1#!/usr/bin/python 2# 3# Copyright (C) 2010 The Android Open Source Project 4# 5# Licensed under the Apache License, Version 2.0 (the "License"); 6# you may not use this file except in compliance with the License. 7# You may obtain a copy of the License at 8# 9# http://www.apache.org/licenses/LICENSE-2.0 10# 11# Unless required by applicable law or agreed to in writing, software 12# distributed under the License is distributed on an "AS IS" BASIS, 13# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14# See the License for the specific language governing permissions and 15# limitations under the License. 16 17import cgi 18import csv 19import json 20import math 21import os 22import re 23import sys 24import time 25import urllib 26 27"""Interpret output from procstatlog and write an HTML report file.""" 28 29 30# TODO: Rethink dygraph-combined.js source URL? 31PAGE_BEGIN = """ 32<html><head> 33<title>%(filename)s</title> 34<script type="text/javascript" src="http://www.corp.google.com/~egnor/no_crawl/dygraph-combined.js"></script> 35<script> 36var allCharts = []; 37var inDrawCallback = false; 38 39OnDraw = function(me, initial) { 40 if (inDrawCallback || initial) return; 41 inDrawCallback = true; 42 var range = me.xAxisRange(); 43 for (var j = 0; j < allCharts.length; j++) { 44 if (allCharts[j] == me) continue; 45 allCharts[j].updateOptions({dateWindow: range}); 46 } 47 inDrawCallback = false; 48} 49 50MakeChart = function(id, filename, options) { 51 options.width = "75%%"; 52 options.xTicker = Dygraph.dateTicker; 53 options.xValueFormatter = Dygraph.dateString_; 54 options.xAxisLabelFormatter = Dygraph.dateAxisFormatter; 55 options.drawCallback = OnDraw; 56 allCharts.push(new Dygraph(document.getElementById(id), filename, options)); 57} 58</script> 59</head><body> 60<p> 61<span style="font-size: 150%%">%(filename)s</span> 62- stat report generated by %(user)s on %(date)s</p> 63<table cellpadding=0 cellspacing=0 margin=0 border=0> 64""" 65 66CHART = """ 67<tr> 68<td valign=top width=25%%>%(label_html)s</td> 69<td id="%(id)s"> </td> 70</tr> 71<script> 72MakeChart(%(id_js)s, %(filename_js)s, %(options_js)s) 73 74</script> 75""" 76 77SPACER = """ 78<tr><td colspan=2 height=20> </td></tr> 79""" 80 81TOTAL_CPU_LABEL = """ 82<b style="font-size: 150%%">Total CPU</b><br> 83jiffies: <nobr>%(sys)d sys</nobr>, <nobr>%(user)d user</nobr> 84""" 85 86CPU_SPEED_LABEL = """ 87<nobr>average CPU speed</nobr> 88""" 89 90CONTEXT_LABEL = """ 91context: <nobr>%(switches)d switches</nobr> 92""" 93 94FAULTS_LABEL = """ 95<nobr>page faults:</nobr> <nobr>%(major)d major</nobr> 96""" 97 98BINDER_LABEL = """ 99binder: <nobr>%(calls)d calls</nobr> 100""" 101 102PROC_CPU_LABEL = """ 103<span style="font-size: 150%%">%(process)s</span> (%(pid)d)<br> 104jiffies: <nobr>%(sys)d sys</nobr>, <nobr>%(user)d user</nobr> 105</div> 106""" 107 108YAFFS_LABEL = """ 109<span style="font-size: 150%%">yaffs: %(partition)s</span><br> 110pages: <nobr>%(nPageReads)d read</nobr>, 111<nobr>%(nPageWrites)d written</nobr><br> 112blocks: <nobr>%(nBlockErasures)d erased</nobr> 113""" 114 115DISK_LABEL = """ 116<span style="font-size: 150%%">disk: %(device)s</span><br> 117sectors: <nobr>%(reads)d read</nobr>, <nobr>%(writes)d written</nobr> 118""" 119 120DISK_TIME_LABEL = """ 121msec: <nobr>%(msec)d waiting</nobr> 122""" 123 124NET_LABEL = """ 125<span style="font-size: 150%%">net: %(interface)s</span><br> 126bytes: <nobr>%(tx)d tx</nobr>, 127<nobr>%(rx)d rx</nobr> 128""" 129 130PAGE_END = """ 131</table></body></html> 132""" 133 134 135def WriteChartData(titles, datasets, filename): 136 writer = csv.writer(file(filename, "w")) 137 writer.writerow(["Time"] + titles) 138 139 merged_rows = {} 140 for set_num, data in enumerate(datasets): 141 for when, datum in data.iteritems(): 142 if type(datum) == tuple: