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|
# vi: ts=4 expandtab
#
# Copyright (C) 2013 Canonical Ltd.
#
# Author: Ben Howard <ben.howard@canonical.com>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 3, as
# published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
#
# Datasource for provisioning on SmartOS. This works on Joyent
# and public/private Clouds using SmartOS.
#
# SmartOS hosts use a serial console (/dev/ttyS1) on KVM Linux Guests
# The meta-data is transmitted via key/value pairs made by
# requests on the console. For example, to get the hostname, you
# would send "GET hostname" on /dev/ttyS1.
# For Linux Guests running in LX-Brand Zones on SmartOS hosts
# a socket (/native/.zonecontrol/metadata.sock) is used instead
# of a serial console.
#
# Certain behavior is defined by the DataDictionary
# http://us-east.manta.joyent.com/jmc/public/mdata/datadict.html
# Comments with "@datadictionary" are snippets of the definition
import base64
import binascii
import json
import os
import random
import re
import socket
import serial
from cloudinit import log as logging
from cloudinit import sources
from cloudinit import util
LOG = logging.getLogger(__name__)
SMARTOS_ATTRIB_MAP = {
# Cloud-init Key : (SmartOS Key, Strip line endings)
'instance-id': ('sdc:uuid', True),
'local-hostname': ('hostname', True),
'public-keys': ('root_authorized_keys', True),
'user-script': ('user-script', False),
'legacy-user-data': ('user-data', False),
'user-data': ('cloud-init:user-data', False),
'iptables_disable': ('iptables_disable', True),
'motd_sys_info': ('motd_sys_info', True),
'availability_zone': ('sdc:datacenter_name', True),
'vendor-data': ('sdc:vendor-data', False),
'operator-script': ('sdc:operator-script', False),
}
SMARTOS_ATTRIB_JSON = {
# Cloud-init Key : (SmartOS Key known JSON)
'network-data': 'sdc:nics',
}
SMARTOS_ENV_LX_BRAND = "lx-brand"
SMARTOS_ENV_KVM = "kvm"
DS_NAME = 'SmartOS'
DS_CFG_PATH = ['datasource', DS_NAME]
NO_BASE64_DECODE = [
'iptables_disable',
'motd_sys_info',
'root_authorized_keys',
'sdc:datacenter_name',
'sdc:uuid'
'user-data',
'user-script',
]
METADATA_SOCKFILE = '/native/.zonecontrol/metadata.sock'
SERIAL_DEVICE = '/dev/ttyS1'
