planetstack/hpc_wizard/hpc_wizard.py - xos - Gitiles

 import datetime
 import os
 import operator
 import socket
 import pytz
 import json
 import random
 import sys
 import time

 if os.path.exists("/home/smbaker/projects/vicci/plstackapi/planetstack"):
     sys.path.append("/home/smbaker/projects/vicci/plstackapi/planetstack")
 else:
     sys.path.append("/opt/planetstack")

 os.environ.setdefault("DJANGO_SETTINGS_MODULE", "planetstack.settings")
 from django import db
 from django.db import connection
 from core.models import Slice, Sliver, ServiceClass, Reservation, Tag, Network, User, Node, Image, Deployment, Site, NetworkTemplate, NetworkSlice, Service
 from hpc.models import HpcService, ServiceProvider, ContentProvider, OriginServer, CDNPrefix, HpcService

 # amount of time in milliseconds which will be queried for HPC statistics.
 QUERY_TIME=150000

 # Constants used for computing 'hotness'
 #    BLUE_LOAD = MB/s which should be a "0" on the hotness scale
 #    RED_LOAD = MB/s which should be a "1" on the hotness scale
 BLUE_LOAD=5000000
 RED_LOAD=15000000

 MAX_LOAD=RED_LOAD

 def log(what, showdate=True):
     try:
         if showdate:
             file("/tmp/scott-hpcwizard.log", "a").write(time.strftime("%Y-%m-%d %H:%M:%S ", time.gmtime()))
         file("/tmp/scott-hpcwizard.log", "a").write("%s\n" % what)
     except:
         pass # uh oh

 def log_exc(what):
     log(what)
     log(traceback.format_exc(), showdate=False)

 def avg(x):
     return float(sum(x))/len(x)

 def format_float(x):
     try:
         return "%10.5f" % x
     except:
         return str(x)

 class HpcWizard:
     def __init__(self):
         try:
             self.hpcService = HpcService.objects.get()
         except:
             # OpenCloud.us currently has a Service object instantiated instead
             # of a HpcService. Fallback for now.
             self.hpcService = Service.objects.get(name="HPC Service")

         self.hpcQueryThread = None

     def get_hpc_slices(self):
         try:
             slices = self.hpcService.slices.all()
         except:
             # BUG in data model -- Slice.service has related name 'service' and
             #                      it should be 'slices'
             slices = self.hpcService.service.all()
         return slices

     def get_hpc_slivers(self):
         slivers = []
         for slice in self.get_hpc_slices():
             for sliver in slice.slivers.all():
                 slivers.append(sliver)
         return slivers

     def fill_site_nodes(self, site, hpc_slivers=None):
         if hpc_slivers is None:
             hpc_slivers = self.get_hpc_slivers()

         site.availNodes = []
         site.hpcNodes = []
         for node in site.nodes.all():
             has_hpc = False

             for sliver in node.slivers.all():
                 if sliver in hpc_slivers:
                     has_hpc = True

             if has_hpc:
                 site.hpcNodes.append(node)
             else:
                 site.availNodes.append(node)

     def merge_site_statistics_old(self, sites):
         """ this does it based on the sumb of all bandwidth

             The issue here is that we the computed load reacts immediately to
             the addition or deletion of nodes. i.e. 5 nodes at 80% + 1 node at
             0% = average load 66%.
         """
         site_dict = {}
         for site in self.hpcQueryThread.site_rows:
             site_dict[site["site"]] = site

         for site in sites:
             if site.name in site_dict:
                 site.bytes_sent = site_dict[site.name]["sum_bytes_sent"]
                 time_delta = site_dict[site.name]["time_delta"]
                 computed_duration = (int(time_delta/30)+1)*30
                 if (computed_duration > 0):
                     site.bandwidth = site.bytes_sent/computed_duration
                 if len(site.hpcNodes)>0:
                     # figure out how many bytes_sent would be represented
                     # by blue and red
                     blue_load = len(site.hpcNodes) * BLUE_LOAD * computed_duration
                     red_load = len(site.hpcNodes) * RED_LOAD * computed_duration
                     max_load = len(site.hpcNodes) * MAX_LOAD * computed_duration

                     site.hotness = (min(red_load, max(blue_load, float(site.bytes_sent))) - blue_load)/(red_load-blue_load)
                     site.load = int(min(100, site.bytes_sent*100/max_load))

                     file("/tmp/scott2.txt","a").write("%s %d %0.2f %0.2f %0.2f %0.2f %d\n" % (site.name, site.bytes_sent, blue_load, red_load, site.hotness, time_delta, computed_duration))

     def merge_site_statistics(self, sites):
         """ This does it based on max load

