Pre-release charm-helpers sync 17.02

Get each charm up to date with lp:charm-helpers for release testing.

Change-Id: I52f64f37a16d7869a4cd8e310bd20cc0b26bf1d7
This commit is contained in:
David Ames 2017-02-14 11:50:42 -08:00
parent cc1b547ce4
commit f37ae6bc76
30 changed files with 4387 additions and 56 deletions

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@ -3,3 +3,4 @@ destination: tests/charmhelpers
include:
- contrib.amulet
- contrib.openstack.amulet
- core

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@ -424,7 +424,11 @@ def ns_query(address):
else:
return None
answers = dns.resolver.query(address, rtype)
try:
answers = dns.resolver.query(address, rtype)
except dns.resolver.NXDOMAIN:
return None
if answers:
return str(answers[0])
return None

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@ -153,7 +153,7 @@ SWIFT_CODENAMES = OrderedDict([
('newton',
['2.8.0', '2.9.0', '2.10.0']),
('ocata',
['2.11.0']),
['2.11.0', '2.12.0']),
])
# >= Liberty version->codename mapping
@ -549,9 +549,9 @@ def configure_installation_source(rel):
'newton': 'xenial-updates/newton',
'newton/updates': 'xenial-updates/newton',
'newton/proposed': 'xenial-proposed/newton',
'zesty': 'zesty-updates/ocata',
'zesty/updates': 'xenial-updates/ocata',
'zesty/proposed': 'xenial-proposed/ocata',
'ocata': 'xenial-updates/ocata',
'ocata/updates': 'xenial-updates/ocata',
'ocata/proposed': 'xenial-proposed/ocata',
}
try:
@ -1119,6 +1119,35 @@ def git_generate_systemd_init_files(templates_dir):
shutil.copyfile(service_source, service_dest)
def git_determine_usr_bin():
"""Return the /usr/bin path for Apache2 config.
The /usr/bin path will be located in the virtualenv if the charm
is configured to deploy from source.
"""
if git_install_requested():
projects_yaml = config('openstack-origin-git')
projects_yaml = git_default_repos(projects_yaml)
return os.path.join(git_pip_venv_dir(projects_yaml), 'bin')
else:
return '/usr/bin'
def git_determine_python_path():
"""Return the python-path for Apache2 config.
Returns 'None' unless the charm is configured to deploy from source,
in which case the path of the virtualenv's site-packages is returned.
"""
if git_install_requested():
projects_yaml = config('openstack-origin-git')
projects_yaml = git_default_repos(projects_yaml)
return os.path.join(git_pip_venv_dir(projects_yaml),
'lib/python2.7/site-packages')
else:
return None
def os_workload_status(configs, required_interfaces, charm_func=None):
"""
Decorator to set workload status based on complete contexts
@ -1925,3 +1954,36 @@ def os_application_version_set(package):
application_version_set(os_release(package))
else:
application_version_set(application_version)
def enable_memcache(source=None, release=None, package=None):
"""Determine if memcache should be enabled on the local unit
@param release: release of OpenStack currently deployed
@param package: package to derive OpenStack version deployed
@returns boolean Whether memcache should be enabled
"""
_release = None
if release:
_release = release
else:
_release = os_release(package, base='icehouse')
if not _release:
_release = get_os_codename_install_source(source)
# TODO: this should be changed to a numeric comparison using a known list
# of releases and comparing by index.
return _release >= 'mitaka'
def token_cache_pkgs(source=None, release=None):
"""Determine additional packages needed for token caching
@param source: source string for charm
@param release: release of OpenStack currently deployed
@returns List of package to enable token caching
"""
packages = []
if enable_memcache(source=source, release=release):
packages.extend(['memcached', 'python-memcache'])
return packages

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@ -40,6 +40,7 @@ from subprocess import (
)
from charmhelpers.core.hookenv import (
config,
service_name,
local_unit,
relation_get,
relation_ids,
@ -1043,8 +1044,18 @@ class CephBrokerRq(object):
self.request_id = str(uuid.uuid1())
self.ops = []
def add_op_request_access_to_group(self, name, namespace=None,
permission=None, key_name=None):
"""
Adds the requested permissions to the current service's Ceph key,
allowing the key to access only the specified pools
"""
self.ops.append({'op': 'add-permissions-to-key', 'group': name,
'namespace': namespace, 'name': key_name or service_name(),
'group-permission': permission})
def add_op_create_pool(self, name, replica_count=3, pg_num=None,
weight=None):
weight=None, group=None, namespace=None):
"""Adds an operation to create a pool.
@param pg_num setting: optional setting. If not provided, this value
@ -1058,7 +1069,8 @@ class CephBrokerRq(object):
self.ops.append({'op': 'create-pool', 'name': name,
'replicas': replica_count, 'pg_num': pg_num,
'weight': weight})
'weight': weight, 'group': group,
'group-namespace': namespace})
def set_ops(self, ops):
"""Set request ops to provided value.

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@ -616,6 +616,20 @@ def close_port(port, protocol="TCP"):
subprocess.check_call(_args)
def open_ports(start, end, protocol="TCP"):
"""Opens a range of service network ports"""
_args = ['open-port']
_args.append('{}-{}/{}'.format(start, end, protocol))
subprocess.check_call(_args)
def close_ports(start, end, protocol="TCP"):
"""Close a range of service network ports"""
_args = ['close-port']
_args.append('{}-{}/{}'.format(start, end, protocol))
subprocess.check_call(_args)
@cached
def unit_get(attribute):
"""Get the unit ID for the remote unit"""
@ -1021,3 +1035,34 @@ def network_get_primary_address(binding):
'''
cmd = ['network-get', '--primary-address', binding]
return subprocess.check_output(cmd).decode('UTF-8').strip()
def add_metric(*args, **kwargs):
"""Add metric values. Values may be expressed with keyword arguments. For
metric names containing dashes, these may be expressed as one or more
'key=value' positional arguments. May only be called from the collect-metrics
hook."""
_args = ['add-metric']
_kvpairs = []
_kvpairs.extend(args)
_kvpairs.extend(['{}={}'.format(k, v) for k, v in kwargs.items()])
_args.extend(sorted(_kvpairs))
try:
subprocess.check_call(_args)
return
except EnvironmentError as e:
if e.errno != errno.ENOENT:
raise
log_message = 'add-metric failed: {}'.format(' '.join(_kvpairs))
log(log_message, level='INFO')
def meter_status():
"""Get the meter status, if running in the meter-status-changed hook."""
return os.environ.get('JUJU_METER_STATUS')
def meter_info():
"""Get the meter status information, if running in the meter-status-changed
hook."""
return os.environ.get('JUJU_METER_INFO')

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@ -54,38 +54,138 @@ elif __platform__ == "centos":
cmp_pkgrevno,
) # flake8: noqa -- ignore F401 for this import
UPDATEDB_PATH = '/etc/updatedb.conf'
def service_start(service_name):
"""Start a system service"""
return service('start', service_name)
def service_start(service_name, **kwargs):
"""Start a system service.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be reloaded. The follow-
ing example stops the ceph-osd service for instance id=4:
service_stop('ceph-osd', id=4)
:param service_name: the name of the service to stop
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for systemd enabled systems.
"""
return service('start', service_name, **kwargs)
def service_stop(service_name):
"""Stop a system service"""
return service('stop', service_name)
def service_stop(service_name, **kwargs):
"""Stop a system service.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be reloaded. The follow-
ing example stops the ceph-osd service for instance id=4:
service_stop('ceph-osd', id=4)
:param service_name: the name of the service to stop
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for systemd enabled systems.
"""
return service('stop', service_name, **kwargs)
def service_restart(service_name):
"""Restart a system service"""
def service_restart(service_name, **kwargs):
"""Restart a system service.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be restarted. The follow-
ing example restarts the ceph-osd service for instance id=4:
service_restart('ceph-osd', id=4)
:param service_name: the name of the service to restart
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for init systems not allowing additional
parameters via the commandline (systemd).
"""
return service('restart', service_name)
def service_reload(service_name, restart_on_failure=False):
def service_reload(service_name, restart_on_failure=False, **kwargs):
"""Reload a system service, optionally falling back to restart if
reload fails"""
service_result = service('reload', service_name)
reload fails.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be reloaded. The follow-
ing example restarts the ceph-osd service for instance id=4:
service_reload('ceph-osd', id=4)
:param service_name: the name of the service to reload
:param restart_on_failure: boolean indicating whether to fallback to a
restart if the reload fails.
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for init systems not allowing additional
parameters via the commandline (systemd).
"""
service_result = service('reload', service_name, **kwargs)
if not service_result and restart_on_failure:
service_result = service('restart', service_name)
service_result = service('restart', service_name, **kwargs)
return service_result
def service_pause(service_name, init_dir="/etc/init", initd_dir="/etc/init.d"):
def service_pause(service_name, init_dir="/etc/init", initd_dir="/etc/init.d",
**kwargs):
"""Pause a system service.
Stop it, and prevent it from starting again at boot."""
Stop it, and prevent it from starting again at boot.
:param service_name: the name of the service to pause
:param init_dir: path to the upstart init directory
:param initd_dir: path to the sysv init directory
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for init systems which do not support
key=value arguments via the commandline.
"""
stopped = True
if service_running(service_name):
stopped = service_stop(service_name)
if service_running(service_name, **kwargs):
stopped = service_stop(service_name, **kwargs)
upstart_file = os.path.join(init_dir, "{}.conf".format(service_name))
sysv_file = os.path.join(initd_dir, service_name)
if init_is_systemd():
@ -106,10 +206,19 @@ def service_pause(service_name, init_dir="/etc/init", initd_dir="/etc/init.d"):
def service_resume(service_name, init_dir="/etc/init",
initd_dir="/etc/init.d"):
initd_dir="/etc/init.d", **kwargs):
"""Resume a system service.
Reenable starting again at boot. Start the service"""
Reenable starting again at boot. Start the service.
:param service_name: the name of the service to resume
:param init_dir: the path to the init dir
:param initd dir: the path to the initd dir
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for systemd enabled systems.
"""
upstart_file = os.path.join(init_dir, "{}.conf".format(service_name))
sysv_file = os.path.join(initd_dir, service_name)
if init_is_systemd():
@ -126,19 +235,28 @@ def service_resume(service_name, init_dir="/etc/init",
"Unable to detect {0} as SystemD, Upstart {1} or"
" SysV {2}".format(
service_name, upstart_file, sysv_file))
started = service_running(service_name, **kwargs)
started = service_running(service_name)
if not started:
started = service_start(service_name)
started = service_start(service_name, **kwargs)
return started
def service(action, service_name):
"""Control a system service"""
def service(action, service_name, **kwargs):
"""Control a system service.
:param action: the action to take on the service
:param service_name: the name of the service to perform th action on
:param **kwargs: additional params to be passed to the service command in
the form of key=value.
"""
if init_is_systemd():
cmd = ['systemctl', action, service_name]
else:
cmd = ['service', service_name, action]
for key, value in six.iteritems(kwargs):
parameter = '%s=%s' % (key, value)
cmd.append(parameter)
return subprocess.call(cmd) == 0
@ -146,15 +264,26 @@ _UPSTART_CONF = "/etc/init/{}.conf"
_INIT_D_CONF = "/etc/init.d/{}"
def service_running(service_name):
"""Determine whether a system service is running"""
def service_running(service_name, **kwargs):
"""Determine whether a system service is running.
:param service_name: the name of the service
:param **kwargs: additional args to pass to the service command. This is
used to pass additional key=value arguments to the
service command line for managing specific instance
units (e.g. service ceph-osd status id=2). The kwargs
are ignored in systemd services.
"""
if init_is_systemd():
return service('is-active', service_name)
else:
if os.path.exists(_UPSTART_CONF.format(service_name)):
try:
output = subprocess.check_output(
['status', service_name],
cmd = ['status', service_name]
for key, value in six.iteritems(kwargs):
parameter = '%s=%s' % (key, value)
cmd.append(parameter)
output = subprocess.check_output(cmd,
stderr=subprocess.STDOUT).decode('UTF-8')
except subprocess.CalledProcessError:
return False
@ -306,15 +435,17 @@ def add_user_to_group(username, group):
subprocess.check_call(cmd)
def rsync(from_path, to_path, flags='-r', options=None):
def rsync(from_path, to_path, flags='-r', options=None, timeout=None):
"""Replicate the contents of a path"""
options = options or ['--delete', '--executability']
cmd = ['/usr/bin/rsync', flags]
if timeout:
cmd = ['timeout', str(timeout)] + cmd
cmd.extend(options)
cmd.append(from_path)
cmd.append(to_path)
log(" ".join(cmd))
return subprocess.check_output(cmd).decode('UTF-8').strip()
return subprocess.check_output(cmd, stderr=subprocess.STDOUT).decode('UTF-8').strip()
def symlink(source, destination):
@ -684,7 +815,7 @@ def chownr(path, owner, group, follow_links=True, chowntopdir=False):
:param str path: The string path to start changing ownership.
:param str owner: The owner string to use when looking up the uid.
:param str group: The group string to use when looking up the gid.
:param bool follow_links: Also Chown links if True
:param bool follow_links: Also follow and chown links if True
:param bool chowntopdir: Also chown path itself if True
"""
uid = pwd.getpwnam(owner).pw_uid
@ -698,7 +829,7 @@ def chownr(path, owner, group, follow_links=True, chowntopdir=False):
broken_symlink = os.path.lexists(path) and not os.path.exists(path)
if not broken_symlink:
chown(path, uid, gid)
for root, dirs, files in os.walk(path):
for root, dirs, files in os.walk(path, followlinks=follow_links):
for name in dirs + files:
full = os.path.join(root, name)
broken_symlink = os.path.lexists(full) and not os.path.exists(full)
@ -718,6 +849,20 @@ def lchownr(path, owner, group):
chownr(path, owner, group, follow_links=False)
def owner(path):
"""Returns a tuple containing the username & groupname owning the path.
:param str path: the string path to retrieve the ownership
:return tuple(str, str): A (username, groupname) tuple containing the
name of the user and group owning the path.
:raises OSError: if the specified path does not exist
"""
stat = os.stat(path)
username = pwd.getpwuid(stat.st_uid)[0]
groupname = grp.getgrgid(stat.st_gid)[0]
return username, groupname
def get_total_ram():
"""The total amount of system RAM in bytes.
@ -749,3 +894,25 @@ def is_container():
else:
# Detect using upstart container file marker
return os.path.exists(UPSTART_CONTAINER_TYPE)
def add_to_updatedb_prunepath(path, updatedb_path=UPDATEDB_PATH):
with open(updatedb_path, 'r+') as f_id:
updatedb_text = f_id.read()
output = updatedb(updatedb_text, path)
f_id.seek(0)
f_id.write(output)
f_id.truncate()
def updatedb(updatedb_text, new_path):
lines = [line for line in updatedb_text.split("\n")]
for i, line in enumerate(lines):
if line.startswith("PRUNEPATHS="):
paths_line = line.split("=")[1].replace('"', '')
paths = paths_line.split(" ")
if new_path not in paths:
paths.append(new_path)
lines[i] = 'PRUNEPATHS="{}"'.format(' '.join(paths))
output = "\n".join(lines)
return output