SERIAL_TIMEOUT = 60
# BUILT-IN DATASOURCE CONFIGURATION
# The following is the built-in configuration. If the values
# are not set via the system configuration, then these default
# will be used:
# serial_device: which serial device to use for the meta-data
# serial_timeout: how long to wait on the device
# no_base64_decode: values which are not base64 encoded and
# are fetched directly from SmartOS, not meta-data values
# base64_keys: meta-data keys that are delivered in base64
# base64_all: with the exclusion of no_base64_decode values,
# treat all meta-data as base64 encoded
# disk_setup: describes how to partition the ephemeral drive
# fs_setup: describes how to format the ephemeral drive
#
BUILTIN_DS_CONFIG = {
'serial_device': SERIAL_DEVICE,
'serial_timeout': SERIAL_TIMEOUT,
'metadata_sockfile': METADATA_SOCKFILE,
'no_base64_decode': NO_BASE64_DECODE,
'base64_keys': [],
'base64_all': False,
'disk_aliases': {'ephemeral0': '/dev/vdb'},
}
BUILTIN_CLOUD_CONFIG = {
'disk_setup': {
'ephemeral0': {'table_type': 'mbr',
'layout': False,
'overwrite': False}
},
'fs_setup': [{'label': 'ephemeral0',
'filesystem': 'ext3',
'device': 'ephemeral0'}],
}
# builtin vendor-data is a boothook that writes a script into
# /var/lib/cloud/scripts/per-boot. *That* script then handles
# executing the 'operator-script' and 'user-script' files
# that cloud-init writes into /var/lib/cloud/instance/data/
# if they exist.
#
# This is all very indirect, but its done like this so that at
# some point in the future, perhaps cloud-init wouldn't do it at
# all, but rather the vendor actually provide vendor-data that accomplished
# their desires. (That is the point of vendor-data).
#
# cloud-init does cheat a bit, and write the operator-script and user-script
# itself. It could have the vendor-script do that, but it seems better
# to not require the image to contain a tool (mdata-get) to read those
# keys when we have a perfectly good one inside cloud-init.
BUILTIN_VENDOR_DATA = """\
#cloud-boothook
#!/bin/sh
fname="%(per_boot_d)s/01_smartos_vendor_data.sh"
mkdir -p "${fname%%/*}"
cat > "$fname" <<"END_SCRIPT"
#!/bin/sh
##
# This file is written as part of the default vendor data for SmartOS.
# The SmartOS datasource writes the listed file from the listed metadata key
# sdc:operator-script -> %(operator_script)s
# user-script -> %(user_script)s
#
# You can view content with 'mdata-get <key>'
#
for script in "%(operator_script)s" "%(user_script)s"; do
[ -x "$script" ] || continue
echo "executing '$script'" 1>&2
"$script"
done
END_SCRIPT
chmod +x "$fname"
"""
# @datadictionary: this is legacy path for placing files from metadata
# per the SmartOS location. It is not preferable, but is done for
# legacy reasons
LEGACY_USER_D = "/var/db"
class DataSourceSmartOS(sources.DataSource):
_unset = "_unset"
smartos_environ = _unset
md_client = _unset
def __init__(self, sys_cfg, distro, paths):
sources.DataSource.__init__(self, sys_cfg, distro, paths)
self.ds_cfg = util.mergemanydict([
self.ds_cfg,
util.get_cfg_by_path(sys_cfg, DS_CFG_PATH, {}),
BUILTIN_DS_CONFIG])
self.metadata = {}
self.network_data = None
self._network_config = None
self.script_base_d = os.path.join(self.paths.get_cpath("scripts"))
self.smartos_type = None
self._init()
def __str__(self):
root = sources.DataSource.__str__(self)
return "%s [client=%s]" % (root, self.md_client)
def _init(self):
if self.smartos_environ == self._unset:
self.smartos_type = get_smartos_environ()
if self.md_client == self._unset:
self.md_client = jmc_client_factory(
smartos_type=self.smartos_type,
metadata_sockfile=self.ds_cfg['metadata_sockfile'],
serial_device=self.ds_cfg['serial_device'],
serial_timeout=self.ds_cfg['serial_timeout'])
def _set_provisioned(self):
'''Mark the instance provisioning state as successful.
When run in a zone, the host OS will look for /var/svc/provisioning
to be renamed as /var/svc/provision_success. This should be done
after meta-data is successfully retrieved and from this point
the host considers the provision of the zone to be a success and
keeps the zone running.
'''
LOG.debug('Instance provisioning state set as successful')
svc_path = '/var/svc'
if os.path.exists('/'.join([svc_path, 'provisioning'])):
os.rename('/'.join([svc_path, 'provisioning']),
'/'.join([svc_path, 'provision_success']))
def get_data(self):
self._init()
md = {}
ud = ""
if not self.smartos_type:
LOG.debug("Not running on smartos")
return False
if not self.md_client.exists():
LOG.debug("No metadata device '%r' found for SmartOS datasource",
self.md_client)
return False
for ci_noun, attribute in SMARTOS_ATTRIB_MAP.items():
smartos_noun, strip = attribute
md[ci_noun] = self.md_client.get(smartos_noun, strip=strip)
for ci_noun, smartos_noun in SMARTOS_ATTRIB_JSON.items():
md[ci_noun] = self.md_client.get_json(smartos_noun)
# @datadictionary: This key may contain a program that is written
# to a file in the filesystem of the guest on each boot and then
# executed. It may be of any format that would be considered
# executable in the guest instance.
#
# We write 'user-script' and 'operator-script' into the
# instance/data directory. The default vendor-data then handles
# executing them later.
data_d = os.path.join(self.paths.get_cpath(), 'instances',
md['instance-id'], 'data')
user_script = os.path.join(data_d, 'user-script')
u_script_l = "%s/user-script" % LEGACY_USER_D
write_boot_content(md.get('user-script'), content_f=user_script,
link=u_script_l, shebang=True, mode=0o700)
operator_script = os.path.join(data_d, 'operator-script')
write_boot_content(md.get('operator-script'),
content_f=operator_script, shebang=False,
mode=0o700)
