tests/migration/guestperf/plot.py - platform/external/qemu-android - Git at Google

 #
 # Migration test graph plotting
 #
 # Copyright (c) 2016 Red Hat, Inc.
 #
 # This library is free software; you can redistribute it and/or
 # modify it under the terms of the GNU Lesser General Public
 # License as published by the Free Software Foundation; either
 # version 2 of the License, or (at your option) any later version.
 #
 # This library 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
 # Lesser General Public License for more details.
 #
 # You should have received a copy of the GNU Lesser General Public
 # License along with this library; if not, see <http://www.gnu.org/licenses/>.
 #

 import sys


 class Plot(object):

     # Generated using
     # http://tools.medialab.sciences-po.fr/iwanthue/
     COLORS = ["#CD54D0",
               "#79D94C",
               "#7470CD",
               "#D2D251",
               "#863D79",
               "#76DDA6",
               "#D4467B",
               "#61923D",
               "#CB9CCA",
               "#D98F36",
               "#8CC8DA",
               "#CE4831",
               "#5E7693",
               "#9B803F",
               "#412F4C",
               "#CECBA6",
               "#6D3229",
               "#598B73",
               "#C8827C",
               "#394427"]

     def __init__(self,
                  reports,
                  migration_iters,
                  total_guest_cpu,
                  split_guest_cpu,
                  qemu_cpu,
                  vcpu_cpu):

         self._reports = reports
         self._migration_iters = migration_iters
         self._total_guest_cpu = total_guest_cpu
         self._split_guest_cpu = split_guest_cpu
         self._qemu_cpu = qemu_cpu
         self._vcpu_cpu = vcpu_cpu
         self._color_idx = 0

     def _next_color(self):
         color = self.COLORS[self._color_idx]
         self._color_idx += 1
         if self._color_idx >= len(self.COLORS):
             self._color_idx = 0
         return color

     def _get_progress_label(self, progress):
         if progress:
             return "\n\n" + "\n".join(
                 ["Status: %s" % progress._status,
                  "Iteration: %d" % progress._ram._iterations,
                  "Throttle: %02d%%" % progress._throttle_pcent,
                  "Dirty rate: %dMB/s" % (progress._ram._dirty_rate_pps * 4 / 1024.0)])
         else:
             return "\n\n" + "\n".join(
                 ["Status: %s" % "none",
                  "Iteration: %d" % 0])

     def _find_start_time(self, report):
         startqemu = report._qemu_timings._records[0]._timestamp
         startguest = report._guest_timings._records[0]._timestamp
         if startqemu < startguest:
             return startqemu
         else:
             return stasrtguest

     def _get_guest_max_value(self, report):
         maxvalue = 0
         for record in report._guest_timings._records:
             if record._value > maxvalue:
                 maxvalue = record._value
         return maxvalue

     def _get_qemu_max_value(self, report):
         maxvalue = 0
         oldvalue = None
         oldtime = None
         for record in report._qemu_timings._records:
             if oldvalue is not None:
                 cpudelta = (record._value - oldvalue) / 1000.0
                 timedelta = record._timestamp - oldtime
                 if timedelta == 0:
                     continue
                 util = cpudelta / timedelta * 100.0
             else:
                 util = 0
             oldvalue = record._value
             oldtime = record._timestamp

             if util > maxvalue:
                 maxvalue = util
         return maxvalue

     def _get_total_guest_cpu_graph(self, report, starttime):
         xaxis = []
         yaxis = []
         labels = []
         progress_idx = -1
         for record in report._guest_timings._records:
             while ((progress_idx + 1) < len(report._progress_history) and
                    report._progress_history[progress_idx + 1]._now < record._timestamp):
                 progress_idx = progress_idx + 1

             if progress_idx >= 0:
                 progress = report._progress_history[progress_idx]
             else:
                 progress = None

             xaxis.append(record._timestamp - starttime)
             yaxis.append(record._value)
             labels.append(self._get_progress_label(progress))

