1# 2# Migration test graph plotting 3# 4# Copyright (c) 2016 Red Hat, Inc. 5# 6# This library is free software; you can redistribute it and/or 7# modify it under the terms of the GNU Lesser General Public 8# License as published by the Free Software Foundation; either 9# version 2 of the License, or (at your option) any later version. 10# 11# This library is distributed in the hope that it will be useful, 12# but WITHOUT ANY WARRANTY; without even the implied warranty of 13# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 14# Lesser General Public License for more details. 15# 16# You should have received a copy of the GNU Lesser General Public 17# License along with this library; if not, see <http://www.gnu.org/licenses/>. 18# 19 20import sys 21 22 23class Plot(object): 24 25 # Generated using 26 # http://tools.medialab.sciences-po.fr/iwanthue/ 27 COLORS = ["#CD54D0", 28 "#79D94C", 29 "#7470CD", 30 "#D2D251", 31 "#863D79", 32 "#76DDA6", 33 "#D4467B", 34 "#61923D", 35 "#CB9CCA", 36 "#D98F36", 37 "#8CC8DA", 38 "#CE4831", 39 "#5E7693", 40 "#9B803F", 41 "#412F4C", 42 "#CECBA6", 43 "#6D3229", 44 "#598B73", 45 "#C8827C", 46 "#394427"] 47 48 def __init__(self, 49 reports, 50 migration_iters, 51 total_guest_cpu, 52 split_guest_cpu, 53 qemu_cpu, 54 vcpu_cpu): 55 56 self._reports = reports 57 self._migration_iters = migration_iters 58 self._total_guest_cpu = total_guest_cpu 59 self._split_guest_cpu = split_guest_cpu 60 self._qemu_cpu = qemu_cpu 61 self._vcpu_cpu = vcpu_cpu 62 self._color_idx = 0 63 64 def _next_color(self): 65 color = self.COLORS[self._color_idx] 66 self._color_idx += 1 67 if self._color_idx >= len(self.COLORS): 68 self._color_idx = 0 69 return color 70 71 def _get_progress_label(self, progress): 72 if progress: 73 return "\n\n" + "\n".join( 74 ["Status: %s" % progress._status, 75 "Iteration: %d" % progress._ram._iterations, 76 "Throttle: %02d%%" % progress._throttle_pcent, 77 "Dirty rate: %dMB/s" % (progress._ram._dirty_rate_pps * 4 / 1024.0)]) 78 else: 79 return "\n\n" + "\n".join( 80 ["Status: %s" % "none", 81 "Iteration: %d" % 0]) 82 83 def _find_start_time(self, report): 84 startqemu = report._qemu_timings._records[0]._timestamp 85 startguest = report._guest_timings._records[0]._timestamp 86 if startqemu < startguest: 87 return startqemu 88 else: 89 return stasrtguest 90 91 def _get_guest_max_value(self, report): 92 maxvalue = 0 93 for record in report._guest_timings._records: 94 if record._value > maxvalue: 95 maxvalue = record._value 96 return maxvalue 97 98 def _get_qemu_max_value(self, report): 99 maxvalue = 0 100 oldvalue = None 101 oldtime = None 102 for record in report._qemu_timings._records: 103 if oldvalue is not None: 104 cpudelta = (record._value - oldvalue) / 1000.0 105 timedelta = record._timestamp - oldtime 106 if timedelta == 0: 107 continue 108 util = cpudelta / timedelta * 100.0 109 else: 110 util = 0 111 oldvalue = record._value 112 oldtime = record._timestamp 113 114 if util > maxvalue: 115 maxvalue = util 116 return maxvalue 117 118 def _get_total_guest_cpu_graph(self, report, starttime): 119 xaxis = [] 120 yaxis = [] 121 labels = [] 122 progress_idx = -1 123 for record in report._guest_timings._records: 124 while ((progress_idx + 1) < len(report._progress_history) and 125 report._progress_history[progress_idx + 1]._now < record._timestamp): 126 progress_idx = progress_idx + 1 127 128 if progress_idx >= 0: 129 progress = report._progress_history[progress_idx] 130 else: 131 progress = None 132 133 xaxis.append(record._timestamp - starttime) 134 yaxis.append(record._value) 135 labels.append(self._get_progress_label(progress)) 136 137 from plotly import graph_objs as go 138 return go.Scatter(x=xaxis, 139 y=yaxis, 140 name="Guest PIDs: %s" % report._scenario._name, 141 mode='lines', 142 line={ 143 "dash": "solid", 144 "color": self._next_color(), 145 "shape": "linear", 146 "width": 1 147 }, 148 text=labels) 149 150 def _get_split_guest_cpu_graphs(self, report, starttime): 151 threads = {} 152 for record in report._guest_timings._records: 153 if record._tid in threads: 154 continue 155 threads[record._tid] = { 156 "xaxis": [], 157 "yaxis": [], 158 "labels": [], 159 } 160 161 progress_idx = -1 162 for record in report._guest_timings._records: 163 while ((progress_idx + 1) < len(report._progress_history) and 164 report._progress_history[progress_idx + 1]._now < record._timestamp): 165 progress_idx = progress_idx + 1 166 167 if progress_idx >= 0: 168 progress = report._progress_history[progress_idx] 169 else: 170 progress = None 171 172 threads[record._tid]["xaxis"].append(record._timestamp - starttime) 173 threads[record._tid]["yaxis"].append(record._value) 174 threads[record._tid]["labels"].append(self._get_progress_label(progress)) 175 176 177 graphs = [] 178 from plotly import graph_objs as go 179 for tid in threads.keys(): 180 graphs.append( 181 go.Scatter(x=threads[tid]["xaxis"], 182 y=threads[tid]["yaxis"], 183 name="PID %s: %s" % (tid, report._scenario._name), 184 mode="lines", 185 line={ 186 "dash": "solid", 187 "color": self._next_color(), 188 "shape": "linear", 189 "width": 1 190 }, 191 text=threads[tid]["labels"])) 192 return graphs 193 194 def _get_migration_iters_graph(self, report, starttime): 195 xaxis = [] 196 yaxis = [] 197 labels = [] 198 for progress in report._progress_history: 199 xaxis.append(progress._now - starttime) 200 yaxis.append(0) 201 labels.append(self._get_progress_label(progress)) 202 203 from plotly import graph_objs as go 204 return go.Scatter(x=xaxis, 205 y=yaxis, 206 text=labels, 207 name="Migration iterations", 208 mode="markers", 209 marker={ 210 "color": self._next_color(), 211 "symbol": "star", 212 "size": 5 213 }) 214 215 def _get_qemu_cpu_graph(self, report, starttime): 216 xaxis = [] 217 yaxis = [] 218 labels = [] 219 progress_idx = -1 220 221 first = report._qemu_timings._records[0] 222 abstimestamps = [first._timestamp] 223 absvalues = [first._value] 224 225 for record in report._qemu_timings._records[1:]: 226 while ((progress_idx + 1) < len(report._progress_history) and 227 report._progress_history[progress_idx + 1]._now < record._timestamp): 228 progress_idx = progress_idx + 1 229 230 if progress_idx >= 0: 231 progress = report._progress_history[progress_idx] 232 else: 233 progress = None 234 235 oldvalue = absvalues[-1] 236 oldtime = abstimestamps[-1] 237 238 cpudelta = (record._value - oldvalue) / 1000.0 239 timedelta = record._timestamp - oldtime 240 if timedelta == 0: 241 continue 242 util = cpudelta / timedelta * 100.0 243 244 abstimestamps.append(record._timestamp) 245 absvalues.append(record._value) 246 247 xaxis.append(record._timestamp - starttime) 248 yaxis.append(util) 249 labels.append(self._get_progress_label(progress)) 250 251 from plotly import graph_objs as go 252 return go.Scatter(x=xaxis, 253 y=yaxis, 254 yaxis="y2", 255 name="QEMU: %s" % report._scenario._name, 256 mode='lines', 257 line={ 258 "dash": "solid", 259 "color": self._next_color(), 260 "shape": "linear", 261 "width": 1 262 }, 263 text=labels) 264 265 def _get_vcpu_cpu_graphs(self, report, starttime): 266 threads = {} 267 for record in report._vcpu_timings._records: 268 if record._tid in threads: 269 continue 270 threads[record._tid] = { 271 "xaxis": [], 272 "yaxis": [], 273 "labels": [], 274 "absvalue": [record._value], 275 "abstime": [record._timestamp], 276 } 277 278 progress_idx = -1 279 for record in report._vcpu_timings._records: 280 while ((progress_idx + 1) < len(report._progress_history) and 281 report._progress_history[progress_idx + 1]._now < record._timestamp): 282 progress_idx = progress_idx + 1 283 284 if progress_idx >= 0: 285 progress = report._progress_history[progress_idx] 286 else: 287 progress = None 288 289 oldvalue = threads[record._tid]["absvalue"][-1] 290 