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# Copyright (c) 2017-2018 Wind River Systems, Inc.
#
# 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.
import json
import logging
# import re
import uuid
import threading
import datetime
import time
#import traceback
# from common.exceptions import VimDriverNewtonException
from common.utils import restcall
from rest_framework import status
from django.core.cache import cache
logger = logging.getLogger(__name__)
# Helper of MultiCloud API invocation
class Helper(object):
@staticmethod
def MultiCloudIdentityHelper(multicloud_api_prefix, cloud_owner,
cloud_region_id, uri, data={}, header=''):
auth_api_url_format = "/{f_cloudowner}/{f_cloudregionid}/identity{f_uri}"
auth_api_url = auth_api_url_format.format(f_cloudowner=cloud_owner,
f_cloudregionid=cloud_region_id,
f_uri=uri)
extra_headers = header
ret = restcall._call_req(multicloud_api_prefix, "", "", 0, auth_api_url, "POST", extra_headers, json.dumps(data))
if ret[0] == 0 and ret[1]:
content = json.JSONDecoder().decode(ret[1])
ret[1] = content
return ret
# The consumer of this api must be attaching to the same management network of multicloud,
# The constraints comes from the returned catalog endpoint url e.g. "http://10.0.14.1:80/api/multicloud-titaniumcloud/v0/pod25_RegionOne/identity/v3"
@staticmethod
def MultiCloudServiceHelper(
cloud_owner, cloud_region_id, v2_token_resp_json, service_type,
uri, data=None, method="GET"):
# get endpoint from token response
token = v2_token_resp_json["access"]["token"]["id"]
catalogs = v2_token_resp_json["access"]["serviceCatalog"]
for catalog in catalogs:
if catalog['type'] == service_type:
# now we have endpoint
endpoint_url = catalog['endpoints'][0]['publicURL']
extra_headers = {'X-Auth-Token': token}
ret = restcall._call_req(endpoint_url, "", "", 0, uri, method, extra_headers, json.dumps(data) if data else "")
if ret[0] == 0 and ret[1]:
content = json.JSONDecoder().decode(ret[1])
ret[1] = content
return ret
return [1, None, status.HTTP_404_NOT_FOUND] # return resource not found in case no type found
# Helper of AAI resource access
class MultiCloudAAIHelper(object):
'''
Helper to register infrastructure resource into AAI
'''
def __init__(self, multicloud_prefix, aai_base_url):
# logger.debug("MultiCloudAAIHelper __init__ traceback: %s" % traceback.format_exc())
self.proxy_prefix = multicloud_prefix
self.aai_base_url = aai_base_url
self._logger = logger
# super(MultiCloudAAIHelper, self).__init__()
def _get_list_resources(
self, resource_url, service_type, session, viminfo,
vimid, content_key):
service = {
'service_type': service_type,
'interface': 'public'
}
# identity service should not filtered by region since it is might be first call
# to figure out available region list
if service_type != 'identity':
service['region_name'] = viminfo['openstack_region_id']\
if viminfo.get('openstack_region_id') else viminfo['cloud_region_id']
self._logger.debug("making request with URI:%s,%s" % (resource_url, service))
resp = session.get(resource_url, endpoint_filter=service)
self._logger.debug("request returns with status %s" % resp.status_code)
if resp.status_code == status.HTTP_200_OK:
self._logger.debug("with content:%s" % resp.json())
content = resp.json()
return content.get(content_key)
return None # failed to discover resources
def _update_resoure(self, cloud_owner, cloud_region_id,
resoure_id, resource_info, resource_type):
if cloud_owner and cloud_region_id:
self._logger.debug(
("_update_resoure,vimid:%(cloud_owner)s"
"_%(cloud_region_id)s req_to_aai: %(resoure_id)s, "
"%(resource_type)s, %(resource_info)s")
% {
"cloud_owner": cloud_owner,
"cloud_region_id": cloud_region_id,
"resoure_id": resoure_id,
"resource_type": resource_type,
"resource_info": resource_info,
})
# get the resource first
resource_url = ("/cloud-infrastructure/cloud-regions/"