         from plotly import graph_objs as go
         return go.Scatter(x=xaxis,
                           y=yaxis,
                           name="Guest PIDs: %s" % report._scenario._name,
                           mode='lines',
                           line={
                               "dash": "solid",
                               "color": self._next_color(),
                               "shape": "linear",
                               "width": 1
                           },
                           text=labels)

     def _get_split_guest_cpu_graphs(self, report, starttime):
         threads = {}
         for record in report._guest_timings._records:
             if record._tid in threads:
                 continue
             threads[record._tid] = {
                 "xaxis": [],
                 "yaxis": [],
                 "labels": [],
             }

         progress_idx = -1
         for record in report._guest_timings._records:
             while ((progress_idx + 1) < len(report._progress_history) and
                    report._progress_history[progress_idx + 1]._now < record._timestamp):
                 progress_idx = progress_idx + 1

             if progress_idx >= 0:
                 progress = report._progress_history[progress_idx]
             else:
                 progress = None

             threads[record._tid]["xaxis"].append(record._timestamp - starttime)
             threads[record._tid]["yaxis"].append(record._value)
             threads[record._tid]["labels"].append(self._get_progress_label(progress))


         graphs = []
         from plotly import graph_objs as go
         for tid in threads.keys():
             graphs.append(
                 go.Scatter(x=threads[tid]["xaxis"],
                            y=threads[tid]["yaxis"],
                            name="PID %s: %s" % (tid, report._scenario._name),
                            mode="lines",
                            line={
                                "dash": "solid",
                                "color": self._next_color(),
                                "shape": "linear",
                                "width": 1
                            },
                            text=threads[tid]["labels"]))
         return graphs

     def _get_migration_iters_graph(self, report, starttime):
         xaxis = []
         yaxis = []
         labels = []
         for progress in report._progress_history:
             xaxis.append(progress._now - starttime)
             yaxis.append(0)
             labels.append(self._get_progress_label(progress))

         from plotly import graph_objs as go
         return go.Scatter(x=xaxis,
                           y=yaxis,
                           text=labels,
                           name="Migration iterations",
                           mode="markers",
                           marker={
                               "color": self._next_color(),
                               "symbol": "star",
                               "size": 5
                           })

     def _get_qemu_cpu_graph(self, report, starttime):
         xaxis = []
         yaxis = []
         labels = []
         progress_idx = -1

         first = report._qemu_timings._records[0]
         abstimestamps = [first._timestamp]
         absvalues = [first._value]

         for record in report._qemu_timings._records[1:]:
             while ((progress_idx + 1) < len(report._progress_history) and
                    report._progress_history[progress_idx + 1]._now < record._timestamp):
                 progress_idx = progress_idx + 1

             if progress_idx >= 0:
                 progress = report._progress_history[progress_idx]
             else:
                 progress = None

             oldvalue = absvalues[-1]
             oldtime = abstimestamps[-1]

             cpudelta = (record._value - oldvalue) / 1000.0
             timedelta = record._timestamp - oldtime
             if timedelta == 0:
                 continue
             util = cpudelta / timedelta * 100.0

             abstimestamps.append(record._timestamp)
             absvalues.append(record._value)

             xaxis.append(record._timestamp - starttime)
             yaxis.append(util)
             labels.append(self._get_progress_label(progress))

         from plotly import graph_objs as go
         return go.Scatter(x=xaxis,
                           y=yaxis,
                           yaxis="y2",
                           name="QEMU: %s" % report._scenario._name,
                           mode='lines',
                           line={
                               "dash": "solid",
                               "color": self._next_color(),
                               "shape": "linear",
                               "width": 1
                           },
                           text=labels)

     def _get_vcpu_cpu_graphs(self, report, starttime):
         threads = {}
         for record in report._vcpu_timings._records:
             if record._tid in threads:
                 continue
             threads[record._tid] = {
                 "xaxis": [],
                 "yaxis": [],
                 "labels": [],
                 "absvalue": [record._value],
                 "abstime": [record._timestamp],
             }