oldtime = threads[record._tid]["abstime"][-1] 291 292 cpudelta = (record._value - oldvalue) / 1000.0 293 timedelta = record._timestamp - oldtime 294 if timedelta == 0: 295 continue 296 util = cpudelta / timedelta * 100.0 297 if util > 100: 298 util = 100 299 300 threads[record._tid]["absvalue"].append(record._value) 301 threads[record._tid]["abstime"].append(record._timestamp) 302 303 threads[record._tid]["xaxis"].append(record._timestamp - starttime) 304 threads[record._tid]["yaxis"].append(util) 305 threads[record._tid]["labels"].append(self._get_progress_label(progress)) 306 307 308 graphs = [] 309 from plotly import graph_objs as go 310 for tid in threads.keys(): 311 graphs.append( 312 go.Scatter(x=threads[tid]["xaxis"], 313 y=threads[tid]["yaxis"], 314 yaxis="y2", 315 name="VCPU %s: %s" % (tid, report._scenario._name), 316 mode="lines", 317 line={ 318 "dash": "solid", 319 "color": self._next_color(), 320 "shape": "linear", 321 "width": 1 322 }, 323 text=threads[tid]["labels"])) 324 return graphs 325 326 def _generate_chart_report(self, report): 327 graphs = [] 328 starttime = self._find_start_time(report) 329 if self._total_guest_cpu: 330 graphs.append(self._get_total_guest_cpu_graph(report, starttime)) 331 if self._split_guest_cpu: 332 graphs.extend(self._get_split_guest_cpu_graphs(report, starttime)) 333 if self._qemu_cpu: 334 graphs.append(self._get_qemu_cpu_graph(report, starttime)) 335 if self._vcpu_cpu: 336 graphs.extend(self._get_vcpu_cpu_graphs(report, starttime)) 337 if self._migration_iters: 338 graphs.append(self._get_migration_iters_graph(report, starttime)) 339 return graphs 340 341 def _generate_annotation(self, starttime, progress): 342 return { 343 "text": progress._status, 344 "x": progress._now - starttime, 345 "y": 10, 346 } 347 348 def _generate_annotations(self, report): 349 starttime = self._find_start_time(report) 350 annotations = {} 351 started = False 352 for progress in report._progress_history: 353 if progress._status == "setup": 354 continue 355 if progress._status not in annotations: 356 annotations[progress._status] = self._generate_annotation(starttime, progress) 357 358 return annotations.values() 359 360 def _generate_chart(self): 361 from plotly.offline import plot 362 from plotly import graph_objs as go 363 364 graphs = [] 365 yaxismax = 0 366 yaxismax2 = 0 367 for report in self._reports: 368 graphs.extend(self._generate_chart_report(report)) 369 370 maxvalue = self._get_guest_max_value(report) 371 if maxvalue > yaxismax: 372 yaxismax = maxvalue 373 374 maxvalue = self._get_qemu_max_value(report) 375 if maxvalue > yaxismax2: 376 yaxismax2 = maxvalue 377 378 yaxismax += 100 379 if not self._qemu_cpu: 380 yaxismax2 = 110 381 yaxismax2 += 10 382 383 annotations = [] 384 if self._migration_iters: 385 for report in self._reports: 386 annotations.extend(self._generate_annotations(report)) 387 388 layout = go.Layout(title="Migration comparison", 389 xaxis={ 390 "title": "Wallclock time (secs)", 391 "showgrid": False, 392 }, 393 yaxis={ 394 "title": "Memory update speed (ms/GB)", 395 "showgrid": False, 396 "range": [0, yaxismax], 397 }, 398 yaxis2={ 399 "title": "Hostutilization (%)", 400 "overlaying": "y", 401 "side": "right", 402 "range": [0, yaxismax2], 403 "showgrid": False, 404 }, 405 annotations=annotations) 406 407 figure = go.Figure(data=graphs, layout=layout) 408 409 return plot(figure, 410 show_link=False, 411 include_plotlyjs=False, 412 output_type="div") 413 414 415 def _generate_report(self): 416 pieces = [] 417 for report in self._reports: 418 pieces.append(""" 419<h3>Report %s</h3> 420<table> 421""" % report._scenario._name) 422 423 pieces.append(""" 424 <tr class="subhead"> 425 <th colspan="2">Test config</th> 426 </tr> 427 <tr> 428 <th>Emulator:</th> 429 <td>%s</td> 430 </tr> 431 <tr> 432 <th>Kernel:</th> 433 <td>%s</td> 434 </tr> 435 <tr> 436 <th>Ramdisk:</th> 437 <td>%s</td> 438 </tr> 439 <tr> 440 <th>Transport:</th> 441 <td>%s</td> 442 </tr> 443 <tr> 444 <th>Host:</th> 445 <td>%s</td> 446 </tr> 447""" % (report._binary, report._kernel, 448 report._initrd, report._transport, report._dst_host)) 449 450 hardware = report._hardware 451 pieces.append(""" 452 <tr class="subhead"> 453 <th colspan="2">Hardware config</th> 454 </tr> 455 <tr> 456 <th>CPUs:</th> 457 <td>%d</td> 458 </tr> 459 <tr> 460 <th>RAM:</th> 461 <td>%d GB</td> 462 </tr> 463 <tr> 464 <th>Source CPU bind:</th> 465 <td>%s</td> 466 </tr> 467 <tr> 468 <th>Source RAM bind:</th> 469 <td>%s</td> 470 </tr> 471 <tr> 472 <th>Dest CPU bind:</th> 473 <td>%s</td> 474 </tr> 475 <tr> 476 <th>Dest RAM bind:</th> 477 <td>%s</td> 478 </tr> 479 <tr> 480 <th>Preallocate RAM:</th> 481 <td>%s</td> 482 </tr> 483 <tr> 484 <th>Locked RAM:</th> 485 <td>%s</td> 486 </tr> 487 <tr> 488 <th>Huge pages:</th> 489 <td>%s</td> 490 </tr> 491""" % (hardware._cpus, hardware._mem, 492 ",".join(hardware._src_cpu_bind), 493 ",".join(hardware._src_mem_bind), 494 ",".join(hardware._dst_cpu_bind), 495 ",".join(hardware._dst_mem_bind), 496 "yes" if hardware._prealloc_pages else "no", 497 "yes" if hardware._locked_pages else "no", 498 "yes" if hardware._huge_pages else "no")) 499 500 scenario = report._scenario 501 pieces.append(""" 502 <tr class="subhead"> 503 <th colspan="2">Scenario config</th> 504 </tr> 505 <tr> 506 <th>Max downtime:</th> 507 <td>%d milli-sec</td> 508 </tr> 509 <tr> 510 <th>Max bandwidth:</th> 511 <td>%d MB/sec</td> 512 </tr> 513 <tr> 514 <th>Max iters:</th> 515 <td>%d</td> 516 </tr> 517 <tr> 518 <th>Max time:</th> 519 <td>%d secs</td> 520 </tr> 521 <tr> 522 <th>Pause:</th> 523 <td>%s</td> 524 </tr> 525 <tr> 526 <th>Pause iters:</th> 527 <td>%d</td> 528 </tr> 529 <tr> 530 <th>Post-copy:</th> 531 <td>%s</td> 532 </tr> 533 <tr> 534 <th>Post-copy iters:</th> 535 <td>%d</td> 536 </tr> 537 <tr> 538 <th>Auto-converge:</th> 539 <td>%s</td> 540 </tr> 541 <tr> 542 <th>Auto-converge iters:</th> 543 <td>%d</td> 544 </tr> 545 <tr> 546 <th>MT compression:</th> 547 <td>%s</td> 548 </tr> 549 <tr> 550 <th>MT compression threads:</th> 551 <td>%d</td> 552 </tr> 553 <tr> 554 <th>XBZRLE compression:</th> 555 <td>%s</td> 556 </tr> 557 <tr> 558 <th>XBZRLE compression cache:</th> 559 <td>%d%% of RAM</td> 560 </tr> 561""" % (scenario._downtime, scenario._bandwidth, 562 scenario._max_iters, scenario._max_time, 563 "yes" if scenario._pause else "no", scenario._pause_iters, 564 "yes" if scenario._post_copy else "no", scenario._post_copy_iters, 565 "yes" if scenario._auto_converge else "no", scenario._auto_converge_step, 566 "yes" if scenario._compression_mt else "no", scenario._compression_mt_threads, 567 "yes" if scenario._compression_xbzrle else "no", scenario._compression_xbzrle_cache)) 568 569 pieces.append(""" 570</table> 571""") 572 573 return "\n".join(pieces) 574 575 def _generate_style(self): 576 return """ 577#report table tr th { 578 text-align: right; 579} 580#report table tr td { 581 text-align: left; 582} 583#report table tr.subhead th { 584 background: rgb(192, 192, 192); 585 text-align: center; 586} 587 588""" 589 590 def generate_html(self, fh): 591 print >>fh, """<html> 592 <head> 593 <script type="text/javascript" src="plotly.min.js"> 594 </script> 595 <style type="text/css"> 596%s 597 </style> 598 <title>Migration report</title> 599 </head> 600 <body> 601 <h1>Migration report</h1> 602 <h2>Chart summary</h2> 603 <div id="chart"> 604""" % self._generate_style() 605 print >>fh, self._generate_chart() 606 print >>fh, """ 607 </div> 608 <h2>Report details</h2> 609 <div id="report"> 610""" 611 print >>fh, self._generate_report() 612 print >>fh, """ 613 </div> 614 </body> 615</html> 616""" 617 618 def generate(self, filename): 619 if filename is None: 620 self.generate_html(sys.stdout) 621 else: 622 with open(filename, "w") as fh: 623 self.generate_html(fh) 624