pvc/client-provisioner/provisioner_lib/provisioner.py

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#!/usr/bin/env python3
# provisioner.py - PVC Provisioner functions
# Part of the Parallel Virtual Cluster (PVC) system
#
# Copyright (C) 2018-2019 Joshua M. Boniface <joshua@boniface.me>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
#
###############################################################################
import flask
import json
import psycopg2
import psycopg2.extras
import os
import re
import time
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import shlex
import subprocess
import client_lib.common as pvc_common
import client_lib.node as pvc_node
import client_lib.vm as pvc_vm
import client_lib.network as pvc_network
import client_lib.ceph as pvc_ceph
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import provisioner_lib.libvirt_schema as libvirt_schema
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#
# Exceptions (used by Celery tasks)
#
class ValidationError(Exception):
"""
An exception that results from some value being un- or mis-defined.
"""
pass
class ClusterError(Exception):
"""
An exception that results from the PVC cluster being out of alignment with the action.
"""
pass
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class ProvisioningError(Exception):
"""
An exception that results from a failure of a provisioning command.
"""
pass
#
# Common functions
#
# Database connections
def open_database(config):
conn = psycopg2.connect(
host=config['database_host'],
port=config['database_port'],
dbname=config['database_name'],
user=config['database_user'],
password=config['database_password']
)
cur = conn.cursor(cursor_factory=psycopg2.extras.RealDictCursor)
return conn, cur
def close_database(conn, cur, failed=False):
if not failed:
conn.commit()
cur.close()
conn.close()
#
# Template List functions
#
def list_template(limit, table, is_fuzzy=True):
if limit:
if is_fuzzy:
# Handle fuzzy vs. non-fuzzy limits
if not re.match('\^.*', limit):
limit = '%' + limit
else:
limit = limit[1:]
if not re.match('.*\$', limit):
limit = limit + '%'
else:
limit = limit[:-1]
args = (limit, )
query = "SELECT * FROM {} WHERE name LIKE %s;".format(table)
else:
args = ()
query = "SELECT * FROM {};".format(table)
conn, cur = open_database(config)
cur.execute(query, args)
data = cur.fetchall()
if table == 'network_template':
for template_id, template_data in enumerate(data):
# Fetch list of VNIs from network table
query = "SELECT vni FROM network WHERE network_template = %s;"
args = (template_data['id'],)
cur.execute(query, args)
vnis = cur.fetchall()
data[template_id]['networks'] = vnis
if table == 'storage_template':
for template_id, template_data in enumerate(data):
# Fetch list of VNIs from network table
query = "SELECT * FROM storage WHERE storage_template = %s;"
args = (template_data['id'],)
cur.execute(query, args)
disks = cur.fetchall()
data[template_id]['disks'] = disks
close_database(conn, cur)
return data
def list_template_system(limit, is_fuzzy=True):
"""
Obtain a list of system templates.
"""
data = list_template(limit, 'system_template', is_fuzzy)
return data
def list_template_network(limit, is_fuzzy=True):
"""
Obtain a list of network templates.
"""
data = list_template(limit, 'network_template', is_fuzzy)
return data
def list_template_network_vnis(name):
"""
Obtain a list of network template VNIs.
"""
data = list_template(name, 'network_template', is_fuzzy=False)[0]
networks = data['networks']
return networks
def list_template_storage(limit, is_fuzzy=True):
"""
Obtain a list of storage templates.
"""
data = list_template(limit, 'storage_template', is_fuzzy)
return data
def list_template_storage_disks(name):
"""
Obtain a list of storage template disks.
"""
data = list_template(name, 'storage_template', is_fuzzy=False)[0]
disks = data['disks']
return disks
def list_template_userdata(limit, is_fuzzy=True):
"""
Obtain a list of userdata templates.