# @datadictionary: This key has no defined format, but its value
# is written to the file /var/db/mdata-user-data on each boot prior
# to the phase that runs user-script. This file is not to be executed.
# This allows a configuration file of some kind to be injected into
# the machine to be consumed by the user-script when it runs.
u_data = md.get('legacy-user-data')
u_data_f = "%s/mdata-user-data" % LEGACY_USER_D
write_boot_content(u_data, u_data_f)
# Handle the cloud-init regular meta
if not md['local-hostname']:
md['local-hostname'] = md['instance-id']
ud = None
if md['user-data']:
ud = md['user-data']
if not md['vendor-data']:
md['vendor-data'] = BUILTIN_VENDOR_DATA % {
'user_script': user_script,
'operator_script': operator_script,
'per_boot_d': os.path.join(self.paths.get_cpath("scripts"),
'per-boot'),
}
self.metadata = util.mergemanydict([md, self.metadata])
self.userdata_raw = ud
self.vendordata_raw = md['vendor-data']
self.network_data = md['network-data']
self._set_provisioned()
return True
def device_name_to_device(self, name):
return self.ds_cfg['disk_aliases'].get(name)
def get_config_obj(self):
if self.smartos_type == SMARTOS_ENV_KVM:
return BUILTIN_CLOUD_CONFIG
return None
def get_instance_id(self):
return self.metadata['instance-id']
@property
def network_config(self):
if self._network_config is None:
if self.network_data is not None:
self._network_config = (
convert_smartos_network_data(self.network_data))
return self._network_config
class JoyentMetadataFetchException(Exception):
pass
class JoyentMetadataClient(object):
"""
A client implementing v2 of the Joyent Metadata Protocol Specification.
The full specification can be found at
http://eng.joyent.com/mdata/protocol.html
"""
line_regex = re.compile(
r'V2 (?P<length>\d+) (?P<checksum>[0-9a-f]+)'
r' (?P<body>(?P<request_id>[0-9a-f]+) (?P<status>SUCCESS|NOTFOUND)'
r'( (?P<payload>.+))?)')
def __init__(self, smartos_type=None, fp=None):
if smartos_type is None:
smartos_type = get_smartos_environ()
self.smartos_type = smartos_type
self.fp = fp
def _checksum(self, body):
return '{0:08x}'.format(
binascii.crc32(body.encode('utf-8')) & 0xffffffff)
def _get_value_from_frame(self, expected_request_id, frame):
frame_data = self.line_regex.match(frame).groupdict()
if int(frame_data['length']) != len(frame_data['body']):
raise JoyentMetadataFetchException(
'Incorrect frame length given ({0} != {1}).'.format(
frame_data['length'], len(frame_data['body'])))
expected_checksum = self._checksum(frame_data['body'])
if frame_data['checksum'] != expected_checksum:
raise JoyentMetadataFetchException(
'Invalid checksum (expected: {0}; got {1}).'.format(
expected_checksum, frame_data['checksum']))
if frame_data['request_id'] != expected_request_id:
raise JoyentMetadataFetchException(
'Request ID mismatch (expected: {0}; got {1}).'.format(
expected_request_id, frame_data['request_id']))
if not frame_data.get('payload', None):
LOG.debug('No value found.')
return None
value = util.b64d(frame_data['payload'])
LOG.debug('Value "%s" found.', value)
return value
def request(self, rtype, param=None):
request_id = '{0:08x}'.format(random.randint(0, 0xffffffff))
message_body = ' '.join((request_id, rtype,))
if param:
message_body += ' ' + base64.b64encode(param.encode()).decode()
msg = 'V2 {0} {1} {2}\n'.format(
len(message_body), self._checksum(message_body), message_body)
LOG.debug('Writing "%s" to metadata transport.', msg)
need_close = False
if not self.fp:
self.open_transport()
need_close = True
self.fp.write(msg.encode('ascii'))
self.fp.flush()
response = bytearray()
response.extend(self.fp.read(1))
while response[-1:] != b'\n':
response.extend(self.fp.read(1))
if need_close:
self.close_transport()
response = response.rstrip().decode('ascii')
LOG.debug('Read "%s" from metadata transport.', response)
if 'SUCCESS' not in response:
return None
value = self._get_value_from_frame(request_id, response)
return value
def get(self, key, default=None, strip=False):
result = self.request(rtype='GET', param=key)
if result is None:
return default
if result and strip:
result = result.strip()
return result
def get_json(self, key, default=None):
result = self.get(key, default=default)
if result is None:
return default
return json.loads(result)
def list(self):
result = self.request(rtype='KEYS')
if result:
result = result.split('\n')
return result
def put(self, key, val):
param = b' '.join([base64.b64encode(i.encode())
for i in (key, val)]).decode()
return self.request(rtype='PUT', param=param)
def delete(self, key):
return self.request(rtype='DELETE', param=key)
def close_transport(self):
if self.fp:
self.fp.close()
self.fp = None
def __enter__(self):
if self.fp:
return self
self.open_transport()
return self
def __exit__(self, exc_type, exc_value, traceback):
