):
"""
Retrieve the ingress-address from a relation when available. Otherwise,
return the private-address. This function is to be used on the consuming
side of the relation.
Retrieve the ingress-address from a relation when available.
Otherwise, return the private-address.
When used on the consuming side of the relation (unit is a remote
unit), the ingress-address is the IP address that this unit needs
to use to reach the provided service on the remote unit.
When used on the providing side of the relation (unit == local_unit()),
the ingress-address is the IP address that is advertised to remote
units on this relation. Remote units need to use this address to
reach the local provided service on this unit.
Note that charms may document some other method to use in
preference to the ingress_address(), such as an address provided
on a different relation attribute or a service discovery mechanism.
This allows charms to redirect inbound connections to their peers
or different applications such as load balancers.
Usage:
addresses = [ingress_address(rid=u.rid, unit=u.unit)
@ -1220,3 +1231,40 @@ def ingress_address(rid=None, unit=None):
settings = relation_get(rid=rid, unit=unit)
return (settings.get('ingress-address') or
settings.get('private-address'))
def egress_subnets(rid=None, unit=None):
"""
Retrieve the egress-subnets from a relation.
This function is to be used on the providing side of the
relation, and provides the ranges of addresses that client
connections may come from. The result is uninteresting on
the consuming side of a relation (unit == local_unit()).
Returns a stable list of subnets in CIDR format.
eg. ['192.168.1.0/24', '2001::F00F/128']
If egress-subnets is not available, falls back to using the published
ingress-address, or finally private-address.
:param rid: string relation id
:param unit: string unit name
:side effect: calls relation_get
:return: list of subnets in CIDR format. eg. ['192.168.1.0/24', '2001::F00F/128']
"""
def _to_range(addr):
if re.search(r'^(?:\d{1,3}\.){3}\d{1,3}$', addr) is not None:
addr += '/32'
elif ':' in addr and '/' not in addr: # IPv6
addr += '/128'
return addr
settings = relation_get(rid=rid, unit=unit)
if 'egress-subnets' in settings:
return [n.strip() for n in settings['egress-subnets'].split(',') if n.strip()]
if 'ingress-address' in settings:
return [_to_range(settings['ingress-address'])]
if 'private-address' in settings:
return [_to_range(settings['private-address'])]
return [] # Should never happen

View File

@ -993,7 +993,7 @@ def updatedb(updatedb_text, new_path):
return output
def modulo_distribution(modulo=3, wait=30):
def modulo_distribution(modulo=3, wait=30, non_zero_wait=False):
""" Modulo distribution
This helper uses the unit number, a modulo value and a constant wait time
@ -1015,7 +1015,14 @@ def modulo_distribution(modulo=3, wait=30):
@param modulo: int The modulo number creates the group distribution
@param wait: int The constant time wait value
@param non_zero_wait: boolean Override unit % modulo == 0,
return modulo * wait. Used to avoid collisions with
leader nodes which are often given priority.
@return: int Calculated time to wait for unit operation
"""
unit_number = int(local_unit().split('/')[1])
return (unit_number % modulo) * wait
calculated_wait_time = (unit_number % modulo) * wait
if non_zero_wait and calculated_wait_time == 0:
return modulo * wait
else:
return calculated_wait_time

View File

@ -313,17 +313,26 @@ class PortManagerCallback(ManagerCallback):
with open(port_file) as fp:
old_ports = fp.read().split(',')
for old_port in old_ports:
if bool(old_port):
old_port = int(old_port)
if old_port not in new_ports:
hookenv.close_port(old_port)
if bool(old_port) and not self.ports_contains(old_port, new_ports):
hookenv.close_port(old_port)
with open(port_file, 'w') as fp:
fp.write(','.join(str(port) for port in new_ports))
for port in new_ports:
# A port is either a number or 'ICMP'
protocol = 'TCP'
if str(port).upper() == 'ICMP':
protocol = 'ICMP'
if event_name == 'start':
hookenv.open_port(port)
hookenv.open_port(port, protocol)
elif event_name == 'stop':
hookenv.close_port(port)
hookenv.close_port(port, protocol)
def ports_contains(self, port, ports):
if not bool(port):
return False
if str(port).upper() != 'ICMP':
port = int(port)
return port in ports
def service_stop(service_name):