"""
data = list_template(limit, 'userdata_template', is_fuzzy)
return data
def template_list(limit):
system_templates = list_template_system(limit)
network_templates = list_template_network(limit)
storage_templates = list_template_storage(limit)
userdata_templates = list_template_userdata(limit)
return { "system_templates": system_templates, "network_templates": network_templates, "storage_templates": storage_templates, "userdata_templates": userdata_templates }
#
# Template Create functions
#
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def create_template_system(name, vcpu_count, vram_mb, serial=False, vnc=False, vnc_bind=None, node_limit=None, node_selector=None, start_with_node=False):
if list_template_system(name, is_fuzzy=False):
retmsg = { "message": "The system template {} already exists".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
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query = "INSERT INTO system_template (name, vcpu_count, vram_mb, serial, vnc, vnc_bind, node_limit, node_selector, start_with_node) VALUES (%s, %s, %s, %s, %s, %s, %s, %s, %s);"
args = (name, vcpu_count, vram_mb, serial, vnc, vnc_bind, node_limit, node_selector, start_with_node)
conn, cur = open_database(config)
try:
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def create_template_network(name, mac_template=None):
if list_template_network(name, is_fuzzy=False):
retmsg = { "message": "The network template {} already exists".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "INSERT INTO network_template (name, mac_template) VALUES (%s, %s);"
args = (name, mac_template)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
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def create_template_network_element(name, vni):
if not list_template_network(name, is_fuzzy=False):
retmsg = { "message": "The network template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
networks = list_template_network_vnis(name)
found_vni = False
for network in networks:
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if int(network['vni']) == vni:
found_vni = True
if found_vni:
retmsg = { "message": "The VNI {} in network template {} already exists".format(vni, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "SELECT id FROM network_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
template_id = cur.fetchone()['id']
query = "INSERT INTO network (network_template, vni) VALUES (%s, %s);"
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args = (template_id, vni)
cur.execute(query, args)
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retmsg = { "name": name, "vni": vni }
retcode = 200
except psycopg2.IntegrityError as e:
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retmsg = { "message": "Failed to create entry {}".format(vni), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def create_template_storage(name):
if list_template_storage(name, is_fuzzy=False):
retmsg = { "message": "The storage template {} already exists".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "INSERT INTO storage_template (name) VALUES (%s);"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
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def create_template_storage_element(name, pool, disk_id, disk_size_gb, filesystem=None, filesystem_args=[], mountpoint=None):
if not list_template_storage(name, is_fuzzy=False):
retmsg = { "message": "The storage template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
disks = list_template_storage_disks(name)
found_disk = False
for disk in disks:
if disk['disk_id'] == disk_id:
found_disk = True
if found_disk:
retmsg = { "message": "The disk {} in storage template {} already exists".format(disk_id, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
if mountpoint and not filesystem:
retmsg = { "message": "A filesystem must be specified along with a mountpoint." }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "SELECT id FROM storage_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
template_id = cur.fetchone()['id']
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query = "INSERT INTO storage (storage_template, pool, disk_id, disk_size_gb, mountpoint, filesystem, filesystem_args) VALUES (%s, %s, %s, %s, %s, %s, %s);"
args = (template_id, pool, disk_id, disk_size_gb, mountpoint, filesystem, ' '.join(filesystem_args))
cur.execute(query, args)
retmsg = { "name": name, "disk_id": disk_id }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(disk_id), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def create_template_userdata(name, userdata):
if list_template_userdata(name, is_fuzzy=False):
retmsg = { "message": "The userdata template {} already exists".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "INSERT INTO userdata_template (name, userdata) VALUES (%s, %s);"