datum = "%d/%d" % datum 143 merged_rows.setdefault(when, {})[set_num] = datum 144 145 num_cols = len(datasets) 146 for when, values in sorted(merged_rows.iteritems()): 147 msec = "%d" % (when * 1000) 148 writer.writerow([msec] + [values.get(n, "") for n in range(num_cols)]) 149 150 151def WriteOutput(history, log_filename, filename): 152 out = [] 153 154 out.append(PAGE_BEGIN % { 155 "filename": cgi.escape(log_filename), 156 "user": cgi.escape(os.environ.get("USER", "unknown")), 157 "date": cgi.escape(time.ctime()), 158 }) 159 160 files_dir = "%s_files" % os.path.splitext(filename)[0] 161 files_url = os.path.basename(files_dir) 162 if not os.path.isdir(files_dir): os.makedirs(files_dir) 163 164 sorted_history = sorted(history.iteritems()) 165 date_window = [1000 * sorted_history[1][0], 1000 * sorted_history[-1][0]] 166 167 # 168 # Output total CPU statistics 169 # 170 171 sys_jiffies = {} 172 sys_user_jiffies = {} 173 all_jiffies = {} 174 total_sys = total_user = 0 175 176 last_state = {} 177 for when, state in sorted_history: 178 last = last_state.get("/proc/stat:cpu", "").split() 179 next = state.get("/proc/stat:cpu", "").split() 180 if last and next: 181 stime = sum([int(next[x]) - int(last[x]) for x in [2, 5, 6]]) 182 utime = sum([int(next[x]) - int(last[x]) for x in [0, 1]]) 183 idle = sum([int(next[x]) - int(last[x]) for x in [3, 4]]) 184 all = stime + utime + idle 185 total_sys += stime 186 total_user += utime 187 188 sys_jiffies[when] = (stime, all) 189 sys_user_jiffies[when] = (stime + utime, all) 190 all_jiffies[when] = all 191 192 last_state = state 193 194 WriteChartData( 195 ["sys", "sys+user"], 196 [sys_jiffies, sys_user_jiffies], 197 os.path.join(files_dir, "total_cpu.csv")) 198 199 out.append(CHART % { 200 "id": cgi.escape("total_cpu"), 201 "id_js": json.write("total_cpu"), 202 "label_html": TOTAL_CPU_LABEL % {"sys": total_sys, "user": total_user}, 203 "filename_js": json.write(files_url + "/total_cpu.csv"), 204 "options_js": json.write({ 205 "colors": ["blue", "green"], 206 "dateWindow": date_window, 207 "fillGraph": True, 208 "fractions": True, 209 "height": 100, 210 "valueRange": [0, 110], 211 }), 212 }) 213 214 # 215 # Output CPU speed statistics 216 # 217 218 cpu_speed = {} 219 speed_key = "/sys/devices/system/cpu/cpu0/cpufreq/stats/time_in_state:" 220 221 last_state = {} 222 for when, state in sorted_history: 223 total_time = total_cycles = 0 224 for key in state: 225 if not key.startswith(speed_key): continue 226 227 last = int(last_state.get(key, -1)) 228 next = int(state.get(key, -1)) 229 if last != -1 and next != -1: 230 speed = int(key[len(speed_key):]) 231 total_time += next - last 232 total_cycles += (next - last) * speed 233 234 if total_time > 0: cpu_speed[when] = total_cycles / total_time 235 last_state = state 236 237 WriteChartData( 238 ["kHz"], [cpu_speed], 239 os.path.join(files_dir, "cpu_speed.csv")) 240 241 out.append(CHART % { 242 "id": cgi.escape("cpu_speed"), 243 "id_js": json.write("cpu_speed"), 244 "label_html": CPU_SPEED_LABEL, 245 "filename_js": json.write(files_url + "/cpu_speed.csv"), 246 "options_js": json.write({ 247 "colors": ["navy"], 248 "dateWindow": date_window, 249 "fillGraph": True, 250 "height": 50, 251 "includeZero": True, 252 }), 253 }) 254 255 # 256 # Output total context switch statistics 257 # 258 259 context_switches = {} 260 261 last_state = {} 262 for when, state in sorted_history: 263 last = int(last_state.get("/proc/stat:ctxt", -1)) 264 next = int(state.get("/proc/stat:ctxt", -1)) 265 if last != -1 and next != -1: context_switches[when] = next - last 266 last_state = state 267 268 WriteChartData( 269 ["switches"], [context_switches], 270 os.path.join(files_dir, "context_switches.csv")) 271 272 total_switches = sum(context_switches.values()) 273 out.append(CHART % { 274 "id": cgi.escape("context_switches"), 275 "id_js": json.write("context_switches"), 276 "label_html": CONTEXT_LABEL % {"switches": total_switches}, 277 "filename_js": json.write(files_url + "/context_switches.csv"), 278 "options_js": json.write({ 279 "colors": ["blue"], 280 "dateWindow": date_window, 281 "fillGraph": True, 282 "height": 50, 283 "includeZero": True, 284 }), 285 }) 286 287 # 288 # Collect (no output yet) per-process CPU and major faults 289 # 290 291 process_name = {} 292 process_start = {} 293 process_sys = {} 294 process_sys_user = {} 295 296 process_faults = {} 297 total_faults = {} 298 max_faults = 0 299 300 last_state = {} 301 zero_stat = "0 (zero) Z 0 0 0 0 0 0 0 0 0 0 0 0" 302 for when, state in sorted_history: 303 for key in state: 304 if not key.endswith("/stat"): continue 305 306 last = last_state.get(key, zero_stat).split() 307 next = state.get(key, "").split() 308 if not next: continue 309 310 pid = int(next[0]) 311 process_start.setdefault(pid, when) 312 process_name[pid] = next[1][1:-1] 313 314 all = all_jiffies.get(when, 0) 315 if not all: continue 316 317 faults = int(next[11]) - int(last[11]) 318 process_faults.setdefault(pid, {})[when] = faults 319 tf = total_faults[when] = total_faults.get(when, 0) + faults 320 max_faults = max(max_faults, tf) 321 322 stime = int(next[14]) - int(last[14]) 323 utime = int(next[13]) - int(last[13]) 324 process_sys.setdefault(pid, {})[when] = (stime, all) 325 process_sys_user.setdefault(pid, {})[when] = (stime + utime, all) 326 327 last_state = state 328 329 # 330 # Output total major faults (sum over all processes) 331 # 332 333 WriteChartData( 334 ["major"], [total_faults], 335 os.path.join(files_dir, "total_faults.csv")) 336 337 out.append(CHART % { 338 "id": cgi.escape("total_faults"), 339 "id_js": json.write("total_faults"), 340 "label_html": FAULTS_LABEL % {"major": sum(total_faults.values())}, 341 "filename_js": json.write(files_url + "/total_faults.csv"), 342 "options_js": json.write({ 343 "colors": ["gray"], 344 "dateWindow": date_window, 345 "fillGraph": True, 346 "height": 50, 347 "valueRange": [0, max_faults * 11 / 10], 348 }), 349 }) 350 351 # 352 # Output binder transaactions 353 # 354 355 binder_calls = {} 356 357 last_state = {} 358 for when, state in sorted_history: 359 last = int(last_state.get("/proc/binder/stats:BC_TRANSACTION", -1)) 360 next = int(state.get("/proc/binder/stats:BC_TRANSACTION", -1)) 361 if last != -1 and next != -1: binder_calls[when] = next - last 362 last_state = state 363 364 WriteChartData( 365 ["calls"], [binder_calls], 366 os.path.join(files_dir, "binder_calls.csv")) 367 368 out.append(CHART % { 369 "id": cgi.escape("binder_calls"), 370 "id_js": json.write("binder_calls"), 371 "label_html": BINDER_LABEL % {"calls": sum(binder_calls.values())}, 372 "filename_js": json.write(files_url + "/binder_calls.csv"), 373 "options_js": json.write({ 374 "colors": ["green"], 375 "dateWindow": date_window, 376 "fillGraph": True, 377 "height": 50, 378 "includeZero": True, 379 }) 380 }) 381 382 # 383 # Output network interface statistics 384 # 385 386 if out[-1] != SPACER: out.append(SPACER) 387 388 interface_rx = {} 389 interface_tx = {} 390 max_bytes = 0 391 392 last_state = {} 393 for when, state in sorted_history: 394 for key in state: 395 if not key.startswith("/proc/net/dev:"): continue 396 397 last = last_state.get(key, "").split() 398 next = state.get(key, "").split() 399 if not (last and next): continue 400 401 rx = int(next[0]) - int(last[0]) 402 tx = int(next[8]) - int(last[8]) 403 max_bytes = max(max_bytes, rx, tx) 404 405 net, interface = key.split(":", 1) 406 interface_rx.setdefault(interface, {})[when] = rx 407 interface_tx.setdefault(interface, {})[when] = tx 408 409 last_state = state 410 411 for num, interface in enumerate(sorted(interface_rx.keys())): 