View File

@ -44,6 +44,7 @@ ARCH_TO_PROPOSED_POCKET = {
'x86_64': PROPOSED_POCKET,
'ppc64le': PROPOSED_PORTS_POCKET,
'aarch64': PROPOSED_PORTS_POCKET,
's390x': PROPOSED_PORTS_POCKET,
}
CLOUD_ARCHIVE_URL = "http://ubuntu-cloud.archive.canonical.com/ubuntu"
CLOUD_ARCHIVE_KEY_ID = '5EDB1B62EC4926EA'

View File

@ -441,7 +441,7 @@ class OpenStackAmuletUtils(AmuletUtils):
if rel.get('api_version') != str(api_version):
raise Exception("api_version not propagated through relation"
" data yet ('{}' != '{}')."
"".format(rel['api_version'], api_version))
"".format(rel.get('api_version'), api_version))
def keystone_configure_api_version(self, sentry_relation_pairs, deployment,
api_version):
@ -463,16 +463,13 @@ class OpenStackAmuletUtils(AmuletUtils):
deployment._auto_wait_for_status()
self.keystone_wait_for_propagation(sentry_relation_pairs, api_version)
def authenticate_cinder_admin(self, keystone_sentry, username,
password, tenant, api_version=2):
def authenticate_cinder_admin(self, keystone, api_version=2):
"""Authenticates admin user with cinder."""
# NOTE(beisner): cinder python client doesn't accept tokens.
keystone_ip = keystone_sentry.info['public-address']
ept = "http://{}:5000/v2.0".format(keystone_ip.strip().decode('utf-8'))
self.log.debug('Authenticating cinder admin...')
_clients = {
1: cinder_client.Client,
2: cinder_clientv2.Client}
return _clients[api_version](username, password, tenant, ept)
return _clients[api_version](session=keystone.session)
def authenticate_keystone(self, keystone_ip, username, password,
api_version=False, admin_port=False,

View File

@ -27,6 +27,7 @@ import glob
import os
import json
import yaml
import re
import subprocess
import sys
import errno
@ -67,7 +68,7 @@ def cached(func):
@wraps(func)
def wrapper(*args, **kwargs):
global cache
key = str((func, args, kwargs))
key = json.dumps((func, args, kwargs), sort_keys=True, default=str)
try:
return cache[key]
except KeyError:
@ -1043,7 +1044,6 @@ def juju_version():
universal_newlines=True).strip()
@cached
def has_juju_version(minimum_version):
"""Return True if the Juju version is at least the provided version"""
return LooseVersion(juju_version()) >= LooseVersion(minimum_version)
@ -1103,6 +1103,8 @@ def _run_atexit():
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def network_get_primary_address(binding):
'''
Deprecated since Juju 2.3; use network_get()
Retrieve the primary network address for a named binding
:param binding: string. The name of a relation of extra-binding
@ -1123,7 +1125,6 @@ def network_get_primary_address(binding):
return response
@translate_exc(from_exc=OSError, to_exc=NotImplementedError)
def network_get(endpoint, relation_id=None):
"""
Retrieve the network details for a relation endpoint
@ -1131,24 +1132,20 @@ def network_get(endpoint, relation_id=None):
:param endpoint: string. The name of a relation endpoint
:param relation_id: int. The ID of the relation for the current context.
:return: dict. The loaded YAML output of the network-get query.
:raise: NotImplementedError if run on Juju < 2.1
:raise: NotImplementedError if request not supported by the Juju version.
"""
if not has_juju_version('2.2'):
raise NotImplementedError(juju_version()) # earlier versions require --primary-address
if relation_id and not has_juju_version('2.3'):
raise NotImplementedError # 2.3 added the -r option
cmd = ['network-get', endpoint, '--format', 'yaml']
if relation_id:
cmd.append('-r')
cmd.append(relation_id)
try:
response = subprocess.check_output(
cmd,
stderr=subprocess.STDOUT).decode('UTF-8').strip()
except CalledProcessError as e:
# Early versions of Juju 2.0.x required the --primary-address argument.
# We catch that condition here and raise NotImplementedError since
# the requested semantics are not available - the caller can then
# use the network_get_primary_address() method instead.
if '--primary-address is currently required' in e.output.decode('UTF-8'):
raise NotImplementedError
raise
response = subprocess.check_output(
cmd,
stderr=subprocess.STDOUT).decode('UTF-8').strip()
return yaml.safe_load(response)
@ -1204,9 +1201,23 @@ def iter_units_for_relation_name(relation_name):
def ingress_address(rid=None, unit=None):
"""
Retrieve the ingress-address from a relation when available. Otherwise,
return the private-address. This function is to be used on the consuming
side of the relation.
Retrieve the ingress-address from a relation when available.
Otherwise, return the private-address.
When used on the consuming side of the relation (unit is a remote
unit), the ingress-address is the IP address that this unit needs
to use to reach the provided service on the remote unit.
When used on the providing side of the relation (unit == local_unit()),
the ingress-address is the IP address that is advertised to remote
units on this relation. Remote units need to use this address to
reach the local provided service on this unit.
Note that charms may document some other method to use in
preference to the ingress_address(), such as an address provided
on a different relation attribute or a service discovery mechanism.
This allows charms to redirect inbound connections to their peers
or different applications such as load balancers.
Usage:
addresses = [ingress_address(rid=u.rid, unit=u.unit)
@ -1220,3 +1231,40 @@ def ingress_address(rid=None, unit=None):
settings = relation_get(rid=rid, unit=unit)
return (settings.get('ingress-address') or
settings.get('private-address'))
def egress_subnets(rid=None, unit=None):
"""
Retrieve the egress-subnets from a relation.
This function is to be used on the providing side of the
relation, and provides the ranges of addresses that client
connections may come from. The result is uninteresting on
the consuming side of a relation (unit == local_unit()).
Returns a stable list of subnets in CIDR format.
eg. ['192.168.1.0/24', '2001::F00F/128']
If egress-subnets is not available, falls back to using the published
ingress-address, or finally private-address.
:param rid: string relation id
:param unit: string unit name
:side effect: calls relation_get
:return: list of subnets in CIDR format. eg. ['192.168.1.0/24', '2001::F00F/128']
"""
def _to_range(addr):
if re.search(r'^(?:\d{1,3}\.){3}\d{1,3}$', addr) is not None:
addr += '/32'
elif ':' in addr and '/' not in addr: # IPv6
addr += '/128'
return addr
settings = relation_get(rid=rid, unit=unit)
if 'egress-subnets' in settings:
return [n.strip() for n in settings['egress-subnets'].split(',') if n.strip()]
if 'ingress-address' in settings:
return [_to_range(settings['ingress-address'])]
if 'private-address' in settings:
return [_to_range(settings['private-address'])]
return [] # Should never happen