"cloud-region/%(cloud_owner)s/%(cloud_region_id)s/"
"%(resource_type)ss/%(resource_type)s/%(resoure_id)s"
% {
"cloud_owner": cloud_owner,
"cloud_region_id": cloud_region_id,
"resoure_id": resoure_id,
"resource_type": resource_type,
})
# get cloud-region
retcode, content, status_code = \
restcall.req_to_aai(resource_url, "GET")
# add resource-version
if retcode == 0 and content:
content = json.JSONDecoder().decode(content)
#resource_info["resource-version"] = content["resource-version"]
content.update(resource_info)
resource_info = content
#then update the resource
retcode, content, status_code = \
restcall.req_to_aai(resource_url, "PUT", content=resource_info)
# self._logger.debug(
# ("_update_resoure,vimid:%(cloud_owner)s"
# "_%(cloud_region_id)s req_to_aai: %(resoure_id)s, "
# "return %(retcode)s, %(content)s, %(status_code)s")
# % {
# "cloud_owner": cloud_owner,
# "cloud_region_id": cloud_region_id,
# "resoure_id": resoure_id,
# "retcode": retcode,
# "content": content,
# "status_code": status_code,
# })
return retcode, content
# unknown cloud owner,region_id
return (
11,
"Unknown Cloud Region ID: %s ,%s" %(cloud_owner, cloud_region_id)
)
pass
# thread helper
class MultiCloudThreadHelper(object):
'''
Helper to manage LCM of an offloading thread
'''
@staticmethod
def get_epoch_now_usecond():
'''
get epoch timestamp of this moment in usecond
:return:
'''
now_time = datetime.datetime.now()
epoch_time_sec = time.mktime(now_time.timetuple())
return int(epoch_time_sec * 1e6 + now_time.microsecond)
def __init__(self, name=""):
# debug: dump the callstack to determine the callstack, hence the lcm
# logger.debug("MultiCloudThreadHelper __init__: %s" % traceback.format_exc())
# format of a backlog item:
# {
# "id": unique string to identify this item in backlog,
# "worker": pointer to helper method
# "payload": opaque object to pass to the worker for processing
# "repeat": interval in micro-seconds for repeating this worker, 0 for one time worker
# "timestamp": time stamp of last invocation of this worker, 0 for initial state
# "status": opaque object to represent the progress of the backlog processing
# }
# format of backlog:
# {"<id value of backlog item>": <backlog item>, ...}
self.name = name or "default"
self.backlog = {}
# expired backlog items
self.expired_backlog = {}
self.lock = threading.Lock()
self.state_ = 0 # 0: stopped, 1: started
self.cache_prefix = "bi_"+self.name+"_"
self.cache_expired_prefix = "biex_"+self.name+"_"
self.thread = MultiCloudThreadHelper.HelperThread(self)
# self.thread.start()
def state(self):
return self.state_
def start(self):
self.lock.acquire()
if 0 == self.state_:
self.state_ = 1
# self.thread = MultiCloudThreadHelper.HelperThread(self)
self.thread.start()
else:
pass
self.lock.release()
def stop(self):
self.state_ = 0
def add(self, backlog_item):
cache_for_query = None
if not backlog_item.get("worker", None):
logger.warn("Fail to add backlog item: %s" % backlog_item)
return None
if not backlog_item.get("id", None):
backlog_item["id"] = str(uuid.uuid1())
else:
cache_for_query = {
"id": backlog_item["id"],
"status": backlog_item.get("status", None)
}
if not backlog_item.get("repeat", None):
backlog_item["repeat"] = 0
backlog_item["timestamp"] = 0
# self.lock.acquire()
# make sure there is no identical backlog in expired backlog
if cache_for_query:
cache.set(self.cache_prefix + backlog_item["id"],
json.dumps(cache_for_query), 3600 * 24)
self.expired_backlog.pop(backlog_item["id"], None)
self.backlog[backlog_item["id"]] = backlog_item
# self.lock.release()
logger.debug("Add backlog item: %s" % backlog_item)
return len(self.backlog)
def get(self, backlog_id):
item = self.backlog.get(backlog_id, None) or self.expired_backlog.get(backlog_id, None)
# check the cache
if not item:
cache_for_query_str = cache.get(self.cache_prefix + backlog_id)
