--- /dev/null
+#!/usr/bin/python
+
+import time, sys, urllib, os, tempfile, random
+
+# set up the api
+import xmlrpclib
+api = xmlrpclib.Server('https://www.planet-lab.org/PLCAPI/')
+
+# create auth struct
+auth = {}
+auth['Username'] = "USERNAME GOES HERE"
+auth['AuthMethod'] = "password"
+auth['AuthString'] = "PASSWORD GOES HERE"
+auth['Role'] = "user"
+
+multiquery_path = "PATH/TO/CODEPLOY/multiquery"
+gnuplot_path = "/PATH/TO/gnuplot"
+
+# create plots
+def make_plots():
+ plot_fill_empty()
+ plot_keys()
+ #os.system("cp plots/*.png ~/public_html/planetlab/tests")
+
+
+# get formatted tic string for gnuplot
+def getTimeTicString(t1, t2, step):
+ first_hour = list(time.localtime(t1))
+ if not first_hour[4] == first_hour[5] == 0:
+ first_hour[4] = 0
+ first_hour[5] = 0
+
+ first_hour_time = int(time.mktime(first_hour))
+ first_hour_time += 3600
+
+ backsteps = (first_hour_time - t1)
+ backsteps /= step
+ start = first_hour_time - backsteps * step
+
+ tics = []
+ thistime = start
+ while thistime < t2:
+ tics.append("\"%s\" %d" % \
+ (time.strftime("%H:%M", time.localtime(thistime)), thistime))
+ thistime += step
+
+ ticstr = ", ".join(tics)
+ return ticstr
+
+
+# count total number of nodes in PlanetLab, according to the api
+def count_nodes_by_api():
+ all_nodes = [row['node_id'] for row in api.GetNodes(auth, {}, ['node_id'])]
+ print "%d\t%d" % (round(time.time()), len(all_nodes))
+
+
+# count total number of nodes in slice, according to the api
+def count_nodes_in_slice_by_api(slice=None):
+ if slice is None:
+ return
+
+ slice_id = [row['slice_id'] for row in \
+ api.GetSlices(auth, {'name': slice}, ['slice_id'])][0]
+
+ all_nodes = [row['node_id'] for row in \
+ api.GetNodes(auth, {}, ['node_id', 'slice_ids']) \
+ if slice_id in row['slice_ids']]
+
+ print "%d\t%d" % (round(time.time()), len(all_nodes))
+
+
+# count total number of "good" nodes, according to CoMon
+def count_nodes_good_by_comon():
+ comon = urllib.urlopen("http://summer.cs.princeton.edu/status/tabulator.cgi?table=table_nodeviewshort&format=nameonly&select='resptime%20%3E%200%20&&%20((drift%20%3E%201m%20||%20(dns1udp%20%3E%2080%20&&%20dns2udp%20%3E%2080)%20||%20gbfree%20%3C%205%20||%20sshstatus%20%3E%202h)%20==%200)'")
+ good_nodes = comon.readlines()
+
+ print "%d\t%d" % (round(time.time()), len(good_nodes))
+
+# estimate total number of nodes reachable by ssh
+def count_nodes_can_ssh(slice=None, key=None):
+ if slice is None:
+ return
+ if key is None:
+ return
+
+ pollnum = 20
+
+ all_nodes = ["%s\n" % row['hostname'] for row in \
+ api.GetNodes(auth, {}, ['hostname'])]
+
+ rand_nodes = []
+ for i in range(pollnum):
+ rand_nodes.append(all_nodes[random.randint(0,len(all_nodes)-1)])
+
+ tmpfilename = tempfile.mktemp()
+ tmpfile = open(tmpfilename, 'w')
+ tmpfile.writelines(rand_nodes)
+ tmpfile.close()
+
+ tmpfilename2 = tempfile.mktemp()