         progress_idx = -1
         for record in report._vcpu_timings._records:
             while ((progress_idx + 1) < len(report._progress_history) and
                    report._progress_history[progress_idx + 1]._now < record._timestamp):
                 progress_idx = progress_idx + 1

             if progress_idx >= 0:
                 progress = report._progress_history[progress_idx]
             else:
                 progress = None

             oldvalue = threads[record._tid]["absvalue"][-1]
             oldtime = threads[record._tid]["abstime"][-1]

             cpudelta = (record._value - oldvalue) / 1000.0
             timedelta = record._timestamp - oldtime
             if timedelta == 0:
                 continue
             util = cpudelta / timedelta * 100.0
             if util > 100:
                 util = 100

             threads[record._tid]["absvalue"].append(record._value)
             threads[record._tid]["abstime"].append(record._timestamp)

             threads[record._tid]["xaxis"].append(record._timestamp - starttime)
             threads[record._tid]["yaxis"].append(util)
             threads[record._tid]["labels"].append(self._get_progress_label(progress))


         graphs = []
         from plotly import graph_objs as go
         for tid in threads.keys():
             graphs.append(
                 go.Scatter(x=threads[tid]["xaxis"],
                            y=threads[tid]["yaxis"],
                            yaxis="y2",
                            name="VCPU %s: %s" % (tid, report._scenario._name),
                            mode="lines",
                            line={
                                "dash": "solid",
                                "color": self._next_color(),
                                "shape": "linear",
                                "width": 1
                            },
                            text=threads[tid]["labels"]))
         return graphs

     def _generate_chart_report(self, report):
         graphs = []
         starttime = self._find_start_time(report)
         if self._total_guest_cpu:
             graphs.append(self._get_total_guest_cpu_graph(report, starttime))
         if self._split_guest_cpu:
             graphs.extend(self._get_split_guest_cpu_graphs(report, starttime))
         if self._qemu_cpu:
             graphs.append(self._get_qemu_cpu_graph(report, starttime))
         if self._vcpu_cpu:
             graphs.extend(self._get_vcpu_cpu_graphs(report, starttime))
         if self._migration_iters:
             graphs.append(self._get_migration_iters_graph(report, starttime))
         return graphs

     def _generate_annotation(self, starttime, progress):
         return {
             "text": progress._status,
             "x": progress._now - starttime,
             "y": 10,
         }

     def _generate_annotations(self, report):
         starttime = self._find_start_time(report)
         annotations = {}
         started = False
         for progress in report._progress_history:
             if progress._status == "setup":
                 continue
             if progress._status not in annotations:
                 annotations[progress._status] = self._generate_annotation(starttime, progress)

         return annotations.values()

     def _generate_chart(self):
         from plotly.offline import plot
         from plotly import graph_objs as go

         graphs = []
         yaxismax = 0
         yaxismax2 = 0
         for report in self._reports:
             graphs.extend(self._generate_chart_report(report))

             maxvalue = self._get_guest_max_value(report)
             if maxvalue > yaxismax:
                 yaxismax = maxvalue

             maxvalue = self._get_qemu_max_value(report)
             if maxvalue > yaxismax2:
                 yaxismax2 = maxvalue

         yaxismax += 100
         if not self._qemu_cpu:
             yaxismax2 = 110
         yaxismax2 += 10

         annotations = []
         if self._migration_iters:
             for report in self._reports:
                 annotations.extend(self._generate_annotations(report))

         layout = go.Layout(title="Migration comparison",
                            xaxis={
                                "title": "Wallclock time (secs)",
                                "showgrid": False,
                            },
                            yaxis={
                                "title": "Memory update speed (ms/GB)",
                                "showgrid": False,
                                "range": [0, yaxismax],
                            },
                            yaxis2={
                                "title": "Hostutilization (%)",
                                "overlaying": "y",
                                "side": "right",
                                "range": [0, yaxismax2],
                                "showgrid": False,
                            },
                            annotations=annotations)

         figure = go.Figure(data=graphs, layout=layout)

         return plot(figure,
                     show_link=False,
                     include_plotlyjs=False,
                     output_type="div")