if cache_for_query_str:
item = json.loads(cache_for_query_str)
else:
cache_for_query_str = cache.get(self.cache_expired_prefix + backlog_id)
if cache_for_query_str:
item = json.loads(cache_for_query_str)
return item
# check if the backlog item is in expired backlog
def expired(self, backlog_id):
if not self.backlog.get(backlog_id, None):
if self.expired_backlog.get(backlog_id, None):
return True
# check the cache
cache_for_query_str = cache.get(self.cache_prefix + backlog_id)
if not cache_for_query_str:
cache_for_query_str = cache.get(self.cache_expired_prefix + backlog_id)
if cache_for_query_str:
return True
return False
def expire(self, backlog_id):
# important: the order of operation should make sure
# there is at least 1 copy of backlog item in either backlog or expired backlog
# self.lock.acquire()
backlogitem = self.backlog.get(backlog_id, None)
self.owner.expired_backlog[backlog_id] = backlogitem
self.backlog.pop(backlog_id, None)
# self.lock.release()
def remove(self, backlog_id):
# self.lock.acquire()
self.backlog.pop(backlog_id, None)
self.expired_backlog.pop(backlog_id, None)
cache.delete(self.cache_prefix + backlog_id)
cache.delete(self.cache_expired_prefix + backlog_id)
# self.lock.release()
def reset(self):
# self.lock.acquire()
self.backlog.clear()
self.expired_backlog.clear()
# self.lock.release()
#def count(self):
# return len(self.backlog)
class HelperThread(threading.Thread):
def __init__(self, owner):
threading.Thread.__init__(self)
self.daemon = True
self.duration = 0
self.owner = owner
# debug: dump the callstack to determine the callstack, hence the lcm
# logger.debug("HelperThread __init__ : %s" % traceback.format_exc())
def run(self):
logger.debug("Thread %s starts processing backlogs" % self.owner.name)
nexttimer = 0
while self.owner.state_ == 1: # and self.owner.count() > 0:
if nexttimer > 1000000:
# sleep in case of interval > 1 second
time.sleep(nexttimer // 1000000)
nexttimer = 30*1000000 # initial interval in us to be updated:30 seconds
# logger.debug("self.owner.backlog: %s, len: %s" % (self.owner.name, len(self.owner.backlog)))
for backlog_id, item in self.owner.backlog.items():
# logger.debug("evaluate backlog item: %s" % item)
# check interval for repeatable backlog item
now = MultiCloudThreadHelper.get_epoch_now_usecond()
repeat_interval = item.get("repeat", 0)
if repeat_interval > 0:
timestamp = item.get("timestamp", 0)
timeleft = (now - timestamp
if now > timestamp
else repeat_interval)
nexttimer = timeleft if nexttimer > timeleft else nexttimer
# compare interval with elapsed time.
# workaround the case of timestamp turnaround
if repeat_interval > timeleft:
# not time to run this backlog item yet
continue
# logger.debug("process backlog item: %s" % backlog_id)
worker = item.get("worker", None)
payload = item.get("payload", None)
try:
item["status"] = worker(*payload) or 0
except Exception as e:
item["status"] = e.message
cache_item_for_query = {
"id": item["id"],
"status": item["status"]
}
if item.get("repeat", 0) == 0:
self.owner.expire(backlog_id)
# keep only the id and status
self.owner.expired_backlog[backlog_id] = {"status": item["status"]}
#update cache
try:
cache.set(self.owner.cache_expired_prefix + cache_item_for_query["id"], cache_item_for_query, 3600*24)
cache.delete(self.owner.cache_prefix + cache_item_for_query["id"])
except Exception as e:
logger.error(e.message)
else:
item["timestamp"] = now
#update cache
try:
cache.set(self.owner.cache_prefix + cache_item_for_query["id"], cache_item_for_query, 3600*24)
except Exception as e:
logger.error(e.message)
pass
# end of loop
# while True:
# logger.debug("thread sleep for 5 seconds")
# time.sleep(5) # wait forever, testonly
logger.debug("Thread %s stops processing backlogs" % self.owner.name)
self.owner.state_ = 0
# end of processing
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