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@ -8,12 +8,18 @@ def get_platform():
will be returned (which is the name of the module).
This string is used to decide which platform module should be imported.
"""
# linux_distribution is deprecated and will be removed in Python 3.7
# Warings *not* disabled, as we certainly need to fix this.
tuple_platform = platform.linux_distribution()
current_platform = tuple_platform[0]
if "Ubuntu" in current_platform:
return "ubuntu"
elif "CentOS" in current_platform:
return "centos"
elif "debian" in current_platform:
# Stock Python does not detect Ubuntu and instead returns debian.
# Or at least it does in some build environments like Travis CI
return "ubuntu"
else:
raise RuntimeError("This module is not supported on {}."
.format(current_platform))

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@ -148,7 +148,8 @@ class AmuletUtils(object):
for service_name in services_list:
if (self.ubuntu_releases.index(release) >= systemd_switch or
service_name in ['rabbitmq-server', 'apache2']):
service_name in ['rabbitmq-server', 'apache2',
'memcached']):
# init is systemd (or regular sysv)
cmd = 'sudo service {} status'.format(service_name)
output, code = sentry_unit.run(cmd)

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@ -20,6 +20,7 @@ import re
import six
import time
import urllib
import urlparse
import cinderclient.v1.client as cinder_client
import glanceclient.v1.client as glance_client
@ -37,6 +38,7 @@ import swiftclient
from charmhelpers.contrib.amulet.utils import (
AmuletUtils
)
from charmhelpers.core.decorators import retry_on_exception
DEBUG = logging.DEBUG
ERROR = logging.ERROR
@ -303,6 +305,46 @@ class OpenStackAmuletUtils(AmuletUtils):
self.log.debug('Checking if tenant exists ({})...'.format(tenant))
return tenant in [t.name for t in keystone.tenants.list()]
@retry_on_exception(5, base_delay=10)
def keystone_wait_for_propagation(self, sentry_relation_pairs,
api_version):
"""Iterate over list of sentry and relation tuples and verify that
api_version has the expected value.
:param sentry_relation_pairs: list of sentry, relation name tuples used
for monitoring propagation of relation
data
:param api_version: api_version to expect in relation data
:returns: None if successful. Raise on error.
"""
for (sentry, relation_name) in sentry_relation_pairs:
rel = sentry.relation('identity-service',
relation_name)
self.log.debug('keystone relation data: {}'.format(rel))
if rel['api_version'] != str(api_version):
raise Exception("api_version not propagated through relation"
" data yet ('{}' != '{}')."
"".format(rel['api_version'], api_version))
def keystone_configure_api_version(self, sentry_relation_pairs, deployment,
api_version):
"""Configure preferred-api-version of keystone in deployment and
monitor provided list of relation objects for propagation
before returning to caller.
:param sentry_relation_pairs: list of sentry, relation tuples used for
monitoring propagation of relation data
:param deployment: deployment to configure
:param api_version: value preferred-api-version will be set to
:returns: None if successful. Raise on error.
"""
self.log.debug("Setting keystone preferred-api-version: '{}'"
"".format(api_version))
config = {'preferred-api-version': api_version}
deployment.d.configure('keystone', config)
self.keystone_wait_for_propagation(sentry_relation_pairs, api_version)
def authenticate_cinder_admin(self, keystone_sentry, username,
password, tenant):
"""Authenticates admin user with cinder."""
@ -311,6 +353,37 @@ class OpenStackAmuletUtils(AmuletUtils):
ept = "http://{}:5000/v2.0".format(keystone_ip.strip().decode('utf-8'))
return cinder_client.Client(username, password, tenant, ept)
def authenticate_keystone(self, keystone_ip, username, password,
api_version=False, admin_port=False,
user_domain_name=None, domain_name=None,
project_domain_name=None, project_name=None):
"""Authenticate with Keystone"""
self.log.debug('Authenticating with keystone...')
port = 5000
if admin_port:
port = 35357
base_ep = "http://{}:{}".format(keystone_ip.strip().decode('utf-8'),
port)
if not api_version or api_version == 2:
ep = base_ep + "/v2.0"
return keystone_client.Client(username=username, password=password,
tenant_name=project_name,
auth_url=ep)
else:
ep = base_ep + "/v3"
auth = keystone_id_v3.Password(
user_domain_name=user_domain_name,
username=username,
password=password,
domain_name=domain_name,
project_domain_name=project_domain_name,
project_name=project_name,
auth_url=ep
)
return keystone_client_v3.Client(
session=keystone_session.Session(auth=auth)
)
def authenticate_keystone_admin(self, keystone_sentry, user, password,
tenant=None, api_version=None,
keystone_ip=None):
@ -319,30 +392,28 @@ class OpenStackAmuletUtils(AmuletUtils):
if not keystone_ip:
keystone_ip = keystone_sentry.info['public-address']
base_ep = "http://{}:35357".format(keystone_ip.strip().decode('utf-8'))
if not api_version or api_version == 2:
ep = base_ep + "/v2.0"
return keystone_client.Client(username=user, password=password,
tenant_name=tenant, auth_url=ep)
else:
ep = base_ep + "/v3"
auth = keystone_id_v3.Password(
user_domain_name='admin_domain',
username=user,
password=password,
domain_name='admin_domain',
auth_url=ep,
)
sess = keystone_session.Session(auth=auth)
return keystone_client_v3.Client(session=sess)
user_domain_name = None
domain_name = None
if api_version == 3:
user_domain_name = 'admin_domain'
domain_name = user_domain_name
return self.authenticate_keystone(keystone_ip, user, password,
project_name=tenant,
api_version=api_version,
user_domain_name=user_domain_name,
domain_name=domain_name,
admin_port=True)
def authenticate_keystone_user(self, keystone, user, password, tenant):
"""Authenticates a regular user with the keystone public endpoint."""
self.log.debug('Authenticating keystone user ({})...'.format(user))
ep = keystone.service_catalog.url_for(service_type='identity',
endpoint_type='publicURL')
return keystone_client.Client(username=user, password=password,
tenant_name=tenant, auth_url=ep)
keystone_ip = urlparse.urlparse(ep).hostname
return self.authenticate_keystone(keystone_ip, user, password,
project_name=tenant)
def authenticate_glance_admin(self, keystone):
"""Authenticates admin user with glance."""
@ -1133,3 +1204,70 @@ class OpenStackAmuletUtils(AmuletUtils):
else:
msg = 'No message retrieved.'
amulet.raise_status(amulet.FAIL, msg)
def validate_memcache(self, sentry_unit, conf, os_release,
earliest_release=5, section='keystone_authtoken',
check_kvs=None):
"""Check Memcache is running and is configured to be used
Example call from Amulet test:
def test_110_memcache(self):
u.validate_memcache(self.neutron_api_sentry,
'/etc/neutron/neutron.conf',
self._get_openstack_release())
:param sentry_unit: sentry unit
:param conf: OpenStack config file to check memcache settings
:param os_release: Current OpenStack release int code
:param earliest_release: Earliest Openstack release to check int code
:param section: OpenStack config file section to check
:param check_kvs: Dict of settings to check in config file
:returns: None
"""
if os_release < earliest_release:
self.log.debug('Skipping memcache checks for deployment. {} <'
'mitaka'.format(os_release))
return
_kvs = check_kvs or {'memcached_servers': 'inet6:[::1]:11211'}
self.log.debug('Checking memcached is running')
ret = self.validate_services_by_name({sentry_unit: ['memcached']})
if ret:
amulet.raise_status(amulet.FAIL, msg='Memcache running check'
'failed {}'.format(ret))
else:
self.log.debug('OK')
self.log.debug('Checking memcache url is configured in {}'.format(
conf))
if self.validate_config_data(sentry_unit, conf, section, _kvs):
message = "Memcache config error in: {}".format(conf)
amulet.raise_status(amulet.FAIL, msg=message)
else:
self.log.debug('OK')
self.log.debug('Checking memcache configuration in '
'/etc/memcached.conf')
contents = self.file_contents_safe(sentry_unit, '/etc/memcached.conf',
fatal=True)
ubuntu_release, _ = self.run_cmd_unit(sentry_unit, 'lsb_release -cs')
if ubuntu_release <= 'trusty':
memcache_listen_addr = 'ip6-localhost'
else:
memcache_listen_addr = '::1'
expected = {
'-p': '11211',
'-l': memcache_listen_addr}
found = []
for key, value in expected.items():
for line in contents.split('\n'):
if line.startswith(key):
self.log.debug('Checking {} is set to {}'.format(
key,
value))
assert value == line.split()[-1]
self.log.debug(line.split()[-1])
found.append(key)
if sorted(found) == sorted(expected.keys()):
self.log.debug('OK')
else:
message = "Memcache config error in: /etc/memcached.conf"
amulet.raise_status(amulet.FAIL, msg=message)