412 rx, tx = interface_rx[interface], interface_tx[interface] 413 total_rx, total_tx = sum(rx.values()), sum(tx.values()) 414 if not (total_rx or total_tx): continue 415 416 WriteChartData( 417 ["rx", "tx"], [rx, tx], 418 os.path.join(files_dir, "net%d.csv" % num)) 419 420 out.append(CHART % { 421 "id": cgi.escape("net%d" % num), 422 "id_js": json.write("net%d" % num), 423 "label_html": NET_LABEL % { 424 "interface": cgi.escape(interface), 425 "rx": total_rx, 426 "tx": total_tx 427 }, 428 "filename_js": json.write("%s/net%d.csv" % (files_url, num)), 429 "options_js": json.write({ 430 "colors": ["black", "purple"], 431 "dateWindow": date_window, 432 "fillGraph": True, 433 "height": 75, 434 "valueRange": [0, max_bytes * 11 / 10], 435 }) 436 }) 437 438 # 439 # Output YAFFS statistics 440 # 441 442 if out[-1] != SPACER: out.append(SPACER) 443 444 yaffs_vars = ["nBlockErasures", "nPageReads", "nPageWrites"] 445 partition_ops = {} 446 447 last_state = {} 448 for when, state in sorted_history: 449 for key in state: 450 if not key.startswith("/proc/yaffs:"): continue 451 452 last = int(last_state.get(key, -1)) 453 next = int(state.get(key, -1)) 454 if last == -1 or next == -1: continue 455 456 value = next - last 457 yaffs, partition, var = key.split(":", 2) 458 ops = partition_ops.setdefault(partition, {}) 459 if var in yaffs_vars: 460 ops.setdefault(var, {})[when] = value 461 462 last_state = state 463 464 for num, (partition, ops) in enumerate(sorted(partition_ops.iteritems())): 465 totals = [sum(ops.get(var, {}).values()) for var in yaffs_vars] 466 if not sum(totals): continue 467 468 WriteChartData( 469 yaffs_vars, 470 [ops.get(var, {}) for var in yaffs_vars], 471 os.path.join(files_dir, "yaffs%d.csv" % num)) 472 473 values = {"partition": partition} 474 values.update(zip(yaffs_vars, totals)) 475 out.append(CHART % { 476 "id": cgi.escape("yaffs%d" % num), 477 "id_js": json.write("yaffs%d" % num), 478 "label_html": YAFFS_LABEL % values, 479 "filename_js": json.write("%s/yaffs%d.csv" % (files_url, num)), 480 "options_js": json.write({ 481 "colors": ["maroon", "gray", "teal"], 482 "dateWindow": date_window, 483 "fillGraph": True, 484 "height": 75, 485 "includeZero": True, 486 }) 487 }) 488 489 # 490 # Output non-YAFFS statistics 491 # 492 493 disk_reads = {} 494 disk_writes = {} 495 disk_msec = {} 496 total_io = max_io = max_msec = 0 497 498 last_state = {} 499 for when, state in sorted_history: 500 for key in state: 501 if not key.startswith("/proc/diskstats:"): continue 502 503 last = last_state.get(key, "").split() 504 next = state.get(key, "").split() 505 if not (last and next): continue 506 507 reads = int(next[2]) - int(last[2]) 508 writes = int(next[6]) - int(last[6]) 509 msec = int(next[10]) - int(last[10]) 510 total_io += reads + writes 511 max_io = max(max_io, reads, writes) 512 max_msec = max(max_msec, msec) 513 514 diskstats, device = key.split(":", 1) 515 disk_reads.setdefault(device, {})[when] = reads 516 disk_writes.setdefault(device, {})[when] = writes 517 disk_msec.setdefault(device, {})[when] = msec 518 519 last_state = state 520 521 io_cutoff = total_io / 100 522 for num, device in enumerate(sorted(disk_reads.keys())): 523 if [d for d in disk_reads.keys() 524 if d.startswith(device) and d != device]: continue 525 526 reads, writes = disk_reads[device], disk_writes[device] 527 total_reads, total_writes = sum(reads.values()), sum(writes.values()) 528 if total_reads + total_writes <= io_cutoff: continue 529 530 WriteChartData( 531 ["reads", "writes"], [reads, writes], 532 os.path.join(files_dir, "disk%d.csv" % num)) 533 534 out.append(CHART % { 535 "id": cgi.escape("disk%d" % num), 536 "id_js": json.write("disk%d" % num), 537 "label_html": DISK_LABEL % { 538 "device": cgi.escape(device), 539 "reads": total_reads, 540 "writes": total_writes, 