+ tmpfile2 = open(tmpfilename2, 'w')
+ tmpfile2.writelines("""
+ export MQ_SLICE="$1"
+ export MQ_NODES="$2"
+
+ eval `ssh-agent` >/dev/null 2>&1
+ trap "kill $SSH_AGENT_PID" 0
+ ssh-add ./keys/$3 >/dev/null 2>&1
+
+ %s 'uname' 2>/dev/null |
+ grep "bytes" |
+ grep -v ": 0 bytes" |
+ wc -l
+ """ % multiquery_path)
+ tmpfile2.close()
+
+ ssh_result = os.popen("bash %s %s %s %s 2>/dev/null" % (tmpfilename2, slice, tmpfilename, key)).readlines()
+ if len(ssh_result) > 0:
+ ssh_count = float(ssh_result[0].strip()) * len(all_nodes) / pollnum
+ print "%d\t%d" % (round(time.time()), round(ssh_count))
+
+ if os.path.exists(tmpfilename):
+ os.unlink(tmpfilename)
+
+
+
+
+# remove all nodes from a slice
+def empty_slice(slice=None):
+ if slice is None:
+ return
+
+ all_nodes = [row['node_id'] for row in api.GetNodes(auth, {}, ['node_id'])]
+ api.DeleteSliceFromNodes(auth, slice, all_nodes)
+
+
+# add all nodes to a slice
+def fill_slice(slice=None):
+ all_nodes = [row['node_id'] for row in api.GetNodes(auth, {}, ['node_id'])]
+ api.AddSliceToNodes(auth, slice, all_nodes)
+
+
+# add a key to a user
+def add_key(key=None):
+ if key is None:
+ return
+
+ key_value = open("keys/%s.pub" % key).readline()
+
+ api.AddPersonKey(auth, auth['Username'], {'key_type': 'ssh', 'key': key_value})
+
+
+# update a user's key
+def update_key(oldkey=None, newkey=None):
+ if oldkey is None:
+ return
+ if newkey is None:
+ return
+
+ oldkeyval = open("keys/%s.pub" % oldkey).readline()
+ newkeyval = open("keys/%s.pub" % newkey).readline()
+ keyid = [row['key_id'] for row in api.GetKeys(auth) if row['key'] == oldkeyval]
+ if len(keyid) == 0:
+ return
+ keyid = keyid[0]
+ api.UpdateKey(auth, keyid, {'key_type': 'ssh', 'key': newkeyval})
+
+
+# delete a key from the user
+def delete_key(delkey=None):
+ if delkey is None:
+ return
+
+ delkeyval = open("keys/%s.pub" % delkey).readline()
+ delkeyid = [row['key_id'] for row in api.GetKeys(auth) if row['key'] == delkeyval]
+ if len(delkeyid) == 0:
+ return
+ delkeyid = delkeyid[0]
+ api.DeleteKey(auth, delkeyid)
+
+
+# create the fill/empty plot
+def plot_fill_empty():
+ #ticstep = 3600 # 1 hour
+ #plotlength = 36000 # 10 hours
+ ticstep = 1800
+ plotlength = 10800
+
+ tmpfilename = tempfile.mktemp()
+ tmpfile = open(tmpfilename, 'w')
+
+ starttime = -1
+ stoptime = -1
+ for datafilename in ['data/nodes', 'data/nodes_in_slice', \
+ 'data/nodes_can_ssh', 'data/nodes_good']:
+ datafile = open(datafilename, 'r')
+ line1 = datafile.readline()
+ datafile.seek(-32,2)
+ line2 = datafile.readlines().pop()
+ thisstarttime = int(line1.split("\t")[0])
+ if starttime == -1 or thisstarttime < starttime:
+ starttime = thisstarttime
+ thisstoptime = int(line2.split("\t")[0])
+ if stoptime == -1 or thisstoptime > stoptime:
+ stoptime = thisstoptime
+
+ stopx = stoptime
+ startx = max(starttime, stopx - plotlength)
