pvc-bootstrap/bootstrap-daemon/pvcbootstrapd/lib/hooks.py

358 lines
12 KiB
Python
Executable File

#!/usr/bin/env python3
# hooks.py - PVC Cluster Auto-bootstrap Hook libraries
# Part of the Parallel Virtual Cluster (PVC) system
#
# Copyright (C) 2018-2021 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, version 3.
#
# 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 pvcbootstrapd.lib.notifications as notifications
import pvcbootstrapd.lib.db as db
import json
import tempfile
import paramiko
import contextlib
import requests
from re import match
from time import sleep
from celery.utils.log import get_task_logger
logger = get_task_logger(__name__)
@contextlib.contextmanager
def run_paramiko(config, node_address):
ssh_client = paramiko.SSHClient()
ssh_client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
ssh_client.connect(
hostname=node_address,
username=config["deploy_username"],
key_filename=config["ansible_key_file"],
)
yield ssh_client
ssh_client.close()
def run_hook_osddb(config, targets, args):
"""
Add an OSD DB defined by args['disk']
"""
for node in targets:
node_name = node.name
node_address = node.host_ipaddr
device = args["disk"]
logger.info(f"Creating OSD DB on node {node_name} device {device}")
# Using a direct command on the target here is somewhat messy, but avoids many
# complexities of determining a valid API listen address, etc.
pvc_cmd_string = f"pvc storage osd create-db-vg --yes {node_name} {device}"
with run_paramiko(config, node_address) as c:
stdin, stdout, stderr = c.exec_command(pvc_cmd_string)
logger.debug(stdout.readlines())
logger.debug(stderr.readlines())
def run_hook_osd(config, targets, args):
"""
Add an OSD defined by args['disk'] with weight args['weight']
"""
for node in targets:
node_name = node.name
node_address = node.host_ipaddr
device = args["disk"]
weight = args.get("weight", 1)
ext_db_flag = args.get("ext_db", False)
ext_db_ratio = args.get("ext_db_ratio", 0.05)
logger.info(f"Creating OSD on node {node_name} device {device} weight {weight}")
# Using a direct command on the target here is somewhat messy, but avoids many
# complexities of determining a valid API listen address, etc.
pvc_cmd_string = (
f"pvc storage osd add --yes {node_name} {device} --weight {weight}"
)
if ext_db_flag:
pvc_cmd_string = f"{pvc_cmd_string} --ext-db --ext-db-ratio {ext_db_ratio}"
with run_paramiko(config, node_address) as c:
stdin, stdout, stderr = c.exec_command(pvc_cmd_string)
logger.debug(stdout.readlines())
logger.debug(stderr.readlines())
def run_hook_pool(config, targets, args):
"""
Add an pool defined by args['name'] on device tier args['tier']
"""
for node in targets:
node_name = node.name
node_address = node.host_ipaddr
name = args["name"]
pgs = args.get("pgs", "64")
tier = args.get("tier", "default") # Does nothing yet
replcfg = args.get("replcfg", "copies=3,mincopies=2")
logger.info(
f"Creating storage pool on node {node_name} name {name} pgs {pgs} tier {tier} replcfg {replcfg}"
)
# Using a direct command on the target here is somewhat messy, but avoids many
# complexities of determining a valid API listen address, etc.
pvc_cmd_string = f"pvc storage pool add {name} {pgs} --replcfg {replcfg}"
with run_paramiko(config, node_address) as c:
stdin, stdout, stderr = c.exec_command(pvc_cmd_string)
logger.debug(stdout.readlines())
logger.debug(stderr.readlines())
# This only runs once on whatever the first node is
break
def run_hook_network(config, targets, args):
"""
Add an network defined by args (many)
"""
for node in targets:
node_name = node.name
node_address = node.host_ipaddr
vni = args["vni"]
description = args["description"]
nettype = args["type"]
mtu = args.get("mtu", None)
pvc_cmd_string = (
f"pvc network add {vni} --description {description} --type {nettype}"
)
if mtu is not None and mtu not in ["auto", "default"]:
pvc_cmd_string = f"{pvc_cmd_string} --mtu {mtu}"
if nettype == "managed":
domain = args["domain"]
pvc_cmd_string = f"{pvc_cmd_string} --domain {domain}"
dns_servers = args.get("dns_servers", [])
for dns_server in dns_servers:
pvc_cmd_string = f"{pvc_cmd_string} --dns-server {dns_server}"
is_ip4 = args.get("ip4", False)
if is_ip4:
ip4_network = args["ip4_network"]
pvc_cmd_string = f"{pvc_cmd_string} --ipnet {ip4_network}"
ip4_gateway = args["ip4_gateway"]
pvc_cmd_string = f"{pvc_cmd_string} --gateway {ip4_gateway}"
ip4_dhcp = args.get("ip4_dhcp", False)
if ip4_dhcp:
pvc_cmd_string = f"{pvc_cmd_string} --dhcp"
ip4_dhcp_start = args["ip4_dhcp_start"]
ip4_dhcp_end = args["ip4_dhcp_end"]
pvc_cmd_string = f"{pvc_cmd_string} --dhcp-start {ip4_dhcp_start} --dhcp-end {ip4_dhcp_end}"
else:
pvc_cmd_string = f"{pvc_cmd_string} --no-dhcp"
is_ip6 = args.get("ip6", False)