             Advantage of this method is that since we're effectively reporting
             the maximally loaded node, we don't get instantaneous reactions
             to adding additional nodes. On the contrary, it will take a while
             for the load to balance from the loaded node to the new less-loaded
             node.
         """
         site_dict = {}
         for site in self.hpcQueryThread.site_rows:
             site_dict[site["site"]] = site

         for site in sites:
             if site.name in site_dict:
                 site.max_avg_bandwidth = site_dict[site.name]["max_avg_bandwidth"]
                 site.bytes_sent = site_dict[site.name]["sum_bytes_sent"]

                 site.hotness = min(1.0, float(max(BLUE_LOAD, site.max_avg_bandwidth) - BLUE_LOAD) / RED_LOAD)
                 site.load = int(site.max_avg_bandwidth*100/MAX_LOAD)

                 # we still need site["bandwidth"] for the summary statistics
                 time_delta = site_dict[site.name]["time_delta"]
                 computed_duration = (int(time_delta/30)+1)*30
                 if (computed_duration > 0):
                     site.bandwidth = site.bytes_sent/computed_duration
                 else:
                     site.bandwidth = 0

                 if len(site.hpcNodes)>0:
                     file("/tmp/scott3.txt","a").write("%s %d %0.2f %d %0.2f\n" % (site.name, site.bytes_sent, site.hotness, site.load, site.bandwidth))

     def get_sites(self):
         sites = list(Site.objects.all())

         for site in sites:
             self.fill_site_nodes(site, self.get_hpc_slivers())
             site.load = 0
             site.hotness = 0
             site.bandwidth = 0
             site.numNodes = len(site.hpcNodes) + len(site.availNodes)

         if (self.hpcQueryThread is not None) and (self.hpcQueryThread.is_stalled()):
             self.initialize_statistics()

         # merge in the statistics data if it is available
         if self.hpcQueryThread and self.hpcQueryThread.data_version>0:
             self.merge_site_statistics(sites)

         # django will leak extraordinary amounts of memory without this line
         db.reset_queries()

         return sites

     def get_nodes_to_sites(self):
         nodes_to_sites = {}

         sites = list(Site.objects.all())

         for site in sites:
             for node in site.nodes.all():
                 nodes_to_sites[node.name] = site.name

         return nodes_to_sites

     def get_slice_sites(self, slice_name):
         sites = list(Site.objects.all())
         slivers = list(Slice.objects.get(name=slice_name).slivers.all())
         for site in sites:
             self.fill_site_nodes(site, slivers)
         return sites

     def get_sites_for_view(self):
         sites = {}
         for site in self.get_sites():
             if site.name in ["ON.Lab", "I2 Atlanta"]:
                 continue

             d = {"lat": float(site.location.latitude),
                  "long": float(site.location.longitude),
                  "health": 0,
                  "numNodes": site.numNodes,
                  "numHPCSlivers": len(site.hpcNodes),
                  "siteUrl": str(site.site_url),
                  "hot": getattr(site,"hotness",0.0),
                  "load": getattr(site,"load",0)}
             sites[str(site.name)] = d

         import pprint
         f = file("/tmp/scott.txt","w")
         pprint.pprint(sites, f)
         f.close()

         return sites

     def get_summary_for_view(self):
         total_slivers = 0
         total_bandwidth = 0
         average_cpu = 0

         sites = [site for site in self.get_sites() if len(site.hpcNodes)>0]

         total_slivers = sum( [len(site.hpcNodes) for site in sites] )
         total_bandwidth = sum( [site.bandwidth for site in sites] )
         average_cpu = int(avg( [site.load for site in sites] ))

         return {"total_slivers": total_slivers,
                 "total_bandwidth": total_bandwidth,
                 "average_cpu": average_cpu}

     def initialize_statistics(self):
         from query import HpcQueryThread

         if (self.hpcQueryThread is not None):
             log("dropping old query thread")
             self.hpcQueryThread.please_die = True
             self.hpcQueryThread = None

         log("launching new query thread")

         nodes_to_sites = self.get_nodes_to_sites()
         self.hpcQueryThread = HpcQueryThread(nodes_to_sites = nodes_to_sites, timeStart=-QUERY_TIME, slice="HyperCache")

     def get_site(self, site_name):
         site = Site.objects.get(name=site_name)
         self.fill_site_nodes(site)
         return site