     def _generate_report(self):
         pieces = []
         for report in self._reports:
             pieces.append("""
 <h3>Report %s</h3>
 <table>
 """ % report._scenario._name)

             pieces.append("""
   <tr class="subhead">
     <th colspan="2">Test config</th>
   </tr>
   <tr>
     <th>Emulator:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Kernel:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Ramdisk:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Transport:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Host:</th>
     <td>%s</td>
   </tr>
 """ % (report._binary, report._kernel,
        report._initrd, report._transport, report._dst_host))

             hardware = report._hardware
             pieces.append("""
   <tr class="subhead">
     <th colspan="2">Hardware config</th>
   </tr>
   <tr>
     <th>CPUs:</th>
     <td>%d</td>
   </tr>
   <tr>
     <th>RAM:</th>
     <td>%d GB</td>
   </tr>
   <tr>
     <th>Source CPU bind:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Source RAM bind:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Dest CPU bind:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Dest RAM bind:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Preallocate RAM:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Locked RAM:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Huge pages:</th>
     <td>%s</td>
   </tr>
 """ % (hardware._cpus, hardware._mem,
        ",".join(hardware._src_cpu_bind),
        ",".join(hardware._src_mem_bind),
        ",".join(hardware._dst_cpu_bind),
        ",".join(hardware._dst_mem_bind),
        "yes" if hardware._prealloc_pages else "no",
        "yes" if hardware._locked_pages else "no",
        "yes" if hardware._huge_pages else "no"))

             scenario = report._scenario
             pieces.append("""
   <tr class="subhead">
     <th colspan="2">Scenario config</th>
   </tr>
   <tr>
     <th>Max downtime:</th>
     <td>%d milli-sec</td>
   </tr>
   <tr>
     <th>Max bandwidth:</th>
     <td>%d MB/sec</td>
   </tr>
   <tr>
     <th>Max iters:</th>
     <td>%d</td>
   </tr>
   <tr>
     <th>Max time:</th>
     <td>%d secs</td>
   </tr>
   <tr>
     <th>Pause:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Pause iters:</th>
     <td>%d</td>
   </tr>
   <tr>
     <th>Post-copy:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Post-copy iters:</th>
     <td>%d</td>
   </tr>
   <tr>
     <th>Auto-converge:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>Auto-converge iters:</th>
     <td>%d</td>
   </tr>
   <tr>
     <th>MT compression:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>MT compression threads:</th>
     <td>%d</td>
   </tr>
   <tr>
     <th>XBZRLE compression:</th>
     <td>%s</td>
   </tr>
   <tr>
     <th>XBZRLE compression cache:</th>
     <td>%d%% of RAM</td>
   </tr>
 """ % (scenario._downtime, scenario._bandwidth,
        scenario._max_iters, scenario._max_time,
        "yes" if scenario._pause else "no", scenario._pause_iters,
        "yes" if scenario._post_copy else "no", scenario._post_copy_iters,
        "yes" if scenario._auto_converge else "no", scenario._auto_converge_step,
        "yes" if scenario._compression_mt else "no", scenario._compression_mt_threads,
        "yes" if scenario._compression_xbzrle else "no", scenario._compression_xbzrle_cache))

             pieces.append("""
 </table>
 """)

         return "\n".join(pieces)

     def _generate_style(self):
         return """
 #report table tr th {
     text-align: right;
 }
 #report table tr td {
     text-align: left;
 }
 #report table tr.subhead th {
     background: rgb(192, 192, 192);
     text-align: center;
 }