self.close_transport()
return
def open_transport(self):
raise NotImplementedError
class JoyentMetadataSocketClient(JoyentMetadataClient):
def __init__(self, socketpath):
self.socketpath = socketpath
def open_transport(self):
sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
sock.connect(self.socketpath)
self.fp = sock.makefile('rwb')
def exists(self):
return os.path.exists(self.socketpath)
def __repr__(self):
return "%s(socketpath=%s)" % (self.__class__.__name__, self.socketpath)
class JoyentMetadataSerialClient(JoyentMetadataClient):
def __init__(self, device, timeout=10, smartos_type=None):
super(JoyentMetadataSerialClient, self).__init__(smartos_type)
self.device = device
self.timeout = timeout
def exists(self):
return os.path.exists(self.device)
def open_transport(self):
ser = serial.Serial(self.device, timeout=self.timeout)
if not ser.isOpen():
raise SystemError("Unable to open %s" % self.device)
self.fp = ser
def __repr__(self):
return "%s(device=%s, timeout=%s)" % (
self.__class__.__name__, self.device, self.timeout)
class JoyentMetadataLegacySerialClient(JoyentMetadataSerialClient):
"""V1 of the protocol was not safe for all values.
Thus, we allowed the user to pass values in as base64 encoded.
Users may still reasonably expect to be able to send base64 data
and have it transparently decoded. So even though the V2 format is
now used, and is safe (using base64 itself), we keep legacy support.
The way for a user to do this was:
a.) specify 'base64_keys' key whose value is a comma delimited
list of keys that were base64 encoded.
b.) base64_all: string interpreted as a boolean that indicates
if all keys are base64 encoded.
c.) set a key named b64-<keyname> with a boolean indicating that
<keyname> is base64 encoded."""
def __init__(self, device, timeout=10, smartos_type=None):
s = super(JoyentMetadataLegacySerialClient, self)
s.__init__(device, timeout, smartos_type)
self.base64_keys = None
self.base64_all = None
def _init_base64_keys(self, reset=False):
if reset:
self.base64_keys = None
self.base64_all = None
keys = None
if self.base64_all is None:
keys = self.list()
if 'base64_all' in keys:
self.base64_all = util.is_true(self._get("base64_all"))
else:
self.base64_all = False
if self.base64_all:
# short circuit if base64_all is true
return
if self.base64_keys is None:
if keys is None:
keys = self.list()
b64_keys = set()
if 'base64_keys' in keys:
b64_keys = set(self._get("base64_keys").split(","))
# now add any b64-<keyname> that has a true value
for key in [k[3:] for k in keys if k.startswith("b64-")]:
if util.is_true(self._get(key)):
b64_keys.add(key)
else:
if key in b64_keys:
b64_keys.remove(key)
self.base64_keys = b64_keys
def _get(self, key, default=None, strip=False):
return (super(JoyentMetadataLegacySerialClient, self).
get(key, default=default, strip=strip))
def is_b64_encoded(self, key, reset=False):
if key in NO_BASE64_DECODE:
return False
self._init_base64_keys(reset=reset)
if self.base64_all:
return True
return key in self.base64_keys
def get(self, key, default=None, strip=False):
mdefault = object()
val = self._get(key, strip=False, default=mdefault)
if val is mdefault:
return default
if self.is_b64_encoded(key):
try:
val = base64.b64decode(val.encode()).decode()
# Bogus input produces different errors in Python 2 and 3
except (TypeError, binascii.Error):
LOG.warn("Failed base64 decoding key '%s': %s", key, val)
if strip:
val = val.strip()
return val
def jmc_client_factory(
smartos_type=None, metadata_sockfile=METADATA_SOCKFILE,
serial_device=SERIAL_DEVICE, serial_timeout=SERIAL_TIMEOUT,
uname_version=None):
if smartos_type is None:
smartos_type = get_smartos_environ(uname_version)
if smartos_type == 'kvm':
return JoyentMetadataLegacySerialClient(
device=serial_device, timeout=serial_timeout,
smartos_type=smartos_type)
elif smartos_type == 'lx-brand':
return JoyentMetadataSocketClient(socketpath=metadata_sockfile)
raise ValueError("Unknown value for smartos_type: %s" % smartos_type)
def write_boot_content(content, content_f, link=None, shebang=False,
mode=0o400):
"""
Write the content to content_f. Under the following rules:
1. If no content, remove the file
2. Write the content
3. If executable and no file magic, add it
4. If there is a link, create it
@param content: what to write
@param content_f: the file name
@param backup_d: the directory to save the backup at
@param link: if defined, location to create a symlink to
@param shebang: if no file magic, set shebang
@param mode: file mode
Becuase of the way that Cloud-init executes scripts (no shell),
a script will fail to execute if does not have a magic bit (shebang) set
for the file. If shebang=True, then the script will be checked for a magic
bit and to the SmartOS default of assuming that bash.