View File

@ -993,7 +993,7 @@ def updatedb(updatedb_text, new_path):
return output
def modulo_distribution(modulo=3, wait=30):
def modulo_distribution(modulo=3, wait=30, non_zero_wait=False):
""" Modulo distribution
This helper uses the unit number, a modulo value and a constant wait time
@ -1015,7 +1015,14 @@ def modulo_distribution(modulo=3, wait=30):
@param modulo: int The modulo number creates the group distribution
@param wait: int The constant time wait value
@param non_zero_wait: boolean Override unit % modulo == 0,
return modulo * wait. Used to avoid collisions with
leader nodes which are often given priority.
@return: int Calculated time to wait for unit operation
"""
unit_number = int(local_unit().split('/')[1])
return (unit_number % modulo) * wait
calculated_wait_time = (unit_number % modulo) * wait
if non_zero_wait and calculated_wait_time == 0:
return modulo * wait
else:
return calculated_wait_time

View File

@ -313,17 +313,26 @@ class PortManagerCallback(ManagerCallback):
with open(port_file) as fp:
old_ports = fp.read().split(',')
for old_port in old_ports:
if bool(old_port):
old_port = int(old_port)
if old_port not in new_ports:
hookenv.close_port(old_port)
if bool(old_port) and not self.ports_contains(old_port, new_ports):
hookenv.close_port(old_port)
with open(port_file, 'w') as fp:
fp.write(','.join(str(port) for port in new_ports))
for port in new_ports:
# A port is either a number or 'ICMP'
protocol = 'TCP'
if str(port).upper() == 'ICMP':
protocol = 'ICMP'
if event_name == 'start':
hookenv.open_port(port)
hookenv.open_port(port, protocol)
elif event_name == 'stop':
hookenv.close_port(port)
hookenv.close_port(port, protocol)
def ports_contains(self, port, ports):
if not bool(port):
return False
if str(port).upper() != 'ICMP':
port = int(port)
return port in ports
def service_stop(service_name):