 """

     def generate_html(self, fh):
         print >>fh, """<html>
   <head>
     <script type="text/javascript" src="plotly.min.js">
     </script>
     <style type="text/css">
 %s
     </style>
     <title>Migration report</title>
   </head>
   <body>
     <h1>Migration report</h1>
     <h2>Chart summary</h2>
     <div id="chart">
 """ % self._generate_style()
         print >>fh, self._generate_chart()
         print >>fh, """
     </div>
     <h2>Report details</h2>
     <div id="report">
 """
         print >>fh, self._generate_report()
         print >>fh, """
     </div>
   </body>
 </html>
 """

     def generate(self, filename):
         if filename is None:
             self.generate_html(sys.stdout)
         else:
             with open(filename, "w") as fh:
                 self.generate_html(fh)
	#
	# Migration test graph plotting
	#
	# Copyright (c) 2016 Red Hat, Inc.
	#
	# This library is free software; you can redistribute it and/or
	# modify it under the terms of the GNU Lesser General Public
	# License as published by the Free Software Foundation; either
	# version 2 of the License, or (at your option) any later version.
	#
	# This library 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
	# Lesser General Public License for more details.
	#
	# You should have received a copy of the GNU Lesser General Public
	# License along with this library; if not, see <http://www.gnu.org/licenses/>.
	#

	import sys


	class Plot(object):

	# Generated using
	# http://tools.medialab.sciences-po.fr/iwanthue/
	COLORS = ["#CD54D0",
	"#79D94C",
	"#7470CD",
	"#D2D251",
	"#863D79",
	"#76DDA6",
	"#D4467B",
	"#61923D",
	"#CB9CCA",
	"#D98F36",
	"#8CC8DA",
	"#CE4831",
	"#5E7693",
	"#9B803F",
	"#412F4C",
	"#CECBA6",
	"#6D3229",
	"#598B73",
	"#C8827C",
	"#394427"]

	def __init__(self,
	reports,
	migration_iters,
	total_guest_cpu,
	split_guest_cpu,
	qemu_cpu,
	vcpu_cpu):

	self._reports = reports
	self._migration_iters = migration_iters
	self._total_guest_cpu = total_guest_cpu
	self._split_guest_cpu = split_guest_cpu
	self._qemu_cpu = qemu_cpu
	self._vcpu_cpu = vcpu_cpu
	self._color_idx = 0

	def _next_color(self):
	color = self.COLORS[self._color_idx]
	self._color_idx += 1
	if self._color_idx >= len(self.COLORS):
	self._color_idx = 0
	return color

	def _get_progress_label(self, progress):
	if progress:
	return "\n\n" + "\n".join(
	["Status: %s" % progress._status,
	"Iteration: %d" % progress._ram._iterations,
	"Throttle: %02d%%" % progress._throttle_pcent,
	"Dirty rate: %dMB/s" % (progress._ram._dirty_rate_pps * 4 / 1024.0)])
	else:
	return "\n\n" + "\n".join(
	["Status: %s" % "none",
	"Iteration: %d" % 0])

	def _find_start_time(self, report):
	startqemu = report._qemu_timings._records[0]._timestamp
	startguest = report._guest_timings._records[0]._timestamp
	if startqemu < startguest:
	return startqemu
	else:
	return stasrtguest

	def _get_guest_max_value(self, report):
	maxvalue = 0
	for record in report._guest_timings._records:
	if record._value > maxvalue:
	maxvalue = record._value
	return maxvalue

	def _get_qemu_max_value(self, report):
	maxvalue = 0
	oldvalue = None
	oldtime = None
	for record in report._qemu_timings._records:
	if oldvalue is not None:
	cpudelta = (record._value - oldvalue) / 1000.0
	timedelta = record._timestamp - oldtime
	if timedelta == 0:
	continue
	util = cpudelta / timedelta * 100.0
	else:
	util = 0
	oldvalue = record._value
	oldtime = record._timestamp

	if util > maxvalue:
	maxvalue = util
	return maxvalue

	def _get_total_guest_cpu_graph(self, report, starttime):
	xaxis = []
	yaxis = []
	labels = []
	progress_idx = -1
	for record in report._guest_timings._records:
	while ((progress_idx + 1) < len(report._progress_history) and
	report._progress_history[progress_idx + 1]._now < record._timestamp):
	progress_idx = progress_idx + 1

	if progress_idx >= 0:
	progress = report._progress_history[progress_idx]
	else:
	progress = None

	xaxis.append(record._timestamp - starttime)
	yaxis.append(record._value)
	labels.append(self._get_progress_label(progress))