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@ -0,0 +1,13 @@
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

View File

@ -0,0 +1,55 @@
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# Copyright 2014 Canonical Ltd.
#
# Authors:
# Edward Hope-Morley <opentastic@gmail.com>
#
import time
from charmhelpers.core.hookenv import (
log,
INFO,
)
def retry_on_exception(num_retries, base_delay=0, exc_type=Exception):
"""If the decorated function raises exception exc_type, allow num_retries
retry attempts before raise the exception.
"""
def _retry_on_exception_inner_1(f):
def _retry_on_exception_inner_2(*args, **kwargs):
retries = num_retries
multiplier = 1
while True:
try:
return f(*args, **kwargs)
except exc_type:
if not retries:
raise
delay = base_delay * multiplier
multiplier += 1
log("Retrying '%s' %d more times (delay=%s)" %
(f.__name__, retries, delay), level=INFO)
retries -= 1
if delay:
time.sleep(delay)
return _retry_on_exception_inner_2
return _retry_on_exception_inner_1

View File

@ -0,0 +1,43 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
__author__ = 'Jorge Niedbalski <niedbalski@ubuntu.com>'
import os
import subprocess
def sed(filename, before, after, flags='g'):
"""
Search and replaces the given pattern on filename.
:param filename: relative or absolute file path.
:param before: expression to be replaced (see 'man sed')
:param after: expression to replace with (see 'man sed')
:param flags: sed-compatible regex flags in example, to make
the search and replace case insensitive, specify ``flags="i"``.
The ``g`` flag is always specified regardless, so you do not
need to remember to include it when overriding this parameter.
:returns: If the sed command exit code was zero then return,
otherwise raise CalledProcessError.
"""
expression = r's/{0}/{1}/{2}'.format(before,
after, flags)
return subprocess.check_call(["sed", "-i", "-r", "-e",
expression,
os.path.expanduser(filename)])

View File

@ -0,0 +1,132 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import io
import os
__author__ = 'Jorge Niedbalski R. <jorge.niedbalski@canonical.com>'
class Fstab(io.FileIO):
"""This class extends file in order to implement a file reader/writer
for file `/etc/fstab`
"""
class Entry(object):
"""Entry class represents a non-comment line on the `/etc/fstab` file
"""
def __init__(self, device, mountpoint, filesystem,
options, d=0, p=0):
self.device = device
self.mountpoint = mountpoint
self.filesystem = filesystem
if not options:
options = "defaults"
self.options = options
self.d = int(d)
self.p = int(p)
def __eq__(self, o):
return str(self) == str(o)
def __str__(self):
return "{} {} {} {} {} {}".format(self.device,
self.mountpoint,
self.filesystem,
self.options,
self.d,
self.p)
DEFAULT_PATH = os.path.join(os.path.sep, 'etc', 'fstab')
def __init__(self, path=None):
if path:
self._path = path
else:
self._path = self.DEFAULT_PATH
super(Fstab, self).__init__(self._path, 'rb+')
def _hydrate_entry(self, line):
# NOTE: use split with no arguments to split on any
# whitespace including tabs
return Fstab.Entry(*filter(
lambda x: x not in ('', None),
line.strip("\n").split()))
@property
def entries(self):
self.seek(0)
for line in self.readlines():
line = line.decode('us-ascii')
try:
if line.strip() and not line.strip().startswith("#"):
yield self._hydrate_entry(line)
except ValueError:
pass
def get_entry_by_attr(self, attr, value):
for entry in self.entries:
e_attr = getattr(entry, attr)
if e_attr == value:
return entry
return None
def add_entry(self, entry):
if self.get_entry_by_attr('device', entry.device):
return False
self.write((str(entry) + '\n').encode('us-ascii'))
self.truncate()
return entry
def remove_entry(self, entry):
self.seek(0)
lines = [l.decode('us-ascii') for l in self.readlines()]
found = False
for index, line in enumerate(lines):
if line.strip() and not line.strip().startswith("#"):
if self._hydrate_entry(line) == entry:
found = True
break
if not found:
return False
lines.remove(line)
self.seek(0)
self.write(''.join(lines).encode('us-ascii'))
self.truncate()
return True
@classmethod
def remove_by_mountpoint(cls, mountpoint, path=None):
fstab = cls(path=path)
entry = fstab.get_entry_by_attr('mountpoint', mountpoint)
if entry:
return fstab.remove_entry(entry)
return False
@classmethod
def add(cls, device, mountpoint, filesystem, options=None, path=None):
return cls(path=path).add_entry(Fstab.Entry(device,
mountpoint, filesystem,
options=options))