+ starttime = startx
+
+ tics = getTimeTicString(starttime, stoptime, ticstep)
+
+ startdate = time.strftime("%b %m, %Y - %H:%M", time.localtime(startx))
+ stopdate = time.strftime("%H:%M", time.localtime(stopx))
+
+ tmpfile.write("""
+ set term png
+ set output "plots/fill_empty.png"
+
+ set title "Number of Nodes / Time - %s to %s"
+ set xlabel "Time"
+ set ylabel "Number of Nodes"
+
+ set xtics (%s)
+ set xrange[%d:%d]
+ set yrange[0:950]
+
+ plot "data/nodes" u 1:2 w lines title "Total Nodes", \
+ "data/nodes_in_slice" u 1:2 w lines title "Nodes in Slice", \
+ "data/nodes_good" u 1:2 w lines title \
+ "Healthy Nodes (according to CoMon)", \
+ "data/nodes_can_ssh" u 1:2 w lines title "Nodes Reachable by SSH"
+
+ """ % (startdate, stopdate, tics, startx, stopx))
+
+ tmpfile.close()
+
+ os.system("%s %s" % (gnuplot_path, tmpfilename))
+
+ if os.path.exists(tmpfilename):
+ os.unlink(tmpfilename)
+
+
+
+# create the keys plot
+def plot_keys():
+ #ticstep = 3600 # 1 hour
+ #plotlength = 36000 # 10 hours
+ ticstep = 1800
+ plotlength = 10800
+
+ tmpfilename = tempfile.mktemp()
+ tmpfile = open(tmpfilename, 'w')
+
+ starttime = -1
+ stoptime = -1
+ for datafilename in ['data/nodes', 'data/nodes_in_slice2', \
+ 'data/nodes_good', 'data/nodes_can_ssh2_key0', 'data/nodes_can_ssh2_key1', \
+ 'data/nodes_can_ssh2_key2']:
+ datafile = open(datafilename, 'r')
+ line1 = datafile.readline()
+ datafile.seek(-32,2)
+ line2 = datafile.readlines().pop()
+ thisstarttime = int(line1.split("\t")[0])
+ if starttime == -1 or thisstarttime < starttime:
+ starttime = thisstarttime
+ thisstoptime = int(line2.split("\t")[0])
+ if stoptime == -1 or thisstoptime > stoptime:
+ stoptime = thisstoptime
+
+ stopx = stoptime
+ startx = max(starttime, stopx - plotlength)
+ starttime = startx
+
+ tics = getTimeTicString(starttime, stoptime, ticstep)
+
+ startdate = time.strftime("%b %m, %Y - %H:%M", time.localtime(startx))
+ stopdate = time.strftime("%H:%M", time.localtime(stopx))
+
+ tmpfile.write("""
+ set term png
+ set output "plots/keys.png"
+
+ set title "Number of Nodes / Time - %s to %s"
+ set xlabel "Time"
+ set ylabel "Number of Nodes"
+
+ set xtics (%s)
+ set xrange[%d:%d]
+ set yrange[0:1000]
+
+ plot "data/nodes" u 1:2 w lines title "Total Nodes", \
+ "data/nodes_in_slice2" u 1:2 w lines title "Nodes in Slice", \
+ "data/nodes_good" u 1:2 w lines title \
+ "Healthy Nodes (according to CoMon)", \
+ "data/nodes_can_ssh2_key0" u 1:2 w lines title "Nodes Accepting Key 0", \
+ "data/nodes_can_ssh2_key1" u 1:2 w lines title "Nodes Accepting Key 1", \
+ "data/nodes_can_ssh2_key2" u 1:2 w lines title "Nodes Accepting Key 2"
+
+ """ % (startdate, stopdate, tics, startx, stopx))
+
+ tmpfile.close()
+
+ os.system("%s %s" % (gnuplot_path, tmpfilename))
+
+ if os.path.exists(tmpfilename):
+ os.unlink(tmpfilename)
+