	from plotly import graph_objs as go
	return go.Scatter(x=xaxis,
	y=yaxis,
	name="Guest PIDs: %s" % report._scenario._name,
	mode='lines',
	line={
	"dash": "solid",
	"color": self._next_color(),
	"shape": "linear",
	"width": 1
	},
	text=labels)

	def _get_split_guest_cpu_graphs(self, report, starttime):
	threads = {}
	for record in report._guest_timings._records:
	if record._tid in threads:
	continue
	threads[record._tid] = {
	"xaxis": [],
	"yaxis": [],
	"labels": [],
	}

	progress_idx = -1
	for record in report._guest_timings._records:
	while ((progress_idx + 1) < len(report._progress_history) and
	report._progress_history[progress_idx + 1]._now < record._timestamp):
	progress_idx = progress_idx + 1

	if progress_idx >= 0:
	progress = report._progress_history[progress_idx]
	else:
	progress = None

	threads[record._tid]["xaxis"].append(record._timestamp - starttime)
	threads[record._tid]["yaxis"].append(record._value)
	threads[record._tid]["labels"].append(self._get_progress_label(progress))


	graphs = []
	from plotly import graph_objs as go
	for tid in threads.keys():
	graphs.append(
	go.Scatter(x=threads[tid]["xaxis"],
	y=threads[tid]["yaxis"],
	name="PID %s: %s" % (tid, report._scenario._name),
	mode="lines",
	line={
	"dash": "solid",
	"color": self._next_color(),
	"shape": "linear",
	"width": 1
	},
	text=threads[tid]["labels"]))
	return graphs

	def _get_migration_iters_graph(self, report, starttime):
	xaxis = []
	yaxis = []
	labels = []
	for progress in report._progress_history:
	xaxis.append(progress._now - starttime)
	yaxis.append(0)
	labels.append(self._get_progress_label(progress))

	from plotly import graph_objs as go
	return go.Scatter(x=xaxis,
	y=yaxis,
	text=labels,
	name="Migration iterations",
	mode="markers",
	marker={
	"color": self._next_color(),
	"symbol": "star",
	"size": 5
	})

	def _get_qemu_cpu_graph(self, report, starttime):
	xaxis = []
	yaxis = []
	labels = []
	progress_idx = -1

	first = report._qemu_timings._records[0]
	abstimestamps = [first._timestamp]
	absvalues = [first._value]

	for record in report._qemu_timings._records[1:]:
	while ((progress_idx + 1) < len(report._progress_history) and
	report._progress_history[progress_idx + 1]._now < record._timestamp):
	progress_idx = progress_idx + 1

	if progress_idx >= 0:
	progress = report._progress_history[progress_idx]
	else:
	progress = None

	oldvalue = absvalues[-1]
	oldtime = abstimestamps[-1]

	cpudelta = (record._value - oldvalue) / 1000.0
	timedelta = record._timestamp - oldtime
	if timedelta == 0:
	continue
	util = cpudelta / timedelta * 100.0

	abstimestamps.append(record._timestamp)
	absvalues.append(record._value)

	xaxis.append(record._timestamp - starttime)
	yaxis.append(util)
	labels.append(self._get_progress_label(progress))

	from plotly import graph_objs as go
	return go.Scatter(x=xaxis,
	y=yaxis,
	yaxis="y2",
	name="QEMU: %s" % report._scenario._name,
	mode='lines',
	line={
	"dash": "solid",
	"color": self._next_color(),
	"shape": "linear",
	"width": 1
	},
	text=labels)

	def _get_vcpu_cpu_graphs(self, report, starttime):
	threads = {}
	for record in report._vcpu_timings._records:
	if record._tid in threads:
	continue
	threads[record._tid] = {
	"xaxis": [],
	"yaxis": [],
	"labels": [],
	"absvalue": [record._value],
	"abstime": [record._timestamp],
	}

	progress_idx = -1
	for record in report._vcpu_timings._records:
	while ((progress_idx + 1) < len(report._progress_history) and
	report._progress_history[progress_idx + 1]._now < record._timestamp):
	progress_idx = progress_idx + 1