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@ -0,0 +1,918 @@
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Tools for working with the host system"""
# Copyright 2012 Canonical Ltd.
#
# Authors:
# Nick Moffitt <nick.moffitt@canonical.com>
# Matthew Wedgwood <matthew.wedgwood@canonical.com>
import os
import re
import pwd
import glob
import grp
import random
import string
import subprocess
import hashlib
import functools
import itertools
import six
from contextlib import contextmanager
from collections import OrderedDict
from .hookenv import log
from .fstab import Fstab
from charmhelpers.osplatform import get_platform
__platform__ = get_platform()
if __platform__ == "ubuntu":
from charmhelpers.core.host_factory.ubuntu import (
service_available,
add_new_group,
lsb_release,
cmp_pkgrevno,
) # flake8: noqa -- ignore F401 for this import
elif __platform__ == "centos":
from charmhelpers.core.host_factory.centos import (
service_available,
add_new_group,
lsb_release,
cmp_pkgrevno,
) # flake8: noqa -- ignore F401 for this import
UPDATEDB_PATH = '/etc/updatedb.conf'
def service_start(service_name, **kwargs):
"""Start a system service.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be reloaded. The follow-
ing example stops the ceph-osd service for instance id=4:
service_stop('ceph-osd', id=4)
:param service_name: the name of the service to stop
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for systemd enabled systems.
"""
return service('start', service_name, **kwargs)
def service_stop(service_name, **kwargs):
"""Stop a system service.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be reloaded. The follow-
ing example stops the ceph-osd service for instance id=4:
service_stop('ceph-osd', id=4)
:param service_name: the name of the service to stop
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for systemd enabled systems.
"""
return service('stop', service_name, **kwargs)
def service_restart(service_name, **kwargs):
"""Restart a system service.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be restarted. The follow-
ing example restarts the ceph-osd service for instance id=4:
service_restart('ceph-osd', id=4)
:param service_name: the name of the service to restart
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for init systems not allowing additional
parameters via the commandline (systemd).
"""
return service('restart', service_name)
def service_reload(service_name, restart_on_failure=False, **kwargs):
"""Reload a system service, optionally falling back to restart if
reload fails.
The specified service name is managed via the system level init system.
Some init systems (e.g. upstart) require that additional arguments be
provided in order to directly control service instances whereas other init
systems allow for addressing instances of a service directly by name (e.g.
systemd).
The kwargs allow for the additional parameters to be passed to underlying
init systems for those systems which require/allow for them. For example,
the ceph-osd upstart script requires the id parameter to be passed along
in order to identify which running daemon should be reloaded. The follow-
ing example restarts the ceph-osd service for instance id=4:
service_reload('ceph-osd', id=4)
:param service_name: the name of the service to reload
:param restart_on_failure: boolean indicating whether to fallback to a
restart if the reload fails.
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for init systems not allowing additional
parameters via the commandline (systemd).
"""
service_result = service('reload', service_name, **kwargs)
if not service_result and restart_on_failure:
service_result = service('restart', service_name, **kwargs)
return service_result
def service_pause(service_name, init_dir="/etc/init", initd_dir="/etc/init.d",
**kwargs):
"""Pause a system service.
Stop it, and prevent it from starting again at boot.
:param service_name: the name of the service to pause
:param init_dir: path to the upstart init directory
:param initd_dir: path to the sysv init directory
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for init systems which do not support
key=value arguments via the commandline.
"""
stopped = True
if service_running(service_name, **kwargs):
stopped = service_stop(service_name, **kwargs)
upstart_file = os.path.join(init_dir, "{}.conf".format(service_name))
sysv_file = os.path.join(initd_dir, service_name)
if init_is_systemd():
service('disable', service_name)
elif os.path.exists(upstart_file):
override_path = os.path.join(
init_dir, '{}.override'.format(service_name))
with open(override_path, 'w') as fh:
fh.write("manual\n")
elif os.path.exists(sysv_file):
subprocess.check_call(["update-rc.d", service_name, "disable"])
else:
raise ValueError(
"Unable to detect {0} as SystemD, Upstart {1} or"
" SysV {2}".format(
service_name, upstart_file, sysv_file))
return stopped
def service_resume(service_name, init_dir="/etc/init",
initd_dir="/etc/init.d", **kwargs):
"""Resume a system service.
Reenable starting again at boot. Start the service.
:param service_name: the name of the service to resume
:param init_dir: the path to the init dir
:param initd dir: the path to the initd dir
:param **kwargs: additional parameters to pass to the init system when
managing services. These will be passed as key=value
parameters to the init system's commandline. kwargs
are ignored for systemd enabled systems.
"""
upstart_file = os.path.join(init_dir, "{}.conf".format(service_name))
sysv_file = os.path.join(initd_dir, service_name)
if init_is_systemd():
service('enable', service_name)
elif os.path.exists(upstart_file):
override_path = os.path.join(
init_dir, '{}.override'.format(service_name))
if os.path.exists(override_path):
os.unlink(override_path)
elif os.path.exists(sysv_file):
subprocess.check_call(["update-rc.d", service_name, "enable"])
else:
raise ValueError(
"Unable to detect {0} as SystemD, Upstart {1} or"
" SysV {2}".format(
service_name, upstart_file, sysv_file))
started = service_running(service_name, **kwargs)
if not started:
started = service_start(service_name, **kwargs)
return started
def service(action, service_name, **kwargs):
"""Control a system service.
:param action: the action to take on the service
:param service_name: the name of the service to perform th action on
:param **kwargs: additional params to be passed to the service command in
the form of key=value.
"""
if init_is_systemd():
cmd = ['systemctl', action, service_name]
else:
cmd = ['service', service_name, action]
for key, value in six.iteritems(kwargs):
parameter = '%s=%s' % (key, value)
cmd.append(parameter)
return subprocess.call(cmd) == 0
_UPSTART_CONF = "/etc/init/{}.conf"
_INIT_D_CONF = "/etc/init.d/{}"
def service_running(service_name, **kwargs):
"""Determine whether a system service is running.
:param service_name: the name of the service
:param **kwargs: additional args to pass to the service command. This is
used to pass additional key=value arguments to the
service command line for managing specific instance
units (e.g. service ceph-osd status id=2). The kwargs
are ignored in systemd services.
"""
if init_is_systemd():
return service('is-active', service_name)
else:
if os.path.exists(_UPSTART_CONF.format(service_name)):
try:
cmd = ['status', service_name]
for key, value in six.iteritems(kwargs):
parameter = '%s=%s' % (key, value)
cmd.append(parameter)
output = subprocess.check_output(cmd,
stderr=subprocess.STDOUT).decode('UTF-8')
except subprocess.CalledProcessError:
return False
else:
# This works for upstart scripts where the 'service' command
# returns a consistent string to represent running
# 'start/running'
if ("start/running" in output or
"is running" in output or
"up and running" in output):
return True
elif os.path.exists(_INIT_D_CONF.format(service_name)):
# Check System V scripts init script return codes
return service('status', service_name)
return False
SYSTEMD_SYSTEM = '/run/systemd/system'
def init_is_systemd():
"""Return True if the host system uses systemd, False otherwise."""
return os.path.isdir(SYSTEMD_SYSTEM)
def adduser(username, password=None, shell='/bin/bash',
system_user=False, primary_group=None,
secondary_groups=None, uid=None, home_dir=None):
"""Add a user to the system.
Will log but otherwise succeed if the user already exists.
:param str username: Username to create
:param str password: Password for user; if ``None``, create a system user
:param str shell: The default shell for the user
:param bool system_user: Whether to create a login or system user
:param str primary_group: Primary group for user; defaults to username
:param list secondary_groups: Optional list of additional groups
:param int uid: UID for user being created
:param str home_dir: Home directory for user
:returns: The password database entry struct, as returned by `pwd.getpwnam`
"""
try:
user_info = pwd.getpwnam(username)
log('user {0} already exists!'.format(username))
if uid:
user_info = pwd.getpwuid(int(uid))
log('user with uid {0} already exists!'.format(uid))
except KeyError:
log('creating user {0}'.format(username))
cmd = ['useradd']
if uid:
cmd.extend(['--uid', str(uid)])
if home_dir:
cmd.extend(['--home', str(home_dir)])
if system_user or password is None:
cmd.append('--system')
else:
cmd.extend([
'--create-home',
'--shell', shell,
'--password', password,
])
if not primary_group:
try:
grp.getgrnam(username)
primary_group = username # avoid "group exists" error
except KeyError:
pass
if primary_group:
cmd.extend(['-g', primary_group])
if secondary_groups:
cmd.extend(['-G', ','.join(secondary_groups)])
cmd.append(username)
subprocess.check_call(cmd)
user_info = pwd.getpwnam(username)
return user_info
def user_exists(username):
"""Check if a user exists"""
try:
pwd.getpwnam(username)
user_exists = True
except KeyError:
user_exists = False
return user_exists
def uid_exists(uid):
"""Check if a uid exists"""
try:
pwd.getpwuid(uid)
uid_exists = True
except KeyError:
uid_exists = False
return uid_exists
def group_exists(groupname):
"""Check if a group exists"""
try:
grp.getgrnam(groupname)
group_exists = True
except KeyError:
group_exists = False
return group_exists
def gid_exists(gid):
"""Check if a gid exists"""
try:
grp.getgrgid(gid)
gid_exists = True
except KeyError:
gid_exists = False
return gid_exists
def add_group(group_name, system_group=False, gid=None):
"""Add a group to the system
Will log but otherwise succeed if the group already exists.
:param str group_name: group to create
:param bool system_group: Create system group
:param int gid: GID for user being created
:returns: The password database entry struct, as returned by `grp.getgrnam`
"""
try:
group_info = grp.getgrnam(group_name)
log('group {0} already exists!'.format(group_name))
if gid:
group_info = grp.getgrgid(gid)
log('group with gid {0} already exists!'.format(gid))
except KeyError:
log('creating group {0}'.format(group_name))
add_new_group(group_name, system_group, gid)
group_info = grp.getgrnam(group_name)
return group_info
def add_user_to_group(username, group):
"""Add a user to a group"""
cmd = ['gpasswd', '-a', username, group]
log("Adding user {} to group {}".format(username, group))
subprocess.check_call(cmd)
def rsync(from_path, to_path, flags='-r', options=None, timeout=None):
"""Replicate the contents of a path"""
options = options or ['--delete', '--executability']
cmd = ['/usr/bin/rsync', flags]
if timeout:
cmd = ['timeout', str(timeout)] + cmd
cmd.extend(options)
cmd.append(from_path)
cmd.append(to_path)
log(" ".join(cmd))
return subprocess.check_output(cmd, stderr=subprocess.STDOUT).decode('UTF-8').strip()
def symlink(source, destination):
"""Create a symbolic link"""
log("Symlinking {} as {}".format(source, destination))
cmd = [
'ln',
'-sf',
source,
destination,
]
subprocess.check_call(cmd)
def mkdir(path, owner='root', group='root', perms=0o555, force=False):
"""Create a directory"""
log("Making dir {} {}:{} {:o}".format(path, owner, group,
perms))
uid = pwd.getpwnam(owner).pw_uid
gid = grp.getgrnam(group).gr_gid
realpath = os.path.abspath(path)
path_exists = os.path.exists(realpath)
if path_exists and force:
if not os.path.isdir(realpath):
log("Removing non-directory file {} prior to mkdir()".format(path))
os.unlink(realpath)
os.makedirs(realpath, perms)
elif not path_exists:
os.makedirs(realpath, perms)
os.chown(realpath, uid, gid)
os.chmod(realpath, perms)
def write_file(path, content, owner='root', group='root', perms=0o444):
"""Create or overwrite a file with the contents of a byte string."""
log("Writing file {} {}:{} {:o}".format(path, owner, group, perms))
uid = pwd.getpwnam(owner).pw_uid
gid = grp.getgrnam(group).gr_gid
with open(path, 'wb') as target:
os.fchown(target.fileno(), uid, gid)
os.fchmod(target.fileno(), perms)
target.write(content)
def fstab_remove(mp):
"""Remove the given mountpoint entry from /etc/fstab"""
return Fstab.remove_by_mountpoint(mp)
def fstab_add(dev, mp, fs, options=None):
"""Adds the given device entry to the /etc/fstab file"""
return Fstab.add(dev, mp, fs, options=options)
def mount(device, mountpoint, options=None, persist=False, filesystem="ext3"):
"""Mount a filesystem at a particular mountpoint"""
cmd_args = ['mount']
if options is not None:
cmd_args.extend(['-o', options])
cmd_args.extend([device, mountpoint])
try:
subprocess.check_output(cmd_args)
except subprocess.CalledProcessError as e:
log('Error mounting {} at {}\n{}'.format(device, mountpoint, e.output))
return False
if persist:
return fstab_add(device, mountpoint, filesystem, options=options)
return True
def umount(mountpoint, persist=False):
"""Unmount a filesystem"""
cmd_args = ['umount', mountpoint]
try:
subprocess.check_output(cmd_args)
except subprocess.CalledProcessError as e:
log('Error unmounting {}\n{}'.format(mountpoint, e.output))
return False
if persist:
return fstab_remove(mountpoint)
return True
def mounts():
"""Get a list of all mounted volumes as [[mountpoint,device],[...]]"""
with open('/proc/mounts') as f:
# [['/mount/point','/dev/path'],[...]]
system_mounts = [m[1::-1] for m in [l.strip().split()
for l in f.readlines()]]
return system_mounts
def fstab_mount(mountpoint):
"""Mount filesystem using fstab"""
cmd_args = ['mount', mountpoint]
try:
subprocess.check_output(cmd_args)
except subprocess.CalledProcessError as e:
log('Error unmounting {}\n{}'.format(mountpoint, e.output))
return False
return True
def file_hash(path, hash_type='md5'):
"""Generate a hash checksum of the contents of 'path' or None if not found.
:param str hash_type: Any hash alrgorithm supported by :mod:`hashlib`,
such as md5, sha1, sha256, sha512, etc.
"""
if os.path.exists(path):
h = getattr(hashlib, hash_type)()
with open(path, 'rb') as source:
h.update(source.read())
return h.hexdigest()
else:
return None
def path_hash(path):
"""Generate a hash checksum of all files matching 'path'. Standard
wildcards like '*' and '?' are supported, see documentation for the 'glob'
module for more information.
:return: dict: A { filename: hash } dictionary for all matched files.
Empty if none found.
"""
return {
filename: file_hash(filename)
for filename in glob.iglob(path)
}
def check_hash(path, checksum, hash_type='md5'):
"""Validate a file using a cryptographic checksum.
:param str checksum: Value of the checksum used to validate the file.
:param str hash_type: Hash algorithm used to generate `checksum`.
Can be any hash alrgorithm supported by :mod:`hashlib`,
such as md5, sha1, sha256, sha512, etc.
:raises ChecksumError: If the file fails the checksum
"""
actual_checksum = file_hash(path, hash_type)
if checksum != actual_checksum:
raise ChecksumError("'%s' != '%s'" % (checksum, actual_checksum))
class ChecksumError(ValueError):
"""A class derived from Value error to indicate the checksum failed."""
pass
def restart_on_change(restart_map, stopstart=False, restart_functions=None):
"""Restart services based on configuration files changing
This function is used a decorator, for example::
@restart_on_change({
'/etc/ceph/ceph.conf': [ 'cinder-api', 'cinder-volume' ]
'/etc/apache/sites-enabled/*': [ 'apache2' ]
})
def config_changed():
pass # your code here
In this example, the cinder-api and cinder-volume services
would be restarted if /etc/ceph/ceph.conf is changed by the
ceph_client_changed function. The apache2 service would be
restarted if any file matching the pattern got changed, created
or removed. Standard wildcards are supported, see documentation
for the 'glob' module for more information.
@param restart_map: {path_file_name: [service_name, ...]
@param stopstart: DEFAULT false; whether to stop, start OR restart
@param restart_functions: nonstandard functions to use to restart services
{svc: func, ...}
@returns result from decorated function
"""
def wrap(f):
@functools.wraps(f)
def wrapped_f(*args, **kwargs):
return restart_on_change_helper(
(lambda: f(*args, **kwargs)), restart_map, stopstart,
restart_functions)
return wrapped_f
return wrap
def restart_on_change_helper(lambda_f, restart_map, stopstart=False,
restart_functions=None):
"""Helper function to perform the restart_on_change function.
This is provided for decorators to restart services if files described
in the restart_map have changed after an invocation of lambda_f().
@param lambda_f: function to call.
@param restart_map: {file: [service, ...]}
@param stopstart: whether to stop, start or restart a service
@param restart_functions: nonstandard functions to use to restart services
{svc: func, ...}
@returns result of lambda_f()
"""
if restart_functions is None:
restart_functions = {}
checksums = {path: path_hash(path) for path in restart_map}
r = lambda_f()
# create a list of lists of the services to restart
restarts = [restart_map[path]
for path in restart_map
if path_hash(path) != checksums[path]]
# create a flat list of ordered services without duplicates from lists
services_list = list(OrderedDict.fromkeys(itertools.chain(*restarts)))
if services_list:
actions = ('stop', 'start') if stopstart else ('restart',)
for service_name in services_list:
if service_name in restart_functions:
restart_functions[service_name](service_name)
else:
for action in actions:
service(action, service_name)
return r
def pwgen(length=None):
"""Generate a random pasword."""
if length is None:
# A random length is ok to use a weak PRNG
length = random.choice(range(35, 45))
alphanumeric_chars = [
l for l in (string.ascii_letters + string.digits)
if l not in 'l0QD1vAEIOUaeiou']
# Use a crypto-friendly PRNG (e.g. /dev/urandom) for making the
# actual password
random_generator = random.SystemRandom()
random_chars = [
random_generator.choice(alphanumeric_chars) for _ in range(length)]
return(''.join(random_chars))
def is_phy_iface(interface):
"""Returns True if interface is not virtual, otherwise False."""
if interface:
sys_net = '/sys/class/net'
if os.path.isdir(sys_net):
for iface in glob.glob(os.path.join(sys_net, '*')):
if '/virtual/' in os.path.realpath(iface):
continue
if interface == os.path.basename(iface):
return True
return False
def get_bond_master(interface):
"""Returns bond master if interface is bond slave otherwise None.
NOTE: the provided interface is expected to be physical
"""
if interface:
iface_path = '/sys/class/net/%s' % (interface)
if os.path.exists(iface_path):
if '/virtual/' in os.path.realpath(iface_path):
return None
master = os.path.join(iface_path, 'master')
if os.path.exists(master):
master = os.path.realpath(master)
# make sure it is a bond master
if os.path.exists(os.path.join(master, 'bonding')):
return os.path.basename(master)
return None
def list_nics(nic_type=None):
"""Return a list of nics of given type(s)"""
if isinstance(nic_type, six.string_types):
int_types = [nic_type]
else:
int_types = nic_type
interfaces = []
if nic_type:
for int_type in int_types:
cmd = ['ip', 'addr', 'show', 'label', int_type + '*']
ip_output = subprocess.check_output(cmd).decode('UTF-8')
ip_output = ip_output.split('\n')
ip_output = (line for line in ip_output if line)
for line in ip_output:
if line.split()[1].startswith(int_type):
matched = re.search('.*: (' + int_type +
r'[0-9]+\.[0-9]+)@.*', line)
if matched:
iface = matched.groups()[0]
else:
iface = line.split()[1].replace(":", "")
if iface not in interfaces:
interfaces.append(iface)
else:
cmd = ['ip', 'a']
ip_output = subprocess.check_output(cmd).decode('UTF-8').split('\n')
ip_output = (line.strip() for line in ip_output if line)
key = re.compile('^[0-9]+:\s+(.+):')
for line in ip_output:
matched = re.search(key, line)
if matched:
iface = matched.group(1)
iface = iface.partition("@")[0]
if iface not in interfaces:
interfaces.append(iface)
return interfaces
def set_nic_mtu(nic, mtu):
"""Set the Maximum Transmission Unit (MTU) on a network interface."""
cmd = ['ip', 'link', 'set', nic, 'mtu', mtu]
subprocess.check_call(cmd)
def get_nic_mtu(nic):
"""Return the Maximum Transmission Unit (MTU) for a network interface."""
cmd = ['ip', 'addr', 'show', nic]
ip_output = subprocess.check_output(cmd).decode('UTF-8').split('\n')
mtu = ""
for line in ip_output:
words = line.split()
if 'mtu' in words:
mtu = words[words.index("mtu") + 1]
return mtu
def get_nic_hwaddr(nic):
"""Return the Media Access Control (MAC) for a network interface."""
cmd = ['ip', '-o', '-0', 'addr', 'show', nic]
ip_output = subprocess.check_output(cmd).decode('UTF-8')
hwaddr = ""
words = ip_output.split()
if 'link/ether' in words:
hwaddr = words[words.index('link/ether') + 1]
return hwaddr
@contextmanager
def chdir(directory):
"""Change the current working directory to a different directory for a code
block and return the previous directory after the block exits. Useful to
run commands from a specificed directory.
:param str directory: The directory path to change to for this context.
"""
cur = os.getcwd()
try:
yield os.chdir(directory)
finally:
os.chdir(cur)
def chownr(path, owner, group, follow_links=True, chowntopdir=False):
"""Recursively change user and group ownership of files and directories
in given path. Doesn't chown path itself by default, only its children.
:param str path: The string path to start changing ownership.
:param str owner: The owner string to use when looking up the uid.
:param str group: The group string to use when looking up the gid.
:param bool follow_links: Also follow and chown links if True
:param bool chowntopdir: Also chown path itself if True
"""
uid = pwd.getpwnam(owner).pw_uid
gid = grp.getgrnam(group).gr_gid
if follow_links:
chown = os.chown
else:
chown = os.lchown
if chowntopdir:
broken_symlink = os.path.lexists(path) and not os.path.exists(path)
if not broken_symlink:
chown(path, uid, gid)
for root, dirs, files in os.walk(path, followlinks=follow_links):
for name in dirs + files:
full = os.path.join(root, name)
broken_symlink = os.path.lexists(full) and not os.path.exists(full)
if not broken_symlink:
chown(full, uid, gid)
def lchownr(path, owner, group):
"""Recursively change user and group ownership of files and directories
in a given path, not following symbolic links. See the documentation for
'os.lchown' for more information.
:param str path: The string path to start changing ownership.
:param str owner: The owner string to use when looking up the uid.
:param str group: The group string to use when looking up the gid.
"""
chownr(path, owner, group, follow_links=False)
def owner(path):
"""Returns a tuple containing the username & groupname owning the path.
:param str path: the string path to retrieve the ownership
:return tuple(str, str): A (username, groupname) tuple containing the
name of the user and group owning the path.
:raises OSError: if the specified path does not exist
"""
stat = os.stat(path)
username = pwd.getpwuid(stat.st_uid)[0]
groupname = grp.getgrgid(stat.st_gid)[0]
return username, groupname
def get_total_ram():
"""The total amount of system RAM in bytes.
This is what is reported by the OS, and may be overcommitted when
there are multiple containers hosted on the same machine.
"""
with open('/proc/meminfo', 'r') as f:
for line in f.readlines():
if line:
key, value, unit = line.split()
if key == 'MemTotal:':
assert unit == 'kB', 'Unknown unit'
return int(value) * 1024 # Classic, not KiB.
raise NotImplementedError()
UPSTART_CONTAINER_TYPE = '/run/container_type'
def is_container():
"""Determine whether unit is running in a container
@return: boolean indicating if unit is in a container
"""
if init_is_systemd():
# Detect using systemd-detect-virt
return subprocess.call(['systemd-detect-virt',
'--container']) == 0
else:
# Detect using upstart container file marker
return os.path.exists(UPSTART_CONTAINER_TYPE)
def add_to_updatedb_prunepath(path, updatedb_path=UPDATEDB_PATH):
with open(updatedb_path, 'r+') as f_id:
updatedb_text = f_id.read()
output = updatedb(updatedb_text, path)
f_id.seek(0)
f_id.write(output)
f_id.truncate()
def updatedb(updatedb_text, new_path):
lines = [line for line in updatedb_text.split("\n")]
for i, line in enumerate(lines):
if line.startswith("PRUNEPATHS="):
paths_line = line.split("=")[1].replace('"', '')
paths = paths_line.split(" ")
if new_path not in paths:
paths.append(new_path)
lines[i] = 'PRUNEPATHS="{}"'.format(' '.join(paths))
output = "\n".join(lines)
return output