args = (name, userdata)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
#
# Template update functions
#
def update_template_userdata(name, userdata):
if not list_template_userdata(name, is_fuzzy=False):
retmsg = { "message": "The userdata template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
tid = list_template_userdata(name, is_fuzzy=False)[0]['id']
conn, cur = open_database(config)
try:
query = "UPDATE userdata_template SET userdata = %s WHERE id = %s;"
args = (userdata, tid)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to update entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
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#
# Template Delete functions
#
def delete_template_system(name):
if not list_template_system(name, is_fuzzy=False):
retmsg = { "message": "The system template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "DELETE FROM system_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_template_network(name):
if not list_template_network(name, is_fuzzy=False):
retmsg = { "message": "The network template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "SELECT id FROM network_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
template_id = cur.fetchone()['id']
query = "DELETE FROM network WHERE network_template = %s;"
args = (template_id,)
cur.execute(query, args)
query = "DELETE FROM network_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_template_network_element(name, vni):
if not list_template_network(name, is_fuzzy=False):
retmsg = { "message": "The network template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
networks = list_template_network_vnis(name)
found_vni = False
for network in networks:
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if network['vni'] == int(vni):
found_vni = True
if not found_vni:
retmsg = { "message": "The VNI {} in network template {} does not exist".format(vni, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "SELECT id FROM network_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
template_id = cur.fetchone()['id']
query = "DELETE FROM network WHERE network_template = %s and vni = %s;"
args = (template_id, vni)
cur.execute(query, args)
retmsg = { "name": name, "vni": vni }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_template_storage(name):
if not list_template_storage(name, is_fuzzy=False):
retmsg = { "message": "The storage template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "SELECT id FROM storage_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
template_id = cur.fetchone()['id']
query = "DELETE FROM storage WHERE storage_template = %s;"
args = (template_id,)
cur.execute(query, args)
query = "DELETE FROM storage_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_template_storage_element(name, disk_id):
if not list_template_storage(name, is_fuzzy=False):
retmsg = { "message": "The storage template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
disks = list_template_storage_disks(name)
found_disk = False
for disk in disks:
if disk['disk_id'] == disk_id:
found_disk = True
if not found_disk:
retmsg = { "message": "The disk {} in storage template {} does not exist".format(disk_id, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "SELECT id FROM storage_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
template_id = cur.fetchone()['id']
query = "DELETE FROM storage WHERE storage_template = %s and disk_id = %s;"
args = (template_id, disk_id)
cur.execute(query, args)
retmsg = { "name": name, "disk_id": disk_id }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_template_userdata(name):
if not list_template_userdata(name, is_fuzzy=False):
retmsg = { "message": "The userdata template {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "DELETE FROM userdata_template WHERE name = %s;"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
#
# Script functions
#
def list_script(limit, is_fuzzy=True):
if limit:
if is_fuzzy:
# Handle fuzzy vs. non-fuzzy limits
if not re.match('\^.*', limit):
limit = '%' + limit
else:
limit = limit[1:]
if not re.match('.*\$', limit):
limit = limit + '%'
else:
limit = limit[:-1]
query = "SELECT * FROM {} WHERE name LIKE %s;".format('script')
args = (limit, )
else:
query = "SELECT * FROM {};".format('script')
args = ()
conn, cur = open_database(config)
cur.execute(query, args)
data = cur.fetchall()
close_database(conn, cur)
return data
def create_script(name, script):
if list_script(name, is_fuzzy=False):
retmsg = { "message": "The script {} already exists".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "INSERT INTO script (name, script) VALUES (%s, %s);"
args = (name, script)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def update_script(name, script):