	if progress_idx >= 0:
	progress = report._progress_history[progress_idx]
	else:
	progress = None

	oldvalue = threads[record._tid]["absvalue"][-1]
	oldtime = threads[record._tid]["abstime"][-1]

	cpudelta = (record._value - oldvalue) / 1000.0
	timedelta = record._timestamp - oldtime
	if timedelta == 0:
	continue
	util = cpudelta / timedelta * 100.0
	if util > 100:
	util = 100

	threads[record._tid]["absvalue"].append(record._value)
	threads[record._tid]["abstime"].append(record._timestamp)

	threads[record._tid]["xaxis"].append(record._timestamp - starttime)
	threads[record._tid]["yaxis"].append(util)
	threads[record._tid]["labels"].append(self._get_progress_label(progress))


	graphs = []
	from plotly import graph_objs as go
	for tid in threads.keys():
	graphs.append(
	go.Scatter(x=threads[tid]["xaxis"],
	y=threads[tid]["yaxis"],
	yaxis="y2",
	name="VCPU %s: %s" % (tid, report._scenario._name),
	mode="lines",
	line={
	"dash": "solid",
	"color": self._next_color(),
	"shape": "linear",
	"width": 1
	},
	text=threads[tid]["labels"]))
	return graphs

	def _generate_chart_report(self, report):
	graphs = []
	starttime = self._find_start_time(report)
	if self._total_guest_cpu:
	graphs.append(self._get_total_guest_cpu_graph(report, starttime))
	if self._split_guest_cpu:
	graphs.extend(self._get_split_guest_cpu_graphs(report, starttime))
	if self._qemu_cpu:
	graphs.append(self._get_qemu_cpu_graph(report, starttime))
	if self._vcpu_cpu:
	graphs.extend(self._get_vcpu_cpu_graphs(report, starttime))
	if self._migration_iters:
	graphs.append(self._get_migration_iters_graph(report, starttime))
	return graphs

	def _generate_annotation(self, starttime, progress):
	return {
	"text": progress._status,
	"x": progress._now - starttime,
	"y": 10,
	}

	def _generate_annotations(self, report):
	starttime = self._find_start_time(report)
	annotations = {}
	started = False
	for progress in report._progress_history:
	if progress._status == "setup":
	continue
	if progress._status not in annotations:
	annotations[progress._status] = self._generate_annotation(starttime, progress)

	return annotations.values()

	def _generate_chart(self):
	from plotly.offline import plot
	from plotly import graph_objs as go

	graphs = []
	yaxismax = 0
	yaxismax2 = 0
	for report in self._reports:
	graphs.extend(self._generate_chart_report(report))

	maxvalue = self._get_guest_max_value(report)
	if maxvalue > yaxismax:
	yaxismax = maxvalue

	maxvalue = self._get_qemu_max_value(report)
	if maxvalue > yaxismax2:
	yaxismax2 = maxvalue

	yaxismax += 100
	if not self._qemu_cpu:
	yaxismax2 = 110
	yaxismax2 += 10

	annotations = []
	if self._migration_iters:
	for report in self._reports:
	annotations.extend(self._generate_annotations(report))

	layout = go.Layout(title="Migration comparison",
	xaxis={
	"title": "Wallclock time (secs)",
	"showgrid": False,
	},
	yaxis={
	"title": "Memory update speed (ms/GB)",
	"showgrid": False,
	"range": [0, yaxismax],
	},
	yaxis2={
	"title": "Hostutilization (%)",
	"overlaying": "y",
	"side": "right",
	"range": [0, yaxismax2],
	"showgrid": False,
	},
	annotations=annotations)

	figure = go.Figure(data=graphs, layout=layout)

	return plot(figure,
	show_link=False,
	include_plotlyjs=False,
	output_type="div")


	def _generate_report(self):
	pieces = []
	for report in self._reports:
	pieces.append("""
	<h3>Report %s</h3>
	<table>
	""" % report._scenario._name)