     def increase_slivers(self, site_name, count):
         site = self.get_site(site_name)
         hpc_slice = self.get_hpc_slices()[0]
         while (len(site.availNodes) > 0) and (count > 0):
             node = site.availNodes.pop()
             hostname = node.name
             sliver = Sliver(name=node.name,
                             slice=hpc_slice,
                             node=node,
                             image = Image.objects.all()[0],
                             creator = User.objects.get(email="scott@onlab.us"),
                             deploymentNetwork=node.deployment,
                             numberCores = 1,
                             ip=socket.gethostbyname(hostname))
             sliver.save()

             print "created sliver", sliver

             site.hpcNodes.append(node)

             count = count - 1

     def decrease_slivers(self, site_name, count):
         site = self.get_site(site_name)
         hpc_slices = self.get_hpc_slices()
         while (len(site.hpcNodes) > 0) and (count > 0):
             node = site.hpcNodes.pop()
             for sliver in node.slivers.all():
                 if sliver.slice in hpc_slices:
                      print "deleting sliver", sliver
                      sliver.delete()

             site.availNodes.append(node)
             count = count - 1

     def dump(self):
         print "slices:"
         for slice in self.get_hpc_slices():
             print "  ", slice

         print "sites:"
         print "%20s %10s %10s %10s %10s %10s %10s" % ("name", "avail", "hpc", "lat", "long", "sent", "hot")
         for site in self.get_sites():
             print "%20s %10d %10d %10s %10s %10d %10.2f" % (site.name,
                                                             len(site.availNodes),
                                                             len(site.hpcNodes),
                                                             format_float(site.location.latitude),
                                                             format_float(site.location.longitude),
                                                             getattr(site,"bytes_sent",0),
                                                             getattr(site,"hotness",0.5))

         #print "slivers:"
         #for sliver in self.get_hpc_slivers():
         #    print "  ", sliver

 glo_hpc_wizard = None

 def get_hpc_wizard():
     global glo_hpc_wizard

     if (glo_hpc_wizard is None):
         glo_hpc_wizard = HpcWizard()
         glo_hpc_wizard.initialize_statistics()

     return glo_hpc_wizard

 def main():
     x = HpcWizard()

     # initialized the Statistics thread, and wait for some data to show up
     x.initialize_statistics()
     while x.hpcQueryThread.data_version==0:
        time.sleep(1)

     x.dump()

     # quick test of the increase / decrease functions

     x.increase_slivers("Princeton", 1)
     x.decrease_slivers("Princeton", 1)

 if __name__=="__main__":
     main()
	import datetime
	import os
	import operator
	import socket
	import pytz
	import json
	import random
	import sys
	import time

	if os.path.exists("/home/smbaker/projects/vicci/plstackapi/planetstack"):
	sys.path.append("/home/smbaker/projects/vicci/plstackapi/planetstack")
	else:
	sys.path.append("/opt/planetstack")

	os.environ.setdefault("DJANGO_SETTINGS_MODULE", "planetstack.settings")
	from django import db
	from django.db import connection
	from core.models import Slice, Sliver, ServiceClass, Reservation, Tag, Network, User, Node, Image, Deployment, Site, NetworkTemplate, NetworkSlice, Service
	from hpc.models import HpcService, ServiceProvider, ContentProvider, OriginServer, CDNPrefix, HpcService

	# amount of time in milliseconds which will be queried for HPC statistics.
	QUERY_TIME=150000

	# Constants used for computing 'hotness'
	# BLUE_LOAD = MB/s which should be a "0" on the hotness scale
	# RED_LOAD = MB/s which should be a "1" on the hotness scale
	BLUE_LOAD=5000000
	RED_LOAD=15000000

	MAX_LOAD=RED_LOAD

	def log(what, showdate=True):
	try:
	if showdate:
	file("/tmp/scott-hpcwizard.log", "a").write(time.strftime("%Y-%m-%d %H:%M:%S ", time.gmtime()))
	file("/tmp/scott-hpcwizard.log", "a").write("%s\n" % what)
	except:
	pass # uh oh

	def log_exc(what):
	log(what)
	log(traceback.format_exc(), showdate=False)

	def avg(x):
	return float(sum(x))/len(x)

	def format_float(x):
	try:
	return "%10.5f" % x
	except:
	return str(x)

	class HpcWizard:
	def __init__(self):
	try:
	self.hpcService = HpcService.objects.get()
	except:
	# OpenCloud.us currently has a Service object instantiated instead
	# of a HpcService. Fallback for now.
	self.hpcService = Service.objects.get(name="HPC Service")