if not list_script(name, is_fuzzy=False):
retmsg = { "message": "The script {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
tid = list_script(name, is_fuzzy=False)[0]['id']
conn, cur = open_database(config)
try:
query = "UPDATE script SET script = %s WHERE id = %s;"
args = (script, tid)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to update entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_script(name):
if not list_script(name, is_fuzzy=False):
retmsg = { "message": "The script {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "DELETE FROM script WHERE name = %s;"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
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retmsg = { "message": "Failed to delete entry {}".format(name), "error": str(e) }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
#
# Profile functions
#
def list_profile(limit, is_fuzzy=True):
if limit:
if is_fuzzy:
# Handle fuzzy vs. non-fuzzy limits
if not re.match('\^.*', limit):
limit = '%' + limit
else:
limit = limit[1:]
if not re.match('.*\$', limit):
limit = limit + '%'
else:
limit = limit[:-1]
query = "SELECT * FROM {} WHERE name LIKE %s;".format('profile')
args = (limit, )
else:
query = "SELECT * FROM {};".format('profile')
args = ()
conn, cur = open_database(config)
cur.execute(query, args)
orig_data = cur.fetchall()
data = list()
for profile in orig_data:
profile_data = dict()
profile_data['name'] = profile['name']
# Parse the name of each subelement
for etype in 'system_template', 'network_template', 'storage_template', 'userdata_template', 'script':
query = 'SELECT name from {} WHERE id = %s'.format(etype)
args = (profile[etype],)
cur.execute(query, args)
name = cur.fetchone()['name']
profile_data[etype] = name
# Split the arguments back into a list
profile_data['arguments'] = profile['arguments'].split('|')
# Append the new data to our actual output structure
data.append(profile_data)
close_database(conn, cur)
return data
def create_profile(name, system_template, network_template, storage_template, userdata_template, script, arguments=[]):
if list_profile(name, is_fuzzy=False):
retmsg = { "message": "The profile {} already exists".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
system_templates = list_template_system(None)
system_template_id = None
for template in system_templates:
if template['name'] == system_template:
system_template_id = template['id']
if not system_template_id:
retmsg = { "message": "The system template {} for profile {} does not exist".format(system_template, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
network_templates = list_template_network(None)
network_template_id = None
for template in network_templates:
if template['name'] == network_template:
network_template_id = template['id']
if not network_template_id:
retmsg = { "message": "The network template {} for profile {} does not exist".format(network_template, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
storage_templates = list_template_storage(None)
storage_template_id = None
for template in storage_templates:
if template['name'] == storage_template:
storage_template_id = template['id']
if not storage_template_id:
retmsg = { "message": "The storage template {} for profile {} does not exist".format(storage_template, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
userdata_templates = list_template_userdata(None)
userdata_template_id = None
for template in userdata_templates:
if template['name'] == userdata_template:
userdata_template_id = template['id']
if not userdata_template_id:
retmsg = { "message": "The userdata template {} for profile {} does not exist".format(userdata_template, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
scripts = list_script(None)
script_id = None
for scr in scripts:
if scr['name'] == script:
script_id = scr['id']
if not script_id:
retmsg = { "message": "The script {} for profile {} does not exist".format(script, name) }
retcode = 400
return flask.jsonify(retmsg), retcode
arguments_formatted = '|'.join(arguments)
conn, cur = open_database(config)
try:
query = "INSERT INTO profile (name, system_template, network_template, storage_template, userdata_template, script, arguments) VALUES (%s, %s, %s, %s, %s, %s, %s);"
args = (name, system_template_id, network_template_id, storage_template_id, userdata_template_id, script_id, arguments_formatted)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to create entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
def delete_profile(name):
if not list_profile(name, is_fuzzy=False):
retmsg = { "message": "The profile {} does not exist".format(name) }
retcode = 400
return flask.jsonify(retmsg), retcode
conn, cur = open_database(config)
try:
query = "DELETE FROM profile WHERE name = %s;"