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import subprocess
import yum
import os
def service_available(service_name):
# """Determine whether a system service is available."""
if os.path.isdir('/run/systemd/system'):
cmd = ['systemctl', 'is-enabled', service_name]
else:
cmd = ['service', service_name, 'is-enabled']
return subprocess.call(cmd) == 0
def add_new_group(group_name, system_group=False, gid=None):
cmd = ['groupadd']
if gid:
cmd.extend(['--gid', str(gid)])
if system_group:
cmd.append('-r')
cmd.append(group_name)
subprocess.check_call(cmd)
def lsb_release():
"""Return /etc/os-release in a dict."""
d = {}
with open('/etc/os-release', 'r') as lsb:
for l in lsb:
s = l.split('=')
if len(s) != 2:
continue
d[s[0].strip()] = s[1].strip()
return d
def cmp_pkgrevno(package, revno, pkgcache=None):
"""Compare supplied revno with the revno of the installed package.
* 1 => Installed revno is greater than supplied arg
* 0 => Installed revno is the same as supplied arg
* -1 => Installed revno is less than supplied arg
This function imports YumBase function if the pkgcache argument
is None.
"""
if not pkgcache:
y = yum.YumBase()
packages = y.doPackageLists()
pkgcache = {i.Name: i.version for i in packages['installed']}
pkg = pkgcache[package]
if pkg > revno:
return 1
if pkg < revno:
return -1
return 0

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import subprocess
def service_available(service_name):
"""Determine whether a system service is available"""
try:
subprocess.check_output(
['service', service_name, 'status'],
stderr=subprocess.STDOUT).decode('UTF-8')
except subprocess.CalledProcessError as e:
return b'unrecognized service' not in e.output
else:
return True
def add_new_group(group_name, system_group=False, gid=None):
cmd = ['addgroup']
if gid:
cmd.extend(['--gid', str(gid)])
if system_group:
cmd.append('--system')
else:
cmd.extend([
'--group',
])
cmd.append(group_name)
subprocess.check_call(cmd)
def lsb_release():
"""Return /etc/lsb-release in a dict"""
d = {}
with open('/etc/lsb-release', 'r') as lsb:
for l in lsb:
k, v = l.split('=')
d[k.strip()] = v.strip()
return d
def cmp_pkgrevno(package, revno, pkgcache=None):
"""Compare supplied revno with the revno of the installed package.
* 1 => Installed revno is greater than supplied arg
* 0 => Installed revno is the same as supplied arg
* -1 => Installed revno is less than supplied arg
This function imports apt_cache function from charmhelpers.fetch if
the pkgcache argument is None. Be sure to add charmhelpers.fetch if
you call this function, or pass an apt_pkg.Cache() instance.
"""
import apt_pkg
if not pkgcache:
from charmhelpers.fetch import apt_cache
pkgcache = apt_cache()
pkg = pkgcache[package]
return apt_pkg.version_compare(pkg.current_ver.ver_str, revno)

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# -*- coding: utf-8 -*-
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import yaml
from charmhelpers.core import fstab
from charmhelpers.core import sysctl
from charmhelpers.core.host import (
add_group,
add_user_to_group,
fstab_mount,
mkdir,
)
from charmhelpers.core.strutils import bytes_from_string
from subprocess import check_output
def hugepage_support(user, group='hugetlb', nr_hugepages=256,
max_map_count=65536, mnt_point='/run/hugepages/kvm',
pagesize='2MB', mount=True, set_shmmax=False):
"""Enable hugepages on system.
Args:
user (str) -- Username to allow access to hugepages to
group (str) -- Group name to own hugepages
nr_hugepages (int) -- Number of pages to reserve
max_map_count (int) -- Number of Virtual Memory Areas a process can own
mnt_point (str) -- Directory to mount hugepages on
pagesize (str) -- Size of hugepages
mount (bool) -- Whether to Mount hugepages
"""
group_info = add_group(group)
gid = group_info.gr_gid
add_user_to_group(user, group)
if max_map_count < 2 * nr_hugepages:
max_map_count = 2 * nr_hugepages
sysctl_settings = {
'vm.nr_hugepages': nr_hugepages,
'vm.max_map_count': max_map_count,
'vm.hugetlb_shm_group': gid,
}
if set_shmmax:
shmmax_current = int(check_output(['sysctl', '-n', 'kernel.shmmax']))
shmmax_minsize = bytes_from_string(pagesize) * nr_hugepages
if shmmax_minsize > shmmax_current:
sysctl_settings['kernel.shmmax'] = shmmax_minsize
sysctl.create(yaml.dump(sysctl_settings), '/etc/sysctl.d/10-hugepage.conf')
mkdir(mnt_point, owner='root', group='root', perms=0o755, force=False)
lfstab = fstab.Fstab()
fstab_entry = lfstab.get_entry_by_attr('mountpoint', mnt_point)
if fstab_entry:
lfstab.remove_entry(fstab_entry)
entry = lfstab.Entry('nodev', mnt_point, 'hugetlbfs',
'mode=1770,gid={},pagesize={}'.format(gid, pagesize), 0, 0)
lfstab.add_entry(entry)
if mount:
fstab_mount(mnt_point)