	self.hpcQueryThread = None

	def get_hpc_slices(self):
	try:
	slices = self.hpcService.slices.all()
	except:
	# BUG in data model -- Slice.service has related name 'service' and
	# it should be 'slices'
	slices = self.hpcService.service.all()
	return slices

	def get_hpc_slivers(self):
	slivers = []
	for slice in self.get_hpc_slices():
	for sliver in slice.slivers.all():
	slivers.append(sliver)
	return slivers

	def fill_site_nodes(self, site, hpc_slivers=None):
	if hpc_slivers is None:
	hpc_slivers = self.get_hpc_slivers()

	site.availNodes = []
	site.hpcNodes = []
	for node in site.nodes.all():
	has_hpc = False

	for sliver in node.slivers.all():
	if sliver in hpc_slivers:
	has_hpc = True

	if has_hpc:
	site.hpcNodes.append(node)
	else:
	site.availNodes.append(node)

	def merge_site_statistics_old(self, sites):
	""" this does it based on the sumb of all bandwidth

	The issue here is that we the computed load reacts immediately to
	the addition or deletion of nodes. i.e. 5 nodes at 80% + 1 node at
	0% = average load 66%.
	"""
	site_dict = {}
	for site in self.hpcQueryThread.site_rows:
	site_dict[site["site"]] = site

	for site in sites:
	if site.name in site_dict:
	site.bytes_sent = site_dict[site.name]["sum_bytes_sent"]
	time_delta = site_dict[site.name]["time_delta"]
	computed_duration = (int(time_delta/30)+1)*30
	if (computed_duration > 0):
	site.bandwidth = site.bytes_sent/computed_duration
	if len(site.hpcNodes)>0:
	# figure out how many bytes_sent would be represented
	# by blue and red
	blue_load = len(site.hpcNodes) * BLUE_LOAD * computed_duration
	red_load = len(site.hpcNodes) * RED_LOAD * computed_duration
	max_load = len(site.hpcNodes) * MAX_LOAD * computed_duration

	site.hotness = (min(red_load, max(blue_load, float(site.bytes_sent))) - blue_load)/(red_load-blue_load)
	site.load = int(min(100, site.bytes_sent*100/max_load))

	file("/tmp/scott2.txt","a").write("%s %d %0.2f %0.2f %0.2f %0.2f %d\n" % (site.name, site.bytes_sent, blue_load, red_load, site.hotness, time_delta, computed_duration))

	def merge_site_statistics(self, sites):
	""" This does it based on max load

	Advantage of this method is that since we're effectively reporting
	the maximally loaded node, we don't get instantaneous reactions
	to adding additional nodes. On the contrary, it will take a while
	for the load to balance from the loaded node to the new less-loaded
	node.
	"""
	site_dict = {}
	for site in self.hpcQueryThread.site_rows:
	site_dict[site["site"]] = site

	for site in sites:
	if site.name in site_dict:
	site.max_avg_bandwidth = site_dict[site.name]["max_avg_bandwidth"]
	site.bytes_sent = site_dict[site.name]["sum_bytes_sent"]

	site.hotness = min(1.0, float(max(BLUE_LOAD, site.max_avg_bandwidth) - BLUE_LOAD) / RED_LOAD)
	site.load = int(site.max_avg_bandwidth*100/MAX_LOAD)

	# we still need site["bandwidth"] for the summary statistics
	time_delta = site_dict[site.name]["time_delta"]
	computed_duration = (int(time_delta/30)+1)*30
	if (computed_duration > 0):
	site.bandwidth = site.bytes_sent/computed_duration
	else:
	site.bandwidth = 0

	if len(site.hpcNodes)>0:
	file("/tmp/scott3.txt","a").write("%s %d %0.2f %d %0.2f\n" % (site.name, site.bytes_sent, site.hotness, site.load, site.bandwidth))

	def get_sites(self):
	sites = list(Site.objects.all())

	for site in sites:
	self.fill_site_nodes(site, self.get_hpc_slivers())
	site.load = 0
	site.hotness = 0
	site.bandwidth = 0
	site.numNodes = len(site.hpcNodes) + len(site.availNodes)

	if (self.hpcQueryThread is not None) and (self.hpcQueryThread.is_stalled()):
	self.initialize_statistics()

	# merge in the statistics data if it is available
	if self.hpcQueryThread and self.hpcQueryThread.data_version>0:
	self.merge_site_statistics(sites)