args = (name,)
cur.execute(query, args)
retmsg = { "name": name }
retcode = 200
except psycopg2.IntegrityError as e:
retmsg = { "message": "Failed to delete entry {}".format(name), "error": e }
retcode = 400
close_database(conn, cur)
return flask.jsonify(retmsg), retcode
#
# VM provisioning helper functions
#
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def run_os_command(command_string, background=False, environment=None, timeout=None):
command = shlex.split(command_string)
try:
command_output = subprocess.run(
command,
env=environment,
timeout=timeout,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
retcode = command_output.returncode
except subprocess.TimeoutExpired:
retcode = 128
try:
stdout = command_output.stdout.decode('ascii')
except:
stdout = ''
try:
stderr = command_output.stderr.decode('ascii')
except:
stderr = ''
return retcode, stdout, stderr
#
# Cloned VM provisioning function - executed by the Celery worker
#
def clone_vm(self, vm_name, vm_profile, source_volumes):
pass
#
# Main VM provisioning function - executed by the Celery worker
#
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def create_vm(self, vm_name, vm_profile, define_vm=True, start_vm=True):
# Runtime imports
import time
import importlib
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import uuid
import datetime
import random
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time.sleep(2)
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print("Starting provisioning of VM '{}' with profile '{}'".format(vm_name, vm_profile))
# Phase 0 - connect to databases
try:
db_conn, db_cur = open_database(config)
except:
print('FATAL - failed to connect to Postgres')
raise Exception
try:
zk_conn = pvc_common.startZKConnection(config['coordinators'])
except:
print('FATAL - failed to connect to Zookeeper')
raise Exception
# Phase 1 - setup
# * Get the profile elements
# * Get the details from these elements
# * Assemble a VM configuration dictionary
self.update_state(state='RUNNING', meta={'current': 1, 'total': 10, 'status': 'Collecting configuration'})
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time.sleep(1)
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vm_id = re.findall(r'/(\d+)$/', vm_name)
if not vm_id:
vm_id = 0
else:
vm_id = vm_id[0]
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vm_data = dict()
# Get the profile information
query = "SELECT system_template, network_template, storage_template, script, arguments FROM profile WHERE name = %s"
args = (vm_profile,)
db_cur.execute(query, args)
profile_data = db_cur.fetchone()
vm_data['script_arguments'] = profile_data['arguments'].split('|')
# Get the system details
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query = 'SELECT vcpu_count, vram_mb, serial, vnc, vnc_bind, node_limit, node_selector, start_with_node FROM system_template WHERE id = %s'
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args = (profile_data['system_template'],)
db_cur.execute(query, args)
vm_data['system_details'] = db_cur.fetchone()
# Get the MAC template
query = 'SELECT mac_template FROM network_template WHERE id = %s'
args = (profile_data['network_template'],)
db_cur.execute(query, args)
vm_data['mac_template'] = db_cur.fetchone()['mac_template']
# Get the networks
query = 'SELECT vni FROM network WHERE network_template = %s'
args = (profile_data['network_template'],)
db_cur.execute(query, args)
vm_data['networks'] = db_cur.fetchall()
# Get the storage volumes
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query = 'SELECT pool, disk_id, disk_size_gb, mountpoint, filesystem, filesystem_args FROM storage WHERE storage_template = %s'
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args = (profile_data['storage_template'],)
db_cur.execute(query, args)
vm_data['volumes'] = db_cur.fetchall()
# Get the script
query = 'SELECT script FROM script WHERE id = %s'
args = (profile_data['script'],)
db_cur.execute(query, args)
vm_data['script'] = db_cur.fetchone()['script']
close_database(db_conn, db_cur)
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print("VM configuration data:\n{}".format(json.dumps(vm_data, sort_keys=True, indent=2)))
# Phase 2 - verification
# * Ensure that at least one node has enough free RAM to hold the VM (becomes main host)
# * Ensure that all networks are valid
# * Ensure that there is enough disk space in the Ceph cluster for the disks
# This is the "safe fail" step when an invalid configuration will be caught
self.update_state(state='RUNNING', meta={'current': 2, 'total': 10, 'status': 'Verifying configuration against cluster'})
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time.sleep(1)
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# Verify that a VM with this name does not already exist