if is_ip6:
ip6_network = args["ip6_network"]
pvc_cmd_string = f"{pvc_cmd_string} --ipnet6 {ip6_network}"
ip6_gateway = args["ip6_gateway"]
pvc_cmd_string = f"{pvc_cmd_string} --gateway6 {ip6_gateway}"
logger.info(f"Creating network on node {node_name} VNI {vni} type {nettype}")
with run_paramiko(config, node_address) as c:
stdin, stdout, stderr = c.exec_command(pvc_cmd_string)
logger.debug(stdout.readlines())
logger.debug(stderr.readlines())
# This only runs once on whatever the first node is
break
def run_hook_copy(config, targets, args):
"""
Copy a file from the local machine to the target(s)
"""
for node in targets:
node_name = node.name
node_address = node.host_ipaddr
source = args.get("source", [])
destination = args.get("destination", [])
mode = args.get("mode", [])
logger.info(f"Copying file {source} to node {node_name}:{destination}")
with run_paramiko(config, node_address) as c:
for sfile, dfile, dmode in zip(source, destination, mode):
if not match(r"^/", sfile):
sfile = f"{config['ansible_path']}/{sfile}"
tc = c.open_sftp()
tc.put(sfile, dfile)
tc.chmod(dfile, int(dmode, 8))
tc.close()
def run_hook_script(config, targets, args):
"""
Run a script on the targets
"""
for node in targets:
node_name = node.name
node_address = node.host_ipaddr
script = args.get("script", None)
source = args.get("source", None)
path = args.get("path", None)
arguments = args.get("arguments", [])
use_sudo = args.get("use_sudo", False)
logger.info(f"Running script on node {node_name}")
with run_paramiko(config, node_address) as c:
if script is not None:
remote_path = "/tmp/pvcbootstrapd.hook"
with tempfile.NamedTemporaryFile(mode="w") as tf:
tf.write(script)
tf.seek(0)
# Send the file to the remote system
tc = c.open_sftp()
tc.put(tf.name, remote_path)
tc.chmod(remote_path, 0o755)
tc.close()
elif source == "local":
if not match(r"^/", path):
path = config["ansible_path"] + "/" + path
remote_path = "/tmp/pvcbootstrapd.hook"
if path is None:
continue
tc = c.open_sftp()
tc.put(path, remote_path)
tc.chmod(remote_path, 0o755)
tc.close()
elif source == "remote":
remote_path = path
if len(arguments) > 0:
remote_command = f"{remote_path} {' '.join(arguments)}"
else:
remote_command = remote_path
if use_sudo:
remote_command = f"sudo {remote_command}"
stdin, stdout, stderr = c.exec_command(remote_command)
logger.debug(stdout.readlines())
logger.debug(stderr.readlines())
def run_hook_webhook(config, targets, args):
"""
Send an HTTP requests (no targets)
"""
logger.info(f"Running webhook against {args['uri']}")
# Get the body data
data = json.dumps(args["body"])
headers = {"content-type": "application/json"}
# Craft up a Requests endpoint set for this
requests_actions = {
"get": requests.get,
"post": requests.post,
"put": requests.put,
"patch": requests.patch,
"delete": requests.delete,
"options": requests.options,
}
action = args["action"]
result = requests_actions[action](args["uri"], headers=headers, data=data)
logger.info(f"Result: {result}")
hook_functions = {
"osddb": run_hook_osddb,
"osd": run_hook_osd,
"pool": run_hook_pool,
"network": run_hook_network,
"copy": run_hook_copy,
"script": run_hook_script,
"webhook": run_hook_webhook,
}
def run_hooks(config, cspec, cluster, nodes):
"""
Run an Ansible bootstrap against a cluster
"""
# Waiting 30 seconds to ensure everything is booted an stabilized
logger.info("Waiting 300s before starting hook run.")
sleep(300)
notifications.send_webhook(config, "begin", f"Cluster {cluster.name}: Running post-setup hook tasks")
cluster_hooks = cspec["hooks"][cluster.name]
cluster_nodes = db.get_nodes_in_cluster(config, cluster.name)
for hook in cluster_hooks:
hook_target = hook.get("target", "all")
hook_name = hook.get("name")
logger.info(f"Running hook on {hook_target}: {hook_name}")
if "all" in hook_target:
target_nodes = cluster_nodes
else:
target_nodes = [node for node in cluster_nodes if node.name in hook_target]
hook_type = hook.get("type")
hook_args = hook.get("args")
if hook_type is None or hook_args is None:
logger.warning("Invalid hook: missing required configuration")
continue
# Run the hook function
try:
notifications.send_webhook(config, "begin", f"Cluster {cluster.name}: Running hook task '{hook_name}'")
hook_functions[hook_type](config, target_nodes, hook_args)
notifications.send_webhook(config, "success", f"Cluster {cluster.name}: Completed hook task '{hook_name}'")
except Exception as e:
logger.warning(f"Error running hook: {e}")
notifications.send_webhook(config, "failure", f"Cluster {cluster.name}: Failed hook task '{hook_name}' with error '{e}'")
# Wait 5s between hooks
sleep(5)
notifications.send_webhook(config, "success", f"Cluster {cluster.name}: Completed post-setup hook tasks")