"""
print("content_f=%s" % content_f)
if not content and os.path.exists(content_f):
os.unlink(content_f)
if link and os.path.islink(link):
os.unlink(link)
if not content:
return
util.write_file(content_f, content, mode=mode)
if shebang and not content.startswith("#!"):
try:
cmd = ["file", "--brief", "--mime-type", content_f]
(f_type, _err) = util.subp(cmd)
LOG.debug("script %s mime type is %s", content_f, f_type)
if f_type.strip() == "text/plain":
new_content = "\n".join(["#!/bin/bash", content])
util.write_file(content_f, new_content, mode=mode)
LOG.debug("added shebang to file %s", content_f)
except Exception as e:
util.logexc(LOG, ("Failed to identify script type for %s" %
content_f, e))
if link:
try:
if os.path.islink(link):
os.unlink(link)
if content and os.path.exists(content_f):
util.ensure_dir(os.path.dirname(link))
os.symlink(content_f, link)
except IOError as e:
util.logexc(LOG, "failed establishing content link: %s", e)
def get_smartos_environ(uname_version=None, product_name=None,
uname_arch=None):
uname = os.uname()
if uname_arch is None:
uname_arch = uname[4]
if uname_arch.startswith("arm") or uname_arch == "aarch64":
return None
# SDC LX-Brand Zones lack dmidecode (no /dev/mem) but
# report 'BrandZ virtual linux' as the kernel version
if uname_version is None:
uname_version = uname[3]
if uname_version.lower() == 'brandz virtual linux':
return SMARTOS_ENV_LX_BRAND
if product_name is None:
system_type = util.read_dmi_data("system-product-name")
else:
system_type = product_name
if system_type and 'smartdc' in system_type.lower():
return SMARTOS_ENV_KVM
return None
# Covert SMARTOS 'sdc:nics' data to network_config yaml
def convert_smartos_network_data(network_data=None):
"""Return a dictionary of network_config by parsing provided
SMARTOS sdc:nics configuration data
sdc:nics data is a dictionary of properties of a nic and the ip
configuration desired. Additional nic dictionaries are appended
to the list.
Converting the format is straightforward though it does include
duplicate information as well as data which appears to be relevant
to the hostOS rather than the guest.
For each entry in the nics list returned from query sdc:nics, we
create a type: physical entry, and extract the interface properties:
'mac' -> 'mac_address', 'mtu', 'interface' -> 'name'. The remaining
keys are related to ip configuration. For each ip in the 'ips' list
we create a subnet entry under 'subnets' pairing the ip to a one in
the 'gateways' list.
"""
valid_keys = {
'physical': [
'mac_address',
'mtu',
'name',
'params',
'subnets',
'type',
],
'subnet': [
'address',
'broadcast',
'dns_nameservers',
'dns_search',
'gateway',
'metric',
'netmask',
'pointopoint',
'routes',
'scope',
'type',
],
}
config = []
for nic in network_data:
cfg = {k: v for k, v in nic.items()
if k in valid_keys['physical']}
cfg.update({
'type': 'physical',
'name': nic['interface']
})
if 'mac' in nic:
cfg.update({'mac_address': nic['mac']})
subnets = []
for ip, gw in zip(nic['ips'], nic['gateways']):
subnet = {k: v for k, v in nic.items()
if k in valid_keys['subnet']}
subnet.update({
'type': 'static',
'address': ip,
'gateway': gw,
})
subnets.append(subnet)
cfg.update({'subnets': subnets})
config.append(cfg)
return {'version': 1, 'config': config}
# Used to match classes to dependencies
datasources = [
(DataSourceSmartOS, (sources.DEP_FILESYSTEM, sources.DEP_NETWORK)),
]
# Return a list of data sources that match this set of dependencies
def get_datasource_list(depends):
return sources.list_from_depends(depends, datasources)
if __name__ == "__main__":
import sys
jmc = jmc_client_factory()
jmc.get(sys.argv[1])
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