if pvc_vm.searchClusterByName(zk_conn, vm_name):
raise ClusterError("A VM with the name '{}' already exists in the cluster".format(vm_name))
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# Verify that at least one host has enough free RAM to run the VM
_discard, nodes = pvc_node.get_list(zk_conn, None)
target_node = None
last_free = 0
for node in nodes:
# Skip the node if it is not ready to run VMs
if node ['daemon_state'] != "run" or node['domain_state'] != "ready":
continue
# Skip the node if its free memory is less than the new VM's size, plus a 512MB buffer
if node['memory']['free'] < (vm_data['system_details']['vram_mb'] + 512):
continue
# If this node has the most free, use it
if node['memory']['free'] > last_free:
last_free = node['memory']['free']
target_node = node['name']
# Raise if no node was found
if not target_node:
raise ClusterError("No ready cluster node contains at least {}+512 MB of free RAM".format(vm_data['system_details']['vram_mb']))
print("Selecting target node {} with {} MB free RAM".format(target_node, last_free))
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# Verify that all configured networks are present on the cluster
cluster_networks, _discard = pvc_network.getClusterNetworkList(zk_conn)
for network in vm_data['networks']:
vni = str(network['vni'])
if not vni in cluster_networks:
raise ClusterError("The network VNI {} is not present on the cluster".format(vni))
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print("All configured networks for VM are valid")
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# Verify that there is enough disk space free to provision all VM disks
pools = dict()
for volume in vm_data['volumes']:
if not volume['pool'] in pools:
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pools[volume['pool']] = volume['disk_size_gb']
else:
pools[volume['pool']] += volume['disk_size_gb']
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for pool in pools:
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pool_information = pvc_ceph.getPoolInformation(zk_conn, pool)
if not pool_information:
raise ClusterError("Pool {} is not present on the cluster".format(pool))
pool_free_space_gb = int(pool_information['stats']['free_bytes'] / 1024 / 1024 / 1024)
pool_vm_usage_gb = int(pools[pool])
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if pool_vm_usage_gb >= pool_free_space_gb:
raise ClusterError("Pool {} has only {} GB free and VM requires {} GB".format(pool, pool_free_space_gb, pool_vm_usage_gb))
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print("There is enough space on cluster to store VM volumes")
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# Verify that every specified filesystem is valid
used_filesystems = list()
for volume in vm_data['volumes']:
if volume['filesystem'] and volume['filesystem'] not in used_filesystems:
used_filesystems.append(volume['filesystem'])
for filesystem in used_filesystems:
retcode, stdout, stderr = run_os_command("which mkfs.{}".format(filesystem))
if retcode:
raise ProvisioningError("Failed to find binary for mkfs.{}: {}".format(filesystem, stderr))
print("All selected filesystems are valid")
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# Phase 3 - provisioning script preparation
# * Import the provisioning script as a library with importlib
# * Ensure the required function(s) are present
self.update_state(state='RUNNING', meta={'current': 3, 'total': 10, 'status': 'Preparing provisioning script'})
time.sleep(1)
# Write the script out to a temporary file
retcode, stdout, stderr = run_os_command("mktemp")
if retcode:
raise ProvisioningError("Failed to create a temporary file: {}".format(stderr))
script_file = stdout.strip()
with open(script_file, 'w') as fh:
fh.write(vm_data['script'])
fh.write('\n')
# Import the script file
loader = importlib.machinery.SourceFileLoader('installer_script', script_file)
spec = importlib.util.spec_from_loader(loader.name, loader)
installer_script = importlib.util.module_from_spec(spec)
loader.exec_module(installer_script)
# Verify that the install() function is valid
if not "install" in dir(installer_script):
raise ProvisioningError("Specified script does not contain an install() function")
print("Provisioning script imported successfully")
# Phase 4 - disk creation
# * Create each Ceph storage volume for the disks
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self.update_state(state='RUNNING', meta={'current': 4, 'total': 10, 'status': 'Creating storage volumes'})
time.sleep(1)
for volume in vm_data['volumes']:
success, message = pvc_ceph.add_volume(zk_conn, volume['pool'], "{}_{}".format(vm_name, volume['disk_id']), "{}G".format(volume['disk_size_gb']))
print(message)
if not success:
raise ClusterError("Failed to create volume {}".format(volume['disk_id']))
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# Phase 5 - disk mapping
# * Map each volume to the local host in order
# * Format each volume with any specified filesystems
# * If any mountpoints are specified, create a temporary mount directory
# * Mount any volumes to their respective mountpoints
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self.update_state(state='RUNNING', meta={'current': 5, 'total': 10, 'status': 'Mapping, formatting, and mounting storage volumes locally'})
time.sleep(1)
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for volume in reversed(vm_data['volumes']):
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if not volume['filesystem']:
continue
rbd_volume = "{}/{}_{}".format(volume['pool'], vm_name, volume['disk_id'])
filesystem_args_list = list()
for arg in volume['filesystem_args'].split(' '):
arg_entry, arg_data = arg.split('=')
filesystem_args_list.append(arg_entry)
filesystem_args_list.append(arg_data)
filesystem_args = ' '.join(filesystem_args_list)
# Map the RBD device
retcode, stdout, stderr = run_os_command("rbd map {}".format(rbd_volume))
if retcode:
raise ProvisioningError("Failed to map volume {}: {}".format(rbd_volume, stderr))
# Create the filesystem
retcode, stdout, stderr = run_os_command("mkfs.{} {} /dev/rbd/{}".format(volume['filesystem'], filesystem_args, rbd_volume))
if retcode:
raise ProvisioningError("Failed to create {} filesystem on {}: {}".format(volume['filesystem'], rbd_volume, stderr))
print("Created {} filesystem on {}:\n{}".format(volume['filesystem'], rbd_volume, stdout))
# Create temporary directory
retcode, stdout, stderr = run_os_command("mktemp -d")
if retcode:
raise ProvisioningError("Failed to create a temporary directory: {}".format(stderr))
temp_dir = stdout.strip()
for volume in vm_data['volumes']:
if not volume['mountpoint']:
continue
mapped_rbd_volume = "/dev/rbd/{}/{}_{}".format(volume['pool'], vm_name, volume['disk_id'])
mount_path = "{}{}".format(temp_dir, volume['mountpoint'])
# Ensure the mount path exists (within the filesystems)
retcode, stdout, stderr = run_os_command("mkdir -p {}".format(mount_path))
if retcode:
raise ProvisioningError("Failed to create mountpoint {}: {}".format(mount_path, stderr))
# Mount filesystems to temporary directory
retcode, stdout, stderr = run_os_command("mount {} {}".format(mapped_rbd_volume, mount_path))
if retcode:
raise ProvisioningError("Failed to mount {} on {}: {}".format(mapped_rbd_volume, mount_path, stderr))
print("Successfully mounted {} on {}".format(mapped_rbd_volume, mount_path))
# Phase 6 - provisioning script execution
# * Execute the provisioning script main function ("install") passing any custom arguments
self.update_state(state='RUNNING', meta={'current': 6, 'total': 10, 'status': 'Executing provisioning script'})
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time.sleep(1)
print("Running installer script")
# Parse the script arguments
script_arguments = dict()
for argument in vm_data['script_arguments']:
argument_name, argument_data = argument.split('=')
script_arguments[argument_name] = argument_data
# Run the script
installer_script.install(
vm_name=vm_name,
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vm_id=vm_id,
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temporary_directory=temp_dir,
disks=vm_data['volumes'],
networks=vm_data['networks'],
**script_arguments
)
# Phase 7 - install cleanup
# * Unmount any mounted volumes
# * Remove any temporary directories
self.update_state(state='RUNNING', meta={'current': 7, 'total': 10, 'status': 'Cleaning up local mounts and directories'})
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time.sleep(1)
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for volume in list(reversed(vm_data['volumes'])):
# Unmount the volume
if volume['mountpoint']:
print("Cleaning up mount {}{}".format(temp_dir, volume['mountpoint']))
mount_path = "{}{}".format(temp_dir, volume['mountpoint'])
retcode, stdout, stderr = run_os_command("umount {}".format(mount_path))
if retcode:
raise ProvisioningError("Failed to unmount {}: {}".format(mount_path, stderr))
# Unmap the RBD device
if volume['filesystem']:
print("Cleaning up RBD mapping /dev/rbd/{}/{}_{}".format(volume['pool'], vm_name, volume['disk_id']))
rbd_volume = "/dev/rbd/{}/{}_{}".format(volume['pool'], vm_name, volume['disk_id'])
retcode, stdout, stderr = run_os_command("rbd unmap {}".format(rbd_volume))
if retcode:
raise ProvisioningError("Failed to unmap volume {}: {}".format(rbd_volume, stderr))
print("Cleaning up temporary directories and files")
# Remove temporary mount directory (don't fail if not removed)
retcode, stdout, stderr = run_os_command("rmdir {}".format(temp_dir))