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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import re
import subprocess
from charmhelpers.osplatform import get_platform
from charmhelpers.core.hookenv import (
log,
INFO
)
__platform__ = get_platform()
if __platform__ == "ubuntu":
from charmhelpers.core.kernel_factory.ubuntu import (
persistent_modprobe,
update_initramfs,
) # flake8: noqa -- ignore F401 for this import
elif __platform__ == "centos":
from charmhelpers.core.kernel_factory.centos import (
persistent_modprobe,
update_initramfs,
) # flake8: noqa -- ignore F401 for this import
__author__ = "Jorge Niedbalski <jorge.niedbalski@canonical.com>"
def modprobe(module, persist=True):
"""Load a kernel module and configure for auto-load on reboot."""
cmd = ['modprobe', module]
log('Loading kernel module %s' % module, level=INFO)
subprocess.check_call(cmd)
if persist:
persistent_modprobe(module)
def rmmod(module, force=False):
"""Remove a module from the linux kernel"""
cmd = ['rmmod']
if force:
cmd.append('-f')
cmd.append(module)
log('Removing kernel module %s' % module, level=INFO)
return subprocess.check_call(cmd)
def lsmod():
"""Shows what kernel modules are currently loaded"""
return subprocess.check_output(['lsmod'],
universal_newlines=True)
def is_module_loaded(module):
"""Checks if a kernel module is already loaded"""
matches = re.findall('^%s[ ]+' % module, lsmod(), re.M)
return len(matches) > 0

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import subprocess
import os
def persistent_modprobe(module):
"""Load a kernel module and configure for auto-load on reboot."""
if not os.path.exists('/etc/rc.modules'):
open('/etc/rc.modules', 'a')
os.chmod('/etc/rc.modules', 111)
with open('/etc/rc.modules', 'r+') as modules:
if module not in modules.read():
modules.write('modprobe %s\n' % module)
def update_initramfs(version='all'):
"""Updates an initramfs image."""
return subprocess.check_call(["dracut", "-f", version])

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import subprocess
def persistent_modprobe(module):
"""Load a kernel module and configure for auto-load on reboot."""
with open('/etc/modules', 'r+') as modules:
if module not in modules.read():
modules.write(module + "\n")
def update_initramfs(version='all'):
"""Updates an initramfs image."""
return subprocess.check_call(["update-initramfs", "-k", version, "-u"])

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# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from .base import * # NOQA
from .helpers import * # NOQA

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# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import json
from inspect import getargspec
from collections import Iterable, OrderedDict
from charmhelpers.core import host
from charmhelpers.core import hookenv
__all__ = ['ServiceManager', 'ManagerCallback',
'PortManagerCallback', 'open_ports', 'close_ports', 'manage_ports',
'service_restart', 'service_stop']
class ServiceManager(object):
def __init__(self, services=None):
"""
Register a list of services, given their definitions.
Service definitions are dicts in the following formats (all keys except
'service' are optional)::
{
"service": <service name>,
"required_data": <list of required data contexts>,
"provided_data": <list of provided data contexts>,
"data_ready": <one or more callbacks>,
"data_lost": <one or more callbacks>,
"start": <one or more callbacks>,
"stop": <one or more callbacks>,
"ports": <list of ports to manage>,
}
The 'required_data' list should contain dicts of required data (or
dependency managers that act like dicts and know how to collect the data).
Only when all items in the 'required_data' list are populated are the list
of 'data_ready' and 'start' callbacks executed. See `is_ready()` for more
information.
The 'provided_data' list should contain relation data providers, most likely
a subclass of :class:`charmhelpers.core.services.helpers.RelationContext`,
that will indicate a set of data to set on a given relation.
The 'data_ready' value should be either a single callback, or a list of
callbacks, to be called when all items in 'required_data' pass `is_ready()`.
Each callback will be called with the service name as the only parameter.
After all of the 'data_ready' callbacks are called, the 'start' callbacks
are fired.
The 'data_lost' value should be either a single callback, or a list of
callbacks, to be called when a 'required_data' item no longer passes
`is_ready()`. Each callback will be called with the service name as the
only parameter. After all of the 'data_lost' callbacks are called,
the 'stop' callbacks are fired.
The 'start' value should be either a single callback, or a list of
callbacks, to be called when starting the service, after the 'data_ready'
callbacks are complete. Each callback will be called with the service
name as the only parameter. This defaults to
`[host.service_start, services.open_ports]`.
The 'stop' value should be either a single callback, or a list of
callbacks, to be called when stopping the service. If the service is
being stopped because it no longer has all of its 'required_data', this
will be called after all of the 'data_lost' callbacks are complete.
Each callback will be called with the service name as the only parameter.
This defaults to `[services.close_ports, host.service_stop]`.
The 'ports' value should be a list of ports to manage. The default
'start' handler will open the ports after the service is started,
and the default 'stop' handler will close the ports prior to stopping
the service.
Examples:
The following registers an Upstart service called bingod that depends on
a mongodb relation and which runs a custom `db_migrate` function prior to
restarting the service, and a Runit service called spadesd::
manager = services.ServiceManager([
{
'service': 'bingod',
'ports': [80, 443],
'required_data': [MongoRelation(), config(), {'my': 'data'}],
'data_ready': [
services.template(source='bingod.conf'),
services.template(source='bingod.ini',
target='/etc/bingod.ini',
owner='bingo', perms=0400),
],
},
{
'service': 'spadesd',
'data_ready': services.template(source='spadesd_run.j2',
target='/etc/sv/spadesd/run',
perms=0555),
'start': runit_start,
'stop': runit_stop,
},
])
manager.manage()
"""
self._ready_file = os.path.join(hookenv.charm_dir(), 'READY-SERVICES.json')
self._ready = None
self.services = OrderedDict()
for service in services or []:
service_name = service['service']
self.services[service_name] = service
def manage(self):
"""
Handle the current hook by doing The Right Thing with the registered services.
"""
hookenv._run_atstart()
try:
hook_name = hookenv.hook_name()
if hook_name == 'stop':
self.stop_services()
else:
self.reconfigure_services()
self.provide_data()
except SystemExit as x:
if x.code is None or x.code == 0:
hookenv._run_atexit()
hookenv._run_atexit()
def provide_data(self):
"""
Set the relation data for each provider in the ``provided_data`` list.
A provider must have a `name` attribute, which indicates which relation
to set data on, and a `provide_data()` method, which returns a dict of
data to set.
The `provide_data()` method can optionally accept two parameters:
* ``remote_service`` The name of the remote service that the data will
be provided to. The `provide_data()` method will be called once
for each connected service (not unit). This allows the method to
tailor its data to the given service.
* ``service_ready`` Whether or not the service definition had all of
its requirements met, and thus the ``data_ready`` callbacks run.
Note that the ``provided_data`` methods are now called **after** the
``data_ready`` callbacks are run. This gives the ``data_ready`` callbacks
a chance to generate any data necessary for the providing to the remote
services.
"""
for service_name, service in self.services.items():
service_ready = self.is_ready(service_name)
for provider in service.get('provided_data', []):
for relid in hookenv.relation_ids(provider.name):
units = hookenv.related_units(relid)
if not units:
continue
remote_service = units[0].split('/')[0]
argspec = getargspec(provider.provide_data)
if len(argspec.args) > 1:
data = provider.provide_data(remote_service, service_ready)
else:
data = provider.provide_data()
if data:
hookenv.relation_set(relid, data)
def reconfigure_services(self, *service_names):
"""
Update all files for one or more registered services, and,
if ready, optionally restart them.
If no service names are given, reconfigures all registered services.
"""
for service_name in service_names or self.services.keys():
if self.is_ready(service_name):
self.fire_event('data_ready', service_name)
self.fire_event('start', service_name, default=[
service_restart,
manage_ports])
self.save_ready(service_name)
else:
if self.was_ready(service_name):
self.fire_event('data_lost', service_name)
self.fire_event('stop', service_name, default=[
manage_ports,
service_stop])
self.save_lost(service_name)
def stop_services(self, *service_names):
"""
Stop one or more registered services, by name.
If no service names are given, stops all registered services.
"""
for service_name in service_names or self.services.keys():
self.fire_event('stop', service_name, default=[
manage_ports,
service_stop])
def get_service(self, service_name):
"""
Given the name of a registered service, return its service definition.
"""
service = self.services.get(service_name)
if not service:
raise KeyError('Service not registered: %s' % service_name)
return service
def fire_event(self, event_name, service_name, default=None):
"""
Fire a data_ready, data_lost, start, or stop event on a given service.
"""
service = self.get_service(service_name)
callbacks = service.get(event_name, default)
if not callbacks:
return
if not isinstance(callbacks, Iterable):
callbacks = [callbacks]
for callback in callbacks:
if isinstance(callback, ManagerCallback):
callback(self, service_name, event_name)
else:
callback(service_name)
def is_ready(self, service_name):
"""
Determine if a registered service is ready, by checking its 'required_data'.
A 'required_data' item can be any mapping type, and is considered ready
if `bool(item)` evaluates as True.
"""
service = self.get_service(service_name)
reqs = service.get('required_data', [])
return all(bool(req) for req in reqs)
def _load_ready_file(self):
if self._ready is not None:
return
if os.path.exists(self._ready_file):
with open(self._ready_file) as fp:
self._ready = set(json.load(fp))
else:
self._ready = set()
def _save_ready_file(self):
if self._ready is None:
return
with open(self._ready_file, 'w') as fp:
json.dump(list(self._ready), fp)
def save_ready(self, service_name):
"""
Save an indicator that the given service is now data_ready.
"""
self._load_ready_file()
self._ready.add(service_name)
self._save_ready_file()
def save_lost(self, service_name):
"""
Save an indicator that the given service is no longer data_ready.
"""
self._load_ready_file()
self._ready.discard(service_name)
self._save_ready_file()
def was_ready(self, service_name):
"""
Determine if the given service was previously data_ready.
"""
self._load_ready_file()
return service_name in self._ready
class ManagerCallback(object):
"""
Special case of a callback that takes the `ServiceManager` instance
in addition to the service name.
Subclasses should implement `__call__` which should accept three parameters:
* `manager` The `ServiceManager` instance
* `service_name` The name of the service it's being triggered for
* `event_name` The name of the event that this callback is handling
"""
def __call__(self, manager, service_name, event_name):
raise NotImplementedError()
class PortManagerCallback(ManagerCallback):
"""
Callback class that will open or close ports, for use as either
a start or stop action.
"""
def __call__(self, manager, service_name, event_name):
service = manager.get_service(service_name)
new_ports = service.get('ports', [])
port_file = os.path.join(hookenv.charm_dir(), '.{}.ports'.format(service_name))
if os.path.exists(port_file):
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)
with open(port_file, 'w') as fp:
fp.write(','.join(str(port) for port in new_ports))
for port in new_ports:
if event_name == 'start':
hookenv.open_port(port)
elif event_name == 'stop':
hookenv.close_port(port)
def service_stop(service_name):
"""
Wrapper around host.service_stop to prevent spurious "unknown service"
messages in the logs.
"""
if host.service_running(service_name):
host.service_stop(service_name)
def service_restart(service_name):
"""
Wrapper around host.service_restart to prevent spurious "unknown service"
messages in the logs.
"""
if host.service_available(service_name):
if host.service_running(service_name):
host.service_restart(service_name)
else:
host.service_start(service_name)
# Convenience aliases
open_ports = close_ports = manage_ports = PortManagerCallback()