	# django will leak extraordinary amounts of memory without this line
	db.reset_queries()

	return sites

	def get_nodes_to_sites(self):
	nodes_to_sites = {}

	sites = list(Site.objects.all())

	for site in sites:
	for node in site.nodes.all():
	nodes_to_sites[node.name] = site.name

	return nodes_to_sites

	def get_slice_sites(self, slice_name):
	sites = list(Site.objects.all())
	slivers = list(Slice.objects.get(name=slice_name).slivers.all())
	for site in sites:
	self.fill_site_nodes(site, slivers)
	return sites

	def get_sites_for_view(self):
	sites = {}
	for site in self.get_sites():
	if site.name in ["ON.Lab", "I2 Atlanta"]:
	continue

	d = {"lat": float(site.location.latitude),
	"long": float(site.location.longitude),
	"health": 0,
	"numNodes": site.numNodes,
	"numHPCSlivers": len(site.hpcNodes),
	"siteUrl": str(site.site_url),
	"hot": getattr(site,"hotness",0.0),
	"load": getattr(site,"load",0)}
	sites[str(site.name)] = d

	import pprint
	f = file("/tmp/scott.txt","w")
	pprint.pprint(sites, f)
	f.close()

	return sites

	def get_summary_for_view(self):
	total_slivers = 0
	total_bandwidth = 0
	average_cpu = 0

	sites = [site for site in self.get_sites() if len(site.hpcNodes)>0]

	total_slivers = sum( [len(site.hpcNodes) for site in sites] )
	total_bandwidth = sum( [site.bandwidth for site in sites] )
	average_cpu = int(avg( [site.load for site in sites] ))

	return {"total_slivers": total_slivers,
	"total_bandwidth": total_bandwidth,
	"average_cpu": average_cpu}

	def initialize_statistics(self):
	from query import HpcQueryThread

	if (self.hpcQueryThread is not None):
	log("dropping old query thread")
	self.hpcQueryThread.please_die = True
	self.hpcQueryThread = None

	log("launching new query thread")

	nodes_to_sites = self.get_nodes_to_sites()
	self.hpcQueryThread = HpcQueryThread(nodes_to_sites = nodes_to_sites, timeStart=-QUERY_TIME, slice="HyperCache")

	def get_site(self, site_name):
	site = Site.objects.get(name=site_name)
	self.fill_site_nodes(site)
	return site

	def increase_slivers(self, site_name, count):
	site = self.get_site(site_name)
	hpc_slice = self.get_hpc_slices()[0]
	while (len(site.availNodes) > 0) and (count > 0):
	node = site.availNodes.pop()
	hostname = node.name
	sliver = Sliver(name=node.name,
	slice=hpc_slice,
	node=node,
	image = Image.objects.all()[0],
	creator = User.objects.get(email="scott@onlab.us"),
	deploymentNetwork=node.deployment,
	numberCores = 1,
	ip=socket.gethostbyname(hostname))
	sliver.save()

	print "created sliver", sliver

	site.hpcNodes.append(node)

	count = count - 1

	def decrease_slivers(self, site_name, count):
	site = self.get_site(site_name)
	hpc_slices = self.get_hpc_slices()
	while (len(site.hpcNodes) > 0) and (count > 0):
	node = site.hpcNodes.pop()
	for sliver in node.slivers.all():
	if sliver.slice in hpc_slices:
	print "deleting sliver", sliver
	sliver.delete()

	site.availNodes.append(node)
	count = count - 1

	def dump(self):
	print "slices:"
	for slice in self.get_hpc_slices():
	print " ", slice

	print "sites:"
	print "%20s %10s %10s %10s %10s %10s %10s" % ("name", "avail", "hpc", "lat", "long", "sent", "hot")
	for site in self.get_sites():
	print "%20s %10d %10d %10s %10s %10d %10.2f" % (site.name,
	len(site.availNodes),
	len(site.hpcNodes),
	format_float(site.location.latitude),
	format_float(site.location.longitude),
	getattr(site,"bytes_sent",0),
	getattr(site,"hotness",0.5))

	#print "slivers:"
	#for sliver in self.get_hpc_slivers():
	# print " ", sliver

	glo_hpc_wizard = None

	def get_hpc_wizard():
	global glo_hpc_wizard

	if (glo_hpc_wizard is None):
	glo_hpc_wizard = HpcWizard()
	glo_hpc_wizard.initialize_statistics()

	return glo_hpc_wizard

	def main():
	x = HpcWizard()

	# initialized the Statistics thread, and wait for some data to show up
	x.initialize_statistics()
	while x.hpcQueryThread.data_version==0:
	time.sleep(1)

	x.dump()

	# quick test of the increase / decrease functions

	x.increase_slivers("Princeton", 1)
	x.decrease_slivers("Princeton", 1)

	if __name__=="__main__":
	main()