	pieces.append("""
	<tr class="subhead">
	<th colspan="2">Test config</th>
	</tr>
	<tr>
	<th>Emulator:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Kernel:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Ramdisk:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Transport:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Host:</th>
	<td>%s</td>
	</tr>
	""" % (report._binary, report._kernel,
	report._initrd, report._transport, report._dst_host))

	hardware = report._hardware
	pieces.append("""
	<tr class="subhead">
	<th colspan="2">Hardware config</th>
	</tr>
	<tr>
	<th>CPUs:</th>
	<td>%d</td>
	</tr>
	<tr>
	<th>RAM:</th>
	<td>%d GB</td>
	</tr>
	<tr>
	<th>Source CPU bind:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Source RAM bind:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Dest CPU bind:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Dest RAM bind:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Preallocate RAM:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Locked RAM:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Huge pages:</th>
	<td>%s</td>
	</tr>
	""" % (hardware._cpus, hardware._mem,
	",".join(hardware._src_cpu_bind),
	",".join(hardware._src_mem_bind),
	",".join(hardware._dst_cpu_bind),
	",".join(hardware._dst_mem_bind),
	"yes" if hardware._prealloc_pages else "no",
	"yes" if hardware._locked_pages else "no",
	"yes" if hardware._huge_pages else "no"))

	scenario = report._scenario
	pieces.append("""
	<tr class="subhead">
	<th colspan="2">Scenario config</th>
	</tr>
	<tr>
	<th>Max downtime:</th>
	<td>%d milli-sec</td>
	</tr>
	<tr>
	<th>Max bandwidth:</th>
	<td>%d MB/sec</td>
	</tr>
	<tr>
	<th>Max iters:</th>
	<td>%d</td>
	</tr>
	<tr>
	<th>Max time:</th>
	<td>%d secs</td>
	</tr>
	<tr>
	<th>Pause:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Pause iters:</th>
	<td>%d</td>
	</tr>
	<tr>
	<th>Post-copy:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Post-copy iters:</th>
	<td>%d</td>
	</tr>
	<tr>
	<th>Auto-converge:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>Auto-converge iters:</th>
	<td>%d</td>
	</tr>
	<tr>
	<th>MT compression:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>MT compression threads:</th>
	<td>%d</td>
	</tr>
	<tr>
	<th>XBZRLE compression:</th>
	<td>%s</td>
	</tr>
	<tr>
	<th>XBZRLE compression cache:</th>
	<td>%d%% of RAM</td>
	</tr>
	""" % (scenario._downtime, scenario._bandwidth,
	scenario._max_iters, scenario._max_time,
	"yes" if scenario._pause else "no", scenario._pause_iters,
	"yes" if scenario._post_copy else "no", scenario._post_copy_iters,
	"yes" if scenario._auto_converge else "no", scenario._auto_converge_step,
	"yes" if scenario._compression_mt else "no", scenario._compression_mt_threads,
	"yes" if scenario._compression_xbzrle else "no", scenario._compression_xbzrle_cache))

	pieces.append("""
	</table>
	""")

	return "\n".join(pieces)

	def _generate_style(self):
	return """
	#report table tr th {
	text-align: right;
	}
	#report table tr td {
	text-align: left;
	}
	#report table tr.subhead th {
	background: rgb(192, 192, 192);
	text-align: center;
	}

	"""

	def generate_html(self, fh):
	print >>fh, """<html>
	<head>
	<script type="text/javascript" src="plotly.min.js">
	</script>
	<style type="text/css">
	%s
	</style>
	<title>Migration report</title>
	</head>
	<body>
	<h1>Migration report</h1>
	<h2>Chart summary</h2>
	<div id="chart">
	""" % self._generate_style()
	print >>fh, self._generate_chart()
	print >>fh, """
	</div>
	<h2>Report details</h2>
	<div id="report">
	"""
	print >>fh, self._generate_report()
	print >>fh, """
	</div>
	</body>
	</html>
	"""

	def generate(self, filename):
	if filename is None:
	self.generate_html(sys.stdout)
	else:
	with open(filename, "w") as fh:
	self.generate_html(fh)