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# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import yaml
from charmhelpers.core import hookenv
from charmhelpers.core import host
from charmhelpers.core import templating
from charmhelpers.core.services.base import ManagerCallback
__all__ = ['RelationContext', 'TemplateCallback',
'render_template', 'template']
class RelationContext(dict):
"""
Base class for a context generator that gets relation data from juju.
Subclasses must provide the attributes `name`, which is the name of the
interface of interest, `interface`, which is the type of the interface of
interest, and `required_keys`, which is the set of keys required for the
relation to be considered complete. The data for all interfaces matching
the `name` attribute that are complete will used to populate the dictionary
values (see `get_data`, below).
The generated context will be namespaced under the relation :attr:`name`,
to prevent potential naming conflicts.
:param str name: Override the relation :attr:`name`, since it can vary from charm to charm
:param list additional_required_keys: Extend the list of :attr:`required_keys`
"""
name = None
interface = None
def __init__(self, name=None, additional_required_keys=None):
if not hasattr(self, 'required_keys'):
self.required_keys = []
if name is not None:
self.name = name
if additional_required_keys:
self.required_keys.extend(additional_required_keys)
self.get_data()
def __bool__(self):
"""
Returns True if all of the required_keys are available.
"""
return self.is_ready()
__nonzero__ = __bool__
def __repr__(self):
return super(RelationContext, self).__repr__()
def is_ready(self):
"""
Returns True if all of the `required_keys` are available from any units.
"""
ready = len(self.get(self.name, [])) > 0
if not ready:
hookenv.log('Incomplete relation: {}'.format(self.__class__.__name__), hookenv.DEBUG)
return ready
def _is_ready(self, unit_data):
"""
Helper method that tests a set of relation data and returns True if
all of the `required_keys` are present.
"""
return set(unit_data.keys()).issuperset(set(self.required_keys))
def get_data(self):
"""
Retrieve the relation data for each unit involved in a relation and,
if complete, store it in a list under `self[self.name]`. This
is automatically called when the RelationContext is instantiated.
The units are sorted lexographically first by the service ID, then by
the unit ID. Thus, if an interface has two other services, 'db:1'
and 'db:2', with 'db:1' having two units, 'wordpress/0' and 'wordpress/1',
and 'db:2' having one unit, 'mediawiki/0', all of which have a complete
set of data, the relation data for the units will be stored in the
order: 'wordpress/0', 'wordpress/1', 'mediawiki/0'.
If you only care about a single unit on the relation, you can just
access it as `{{ interface[0]['key'] }}`. However, if you can at all
support multiple units on a relation, you should iterate over the list,
like::
{% for unit in interface -%}
{{ unit['key'] }}{% if not loop.last %},{% endif %}
{%- endfor %}
Note that since all sets of relation data from all related services and
units are in a single list, if you need to know which service or unit a
set of data came from, you'll need to extend this class to preserve
that information.
"""
if not hookenv.relation_ids(self.name):
return
ns = self.setdefault(self.name, [])
for rid in sorted(hookenv.relation_ids(self.name)):
for unit in sorted(hookenv.related_units(rid)):
reldata = hookenv.relation_get(rid=rid, unit=unit)
if self._is_ready(reldata):
ns.append(reldata)
def provide_data(self):
"""
Return data to be relation_set for this interface.
"""
return {}
class MysqlRelation(RelationContext):
"""
Relation context for the `mysql` interface.
:param str name: Override the relation :attr:`name`, since it can vary from charm to charm
:param list additional_required_keys: Extend the list of :attr:`required_keys`
"""
name = 'db'
interface = 'mysql'
def __init__(self, *args, **kwargs):
self.required_keys = ['host', 'user', 'password', 'database']
RelationContext.__init__(self, *args, **kwargs)
class HttpRelation(RelationContext):
"""
Relation context for the `http` interface.
:param str name: Override the relation :attr:`name`, since it can vary from charm to charm
:param list additional_required_keys: Extend the list of :attr:`required_keys`
"""
name = 'website'
interface = 'http'
def __init__(self, *args, **kwargs):
self.required_keys = ['host', 'port']
RelationContext.__init__(self, *args, **kwargs)
def provide_data(self):
return {
'host': hookenv.unit_get('private-address'),
'port': 80,
}
class RequiredConfig(dict):
"""
Data context that loads config options with one or more mandatory options.
Once the required options have been changed from their default values, all
config options will be available, namespaced under `config` to prevent
potential naming conflicts (for example, between a config option and a
relation property).
:param list *args: List of options that must be changed from their default values.
"""
def __init__(self, *args):
self.required_options = args
self['config'] = hookenv.config()
with open(os.path.join(hookenv.charm_dir(), 'config.yaml')) as fp:
self.config = yaml.load(fp).get('options', {})
def __bool__(self):
for option in self.required_options:
if option not in self['config']:
return False
current_value = self['config'][option]
default_value = self.config[option].get('default')
if current_value == default_value:
return False
if current_value in (None, '') and default_value in (None, ''):
return False
return True
def __nonzero__(self):
return self.__bool__()
class StoredContext(dict):
"""
A data context that always returns the data that it was first created with.
This is useful to do a one-time generation of things like passwords, that
will thereafter use the same value that was originally generated, instead
of generating a new value each time it is run.
"""
def __init__(self, file_name, config_data):
"""
If the file exists, populate `self` with the data from the file.
Otherwise, populate with the given data and persist it to the file.
"""
if os.path.exists(file_name):
self.update(self.read_context(file_name))
else:
self.store_context(file_name, config_data)
self.update(config_data)
def store_context(self, file_name, config_data):
if not os.path.isabs(file_name):
file_name = os.path.join(hookenv.charm_dir(), file_name)
with open(file_name, 'w') as file_stream:
os.fchmod(file_stream.fileno(), 0o600)
yaml.dump(config_data, file_stream)
def read_context(self, file_name):
if not os.path.isabs(file_name):
file_name = os.path.join(hookenv.charm_dir(), file_name)
with open(file_name, 'r') as file_stream:
data = yaml.load(file_stream)
if not data:
raise OSError("%s is empty" % file_name)
return data
class TemplateCallback(ManagerCallback):
"""
Callback class that will render a Jinja2 template, for use as a ready
action.
:param str source: The template source file, relative to
`$CHARM_DIR/templates`
:param str target: The target to write the rendered template to (or None)
:param str owner: The owner of the rendered file
:param str group: The group of the rendered file
:param int perms: The permissions of the rendered file
:param partial on_change_action: functools partial to be executed when
rendered file changes
:param jinja2 loader template_loader: A jinja2 template loader
:return str: The rendered template
"""
def __init__(self, source, target,
owner='root', group='root', perms=0o444,
on_change_action=None, template_loader=None):
self.source = source
self.target = target
self.owner = owner
self.group = group
self.perms = perms
self.on_change_action = on_change_action
self.template_loader = template_loader
def __call__(self, manager, service_name, event_name):
pre_checksum = ''
if self.on_change_action and os.path.isfile(self.target):
pre_checksum = host.file_hash(self.target)
service = manager.get_service(service_name)
context = {'ctx': {}}
for ctx in service.get('required_data', []):
context.update(ctx)
context['ctx'].update(ctx)
result = templating.render(self.source, self.target, context,
self.owner, self.group, self.perms,
template_loader=self.template_loader)
if self.on_change_action:
if pre_checksum == host.file_hash(self.target):
hookenv.log(
'No change detected: {}'.format(self.target),
hookenv.DEBUG)
else:
self.on_change_action()
return result
# Convenience aliases for templates
render_template = template = TemplateCallback

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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import six
import re
def bool_from_string(value):
"""Interpret string value as boolean.
Returns True if value translates to True otherwise False.
"""
if isinstance(value, six.string_types):
value = six.text_type(value)
else:
msg = "Unable to interpret non-string value '%s' as boolean" % (value)
raise ValueError(msg)
value = value.strip().lower()
if value in ['y', 'yes', 'true', 't', 'on']:
return True
elif value in ['n', 'no', 'false', 'f', 'off']:
return False
msg = "Unable to interpret string value '%s' as boolean" % (value)
raise ValueError(msg)
def bytes_from_string(value):
"""Interpret human readable string value as bytes.
Returns int
"""
BYTE_POWER = {
'K': 1,
'KB': 1,
'M': 2,
'MB': 2,
'G': 3,
'GB': 3,
'T': 4,
'TB': 4,
'P': 5,
'PB': 5,
}
if isinstance(value, six.string_types):
value = six.text_type(value)
else:
msg = "Unable to interpret non-string value '%s' as boolean" % (value)
raise ValueError(msg)
matches = re.match("([0-9]+)([a-zA-Z]+)", value)
if not matches:
msg = "Unable to interpret string value '%s' as bytes" % (value)
raise ValueError(msg)
return int(matches.group(1)) * (1024 ** BYTE_POWER[matches.group(2)])

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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import yaml
from subprocess import check_call
from charmhelpers.core.hookenv import (
log,
DEBUG,
ERROR,
)
__author__ = 'Jorge Niedbalski R. <jorge.niedbalski@canonical.com>'
def create(sysctl_dict, sysctl_file):
"""Creates a sysctl.conf file from a YAML associative array
:param sysctl_dict: a YAML-formatted string of sysctl options eg "{ 'kernel.max_pid': 1337 }"
:type sysctl_dict: str
:param sysctl_file: path to the sysctl file to be saved
:type sysctl_file: str or unicode
:returns: None
"""
try:
sysctl_dict_parsed = yaml.safe_load(sysctl_dict)
except yaml.YAMLError:
log("Error parsing YAML sysctl_dict: {}".format(sysctl_dict),
level=ERROR)
return
with open(sysctl_file, "w") as fd:
for key, value in sysctl_dict_parsed.items():
fd.write("{}={}\n".format(key, value))
log("Updating sysctl_file: %s values: %s" % (sysctl_file, sysctl_dict_parsed),
level=DEBUG)
check_call(["sysctl", "-p", sysctl_file])

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# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import os
import sys
from charmhelpers.core import host
from charmhelpers.core import hookenv
def render(source, target, context, owner='root', group='root',
perms=0o444, templates_dir=None, encoding='UTF-8', template_loader=None):
"""
Render a template.
The `source` path, if not absolute, is relative to the `templates_dir`.
The `target` path should be absolute. It can also be `None`, in which
case no file will be written.
The context should be a dict containing the values to be replaced in the
template.
The `owner`, `group`, and `perms` options will be passed to `write_file`.
If omitted, `templates_dir` defaults to the `templates` folder in the charm.
The rendered template will be written to the file as well as being returned
as a string.
Note: Using this requires python-jinja2 or python3-jinja2; if it is not
installed, calling this will attempt to use charmhelpers.fetch.apt_install
to install it.
"""
try:
from jinja2 import FileSystemLoader, Environment, exceptions
except ImportError:
try:
from charmhelpers.fetch import apt_install
except ImportError:
hookenv.log('Could not import jinja2, and could not import '
'charmhelpers.fetch to install it',
level=hookenv.ERROR)
raise
if sys.version_info.major == 2:
apt_install('python-jinja2', fatal=True)
else:
apt_install('python3-jinja2', fatal=True)
from jinja2 import FileSystemLoader, Environment, exceptions
if template_loader:
template_env = Environment(loader=template_loader)
else:
if templates_dir is None:
templates_dir = os.path.join(hookenv.charm_dir(), 'templates')
template_env = Environment(loader=FileSystemLoader(templates_dir))
try:
source = source
template = template_env.get_template(source)
except exceptions.TemplateNotFound as e:
hookenv.log('Could not load template %s from %s.' %
(source, templates_dir),
level=hookenv.ERROR)
raise e
content = template.render(context)
if target is not None:
target_dir = os.path.dirname(target)
if not os.path.exists(target_dir):
# This is a terrible default directory permission, as the file
# or its siblings will often contain secrets.
host.mkdir(os.path.dirname(target), owner, group, perms=0o755)
host.write_file(target, content.encode(encoding), owner, group, perms)
return content