if retcode:
print("Failed to delete temporary directory {}: {}".format(temp_dir, stderr))
# Remote temporary script (don't fail if not removed)
retcode, stdout, stderr = run_os_command("rm -f {}".format(script_file))
if retcode:
print("Failed to delete temporary script file {}: {}".format(script_file, stderr))
# Phase 8 - configuration creation
# * Create the libvirt XML configuration
self.update_state(state='RUNNING', meta={'current': 8, 'total': 10, 'status': 'Preparing Libvirt XML configuration'})
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time.sleep(1)
print("Creating Libvirt configuration")
# Get information about VM
vm_uuid = uuid.uuid4()
vm_description = "PVC provisioner @ {}, profile '{}'".format(datetime.datetime.now(), vm_profile)
retcode, stdout, stderr = run_os_command("uname -m")
system_architecture = stdout.strip()
# Begin assembling libvirt schema
vm_schema = ""
vm_schema += libvirt_schema.libvirt_header.format(
vm_name=vm_name,
vm_uuid=vm_uuid,
vm_description=vm_description,
vm_memory=vm_data['system_details']['vram_mb'],
vm_vcpus=vm_data['system_details']['vcpu_count'],
vm_architecture=system_architecture
)
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# Add network devices
network_id = 0
for network in vm_data['networks']:
vni = network['vni']
eth_bridge = "vmbr{}".format(vni)
vm_id_hex = '{:x}'.format(int(vm_id % 16))
net_id_hex = '{:x}'.format(int(network_id % 16))
mac_prefix = '52:54:00'
if vm_data['mac_template']:
mactemplate = "{prefix}:ff:f6:{vmid}{netid}"
macgen_template = vm_data['mac_template']
eth_macaddr = macgen_template.format(
prefix=mac_prefix,
vmid=vm_id_hex,
netid=net_id_hex,
)
else:
random_octet_A = '{:x}'.format(random.randint(16,238))
random_octet_B = '{:x}'.format(random.randint(16,238))
random_octet_C = '{:x}'.format(random.randint(16,238))
macgen_template = '{prefix}:{octetA}:{octetB}:{octetC}'
eth_macaddr = macgen_template.format(
prefix=mac_prefix,
octetA=random_octet_A,
octetB=random_octet_B,
octetC=random_octet_C
)
vm_schema += libvirt_schema.devices_net_interface.format(
eth_macaddr=eth_macaddr,
eth_bridge=eth_bridge
)
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network_id += 1
# Add disk devices
monitor_list = list()
coordinator_names = config['storage_hosts']
for coordinator in coordinator_names:
monitor_list.append("{}.{}".format(coordinator, config['storage_domain']))
ceph_storage_secret = config['ceph_storage_secret_uuid']
for volume in vm_data['volumes']:
vm_schema += libvirt_schema.devices_disk_header.format(
ceph_storage_secret=ceph_storage_secret,
disk_pool=volume['pool'],
vm_name=vm_name,
disk_id=volume['disk_id']
)
for monitor in monitor_list:
vm_schema += libvirt_schema.devices_disk_coordinator.format(
coordinator_name=monitor,
coordinator_ceph_mon_port=config['ceph_monitor_port']
)
vm_schema += libvirt_schema.devices_disk_footer
vm_schema += libvirt_schema.devices_vhostmd
# Add default devices
vm_schema += libvirt_schema.devices_default
# Add serial device
if vm_data['system_details']['serial']:
vm_schema += libvirt_schema.devices_serial.format(
vm_name=vm_name
)
# Add VNC device
if vm_data['system_details']['vnc']:
if vm_data['system_details']['vnc_bind']:
vm_vnc_bind = vm_data['system_details']['vnc_bind']
else:
vm_vnc_bind = "127.0.0.1"
vm_vncport = 5900
vm_vnc_autoport = "yes"
vm_schema += libvirt_schema.devices_vnc.format(
vm_vncport=vm_vncport,
vm_vnc_autoport=vm_vnc_autoport,
vm_vnc_bind=vm_vnc_bind
)
# Add SCSI controller
vm_schema += libvirt_schema.devices_scsi_controller
# Add footer
vm_schema += libvirt_schema.libvirt_footer
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print("Final VM schema:\n{}\n".format(vm_schema))
# Phase 9 - definition
# * Create the VM in the PVC cluster
# * Start the VM in the PVC cluster
self.update_state(state='RUNNING', meta={'current': 9, 'total': 10, 'status': 'Defining and starting VM on the cluster'})
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time.sleep(1)
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if start_vm and not define_vm:
start_vm = False
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if define_vm or start_vm:
print("Defining and starting VM on cluster")
if define_vm:
retcode, retmsg = pvc_vm.define_vm(zk_conn, vm_schema, target_node, vm_data['system_details']['node_limit'].split(','), vm_data['system_details']['node_selector'], vm_data['system_details']['start_with_node'], vm_profile)
print(retmsg)
if start_vm:
retcode, retmsg = pvc_vm.start_vm(zk_conn, vm_name)
print(retmsg)
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pvc_common.stopZKConnection(zk_conn)
return {"status": "VM '{}' with profile '{}' has been provisioned and started successfully".format(vm_name, vm_profile), "current": 10, "total": 10}