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#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# Copyright 2014-2015 Canonical Limited.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# Authors:
# Kapil Thangavelu <kapil.foss@gmail.com>
#
"""
Intro
-----
A simple way to store state in units. This provides a key value
storage with support for versioned, transactional operation,
and can calculate deltas from previous values to simplify unit logic
when processing changes.
Hook Integration
----------------
There are several extant frameworks for hook execution, including
- charmhelpers.core.hookenv.Hooks
- charmhelpers.core.services.ServiceManager
The storage classes are framework agnostic, one simple integration is
via the HookData contextmanager. It will record the current hook
execution environment (including relation data, config data, etc.),
setup a transaction and allow easy access to the changes from
previously seen values. One consequence of the integration is the
reservation of particular keys ('rels', 'unit', 'env', 'config',
'charm_revisions') for their respective values.
Here's a fully worked integration example using hookenv.Hooks::
from charmhelper.core import hookenv, unitdata
hook_data = unitdata.HookData()
db = unitdata.kv()
hooks = hookenv.Hooks()
@hooks.hook
def config_changed():
# Print all changes to configuration from previously seen
# values.
for changed, (prev, cur) in hook_data.conf.items():
print('config changed', changed,
'previous value', prev,
'current value', cur)
# Get some unit specific bookeeping
if not db.get('pkg_key'):
key = urllib.urlopen('https://example.com/pkg_key').read()
db.set('pkg_key', key)
# Directly access all charm config as a mapping.
conf = db.getrange('config', True)
# Directly access all relation data as a mapping
rels = db.getrange('rels', True)
if __name__ == '__main__':
with hook_data():
hook.execute()
A more basic integration is via the hook_scope context manager which simply
manages transaction scope (and records hook name, and timestamp)::
>>> from unitdata import kv
>>> db = kv()
>>> with db.hook_scope('install'):
... # do work, in transactional scope.
... db.set('x', 1)
>>> db.get('x')
1
Usage
-----
Values are automatically json de/serialized to preserve basic typing
and complex data struct capabilities (dicts, lists, ints, booleans, etc).
Individual values can be manipulated via get/set::
>>> kv.set('y', True)
>>> kv.get('y')
True
# We can set complex values (dicts, lists) as a single key.
>>> kv.set('config', {'a': 1, 'b': True'})
# Also supports returning dictionaries as a record which
# provides attribute access.
>>> config = kv.get('config', record=True)
>>> config.b
True
Groups of keys can be manipulated with update/getrange::
>>> kv.update({'z': 1, 'y': 2}, prefix="gui.")
>>> kv.getrange('gui.', strip=True)
{'z': 1, 'y': 2}
When updating values, its very helpful to understand which values
have actually changed and how have they changed. The storage
provides a delta method to provide for this::
>>> data = {'debug': True, 'option': 2}
>>> delta = kv.delta(data, 'config.')
>>> delta.debug.previous
None
>>> delta.debug.current
True
>>> delta
{'debug': (None, True), 'option': (None, 2)}
Note the delta method does not persist the actual change, it needs to
be explicitly saved via 'update' method::
>>> kv.update(data, 'config.')
Values modified in the context of a hook scope retain historical values
associated to the hookname.
>>> with db.hook_scope('config-changed'):
... db.set('x', 42)
>>> db.gethistory('x')
[(1, u'x', 1, u'install', u'2015-01-21T16:49:30.038372'),
(2, u'x', 42, u'config-changed', u'2015-01-21T16:49:30.038786')]
"""
import collections
import contextlib
import datetime
import itertools
import json
import os
import pprint
import sqlite3
import sys
__author__ = 'Kapil Thangavelu <kapil.foss@gmail.com>'
class Storage(object):
"""Simple key value database for local unit state within charms.
Modifications are not persisted unless :meth:`flush` is called.
To support dicts, lists, integer, floats, and booleans values
are automatically json encoded/decoded.
"""
def __init__(self, path=None):
self.db_path = path
if path is None:
if 'UNIT_STATE_DB' in os.environ:
self.db_path = os.environ['UNIT_STATE_DB']
else:
self.db_path = os.path.join(
os.environ.get('CHARM_DIR', ''), '.unit-state.db')
self.conn = sqlite3.connect('%s' % self.db_path)
self.cursor = self.conn.cursor()
self.revision = None
self._closed = False
self._init()
def close(self):
if self._closed:
return
self.flush(False)
self.cursor.close()
self.conn.close()
self._closed = True
def get(self, key, default=None, record=False):
self.cursor.execute('select data from kv where key=?', [key])
result = self.cursor.fetchone()
if not result:
return default
if record:
return Record(json.loads(result[0]))
return json.loads(result[0])
def getrange(self, key_prefix, strip=False):
"""
Get a range of keys starting with a common prefix as a mapping of
keys to values.
:param str key_prefix: Common prefix among all keys
:param bool strip: Optionally strip the common prefix from the key
names in the returned dict
:return dict: A (possibly empty) dict of key-value mappings
"""
self.cursor.execute("select key, data from kv where key like ?",
['%s%%' % key_prefix])
result = self.cursor.fetchall()
if not result:
return {}
if not strip:
key_prefix = ''
return dict([
(k[len(key_prefix):], json.loads(v)) for k, v in result])
def update(self, mapping, prefix=""):
"""
Set the values of multiple keys at once.
:param dict mapping: Mapping of keys to values
:param str prefix: Optional prefix to apply to all keys in `mapping`
before setting
"""
for k, v in mapping.items():
self.set("%s%s" % (prefix, k), v)
def unset(self, key):
"""
Remove a key from the database entirely.
"""
self.cursor.execute('delete from kv where key=?', [key])
if self.revision and self.cursor.rowcount:
self.cursor.execute(
'insert into kv_revisions values (?, ?, ?)',
[key, self.revision, json.dumps('DELETED')])
def unsetrange(self, keys=None, prefix=""):
"""
Remove a range of keys starting with a common prefix, from the database
entirely.
:param list keys: List of keys to remove.
:param str prefix: Optional prefix to apply to all keys in ``keys``
before removing.
"""
if keys is not None:
keys = ['%s%s' % (prefix, key) for key in keys]
self.cursor.execute('delete from kv where key in (%s)' % ','.join(['?'] * len(keys)), keys)
if self.revision and self.cursor.rowcount:
self.cursor.execute(
'insert into kv_revisions values %s' % ','.join(['(?, ?, ?)'] * len(keys)),
list(itertools.chain.from_iterable((key, self.revision, json.dumps('DELETED')) for key in keys)))
else:
self.cursor.execute('delete from kv where key like ?',
['%s%%' % prefix])
if self.revision and self.cursor.rowcount:
self.cursor.execute(
'insert into kv_revisions values (?, ?, ?)',
['%s%%' % prefix, self.revision, json.dumps('DELETED')])
def set(self, key, value):
"""
Set a value in the database.
:param str key: Key to set the value for
:param value: Any JSON-serializable value to be set
"""
serialized = json.dumps(value)
self.cursor.execute('select data from kv where key=?', [key])
exists = self.cursor.fetchone()
# Skip mutations to the same value
if exists:
if exists[0] == serialized:
return value
if not exists:
self.cursor.execute(
'insert into kv (key, data) values (?, ?)',
(key, serialized))
else:
self.cursor.execute('''
update kv
set data = ?
where key = ?''', [serialized, key])
# Save
if not self.revision:
return value
self.cursor.execute(
'select 1 from kv_revisions where key=? and revision=?',
[key, self.revision])
exists = self.cursor.fetchone()
if not exists:
self.cursor.execute(
'''insert into kv_revisions (
revision, key, data) values (?, ?, ?)''',
(self.revision, key, serialized))
else:
self.cursor.execute(
'''
update kv_revisions
set data = ?
where key = ?
and revision = ?''',
[serialized, key, self.revision])
return value
def delta(self, mapping, prefix):
"""
return a delta containing values that have changed.
"""
previous = self.getrange(prefix, strip=True)
if not previous:
pk = set()
else:
pk = set(previous.keys())
ck = set(mapping.keys())
delta = DeltaSet()
# added
for k in ck.difference(pk):
delta[k] = Delta(None, mapping[k])
# removed
for k in pk.difference(ck):
delta[k] = Delta(previous[k], None)
# changed
for k in pk.intersection(ck):
c = mapping[k]
p = previous[k]
if c != p:
delta[k] = Delta(p, c)
return delta
@contextlib.contextmanager
def hook_scope(self, name=""):
"""Scope all future interactions to the current hook execution
revision."""
assert not self.revision
self.cursor.execute(
'insert into hooks (hook, date) values (?, ?)',
(name or sys.argv[0],
datetime.datetime.utcnow().isoformat()))
self.revision = self.cursor.lastrowid
try:
yield self.revision
self.revision = None
except:
self.flush(False)
self.revision = None
raise
else:
self.flush()
def flush(self, save=True):
if save:
self.conn.commit()
elif self._closed:
return
else:
self.conn.rollback()
def _init(self):
self.cursor.execute('''
create table if not exists kv (
key text,
data text,
primary key (key)
)''')
self.cursor.execute('''
create table if not exists kv_revisions (
key text,
revision integer,
data text,
primary key (key, revision)
)''')
self.cursor.execute('''
create table if not exists hooks (
version integer primary key autoincrement,
hook text,
date text
)''')
self.conn.commit()
def gethistory(self, key, deserialize=False):
self.cursor.execute(
'''
select kv.revision, kv.key, kv.data, h.hook, h.date
from kv_revisions kv,
hooks h
where kv.key=?
and kv.revision = h.version
''', [key])
if deserialize is False:
return self.cursor.fetchall()
return map(_parse_history, self.cursor.fetchall())
def debug(self, fh=sys.stderr):
self.cursor.execute('select * from kv')
pprint.pprint(self.cursor.fetchall(), stream=fh)
self.cursor.execute('select * from kv_revisions')
pprint.pprint(self.cursor.fetchall(), stream=fh)
def _parse_history(d):
return (d[0], d[1], json.loads(d[2]), d[3],
datetime.datetime.strptime(d[-1], "%Y-%m-%dT%H:%M:%S.%f"))
class HookData(object):
"""Simple integration for existing hook exec frameworks.
Records all unit information, and stores deltas for processing
by the hook.
Sample::
from charmhelper.core import hookenv, unitdata
changes = unitdata.HookData()
db = unitdata.kv()
hooks = hookenv.Hooks()
@hooks.hook
def config_changed():
# View all changes to configuration
for changed, (prev, cur) in changes.conf.items():
print('config changed', changed,
'previous value', prev,
'current value', cur)
# Get some unit specific bookeeping
if not db.get('pkg_key'):
key = urllib.urlopen('https://example.com/pkg_key').read()
db.set('pkg_key', key)
if __name__ == '__main__':
with changes():
hook.execute()
"""
def __init__(self):
self.kv = kv()
self.conf = None
self.rels = None
@contextlib.contextmanager
def __call__(self):
from charmhelpers.core import hookenv
hook_name = hookenv.hook_name()
with self.kv.hook_scope(hook_name):
self._record_charm_version(hookenv.charm_dir())
delta_config, delta_relation = self._record_hook(hookenv)
yield self.kv, delta_config, delta_relation
def _record_charm_version(self, charm_dir):
# Record revisions.. charm revisions are meaningless
# to charm authors as they don't control the revision.
# so logic dependnent on revision is not particularly
# useful, however it is useful for debugging analysis.
charm_rev = open(
os.path.join(charm_dir, 'revision')).read().strip()
charm_rev = charm_rev or '0'
revs = self.kv.get('charm_revisions', [])
if charm_rev not in revs:
revs.append(charm_rev.strip() or '0')
self.kv.set('charm_revisions', revs)
def _record_hook(self, hookenv):
data = hookenv.execution_environment()
self.conf = conf_delta = self.kv.delta(data['conf'], 'config')
self.rels = rels_delta = self.kv.delta(data['rels'], 'rels')
self.kv.set('env', dict(data['env']))
self.kv.set('unit', data['unit'])
self.kv.set('relid', data.get('relid'))
return conf_delta, rels_delta
class Record(dict):
__slots__ = ()
def __getattr__(self, k):
if k in self:
return self[k]
raise AttributeError(k)
class DeltaSet(Record):
__slots__ = ()
Delta = collections.namedtuple('Delta', ['previous', 'current'])
_KV = None
def kv():
global _KV
if _KV is None:
_KV = Storage()
return _KV