541 }, 542 "filename_js": json.write("%s/disk%d.csv" % (files_url, num)), 543 "options_js": json.write({ 544 "colors": ["gray", "teal"], 545 "dateWindow": date_window, 546 "fillGraph": True, 547 "height": 75, 548 "valueRange": [0, max_io * 11 / 10], 549 }), 550 }) 551 552 msec = disk_msec[device] 553 554 WriteChartData( 555 ["msec"], [msec], 556 os.path.join(files_dir, "disk%d_time.csv" % num)) 557 558 out.append(CHART % { 559 "id": cgi.escape("disk%d_time" % num), 560 "id_js": json.write("disk%d_time" % num), 561 "label_html": DISK_TIME_LABEL % {"msec": sum(msec.values())}, 562 "filename_js": json.write("%s/disk%d_time.csv" % (files_url, num)), 563 "options_js": json.write({ 564 "colors": ["blue"], 565 "dateWindow": date_window, 566 "fillGraph": True, 567 "height": 50, 568 "valueRange": [0, max_msec * 11 / 10], 569 }), 570 }) 571 572 # 573 # Output per-process CPU and page faults collected earlier 574 # 575 576 cpu_cutoff = (total_sys + total_user) / 200 577 faults_cutoff = sum(total_faults.values()) / 100 578 for start, pid in sorted([(s, p) for p, s in process_start.iteritems()]): 579 sys = sum([n for n, d in process_sys.get(pid, {}).values()]) 580 sys_user = sum([n for n, d in process_sys_user.get(pid, {}).values()]) 581 if sys_user <= cpu_cutoff: continue 582 583 if out[-1] != SPACER: out.append(SPACER) 584 585 WriteChartData( 586 ["sys", "sys+user"], 587 [process_sys.get(pid, {}), process_sys_user.get(pid, {})], 588 os.path.join(files_dir, "proc%d.csv" % pid)) 589 590 out.append(CHART % { 591 "id": cgi.escape("proc%d" % pid), 592 "id_js": json.write("proc%d" % pid), 593 "label_html": PROC_CPU_LABEL % { 594 "pid": pid, 595 "process": cgi.escape(process_name.get(pid, "(unknown)")), 596 "sys": sys, 597 "user": sys_user - sys, 598 }, 599 "filename_js": json.write("%s/proc%d.csv" % (files_url, pid)), 600 "options_js": json.write({ 601 "colors": ["blue", "green"], 602 "dateWindow": date_window, 603 "fillGraph": True, 604 "fractions": True, 605 "height": 75, 606 "valueRange": [0, 110], 607 }), 608 }) 609 610 faults = sum(process_faults.get(pid, {}).values()) 611 if faults <= faults_cutoff: continue 612 613 WriteChartData( 614 ["major"], [process_faults.get(pid, {})], 615 os.path.join(files_dir, "proc%d_faults.csv" % pid)) 616 617 out.append(CHART % { 618 "id": cgi.escape("proc%d_faults" % pid), 619 "id_js": json.write("proc%d_faults" % pid), 620 "label_html": FAULTS_LABEL % {"major": faults}, 621 "filename_js": json.write("%s/proc%d_faults.csv" % (files_url, pid)), 622 "options_js": json.write({ 623 "colors": ["gray"], 624 "dateWindow": date_window, 625 "fillGraph": True, 626 "height": 50, 627 "valueRange": [0, max_faults * 11 / 10], 628 }), 629 }) 630 631 out.append(PAGE_END) 632 file(filename, "w").write("\n".join(out)) 633 634 635def main(argv): 636 if len(argv) != 3: 637 print >>sys.stderr, "usage: procstatreport.py procstat.log output.html" 638 return 2 639 640 history = {} 641 current_state = {} 642 scan_time = 0.0 643 644 for line in file(argv[1]): 645 if not line.endswith("\n"): continue 646 647 parts = line.split(None, 2) 648 if len(parts) < 2 or parts[1] not in "+-=": 649 print >>sys.stderr, "Invalid input:", line 650 sys.exit(1) 651 652 name, op = parts[:2] 653 654 if name == "T" and op == "+": # timestamp: scan about to begin 655 scan_time = float(line[4:]) 656 continue 657 658 if name == "T" and op == "-": # timestamp: scan complete 659 time = (scan_time + float(line[4:])) / 2.0 660 history[time] = dict(current_state) 661 662 elif op == "-": 663 if name in current_state: del current_state[name] 664 665 else: 666 current_state[name] = "".join(parts[2:]).strip() 667 668 if len(history) < 2: 669 print >>sys.stderr, "error: insufficient history to chart" 670 return 1 671 672 WriteOutput(history, argv[1], argv[2]) 673 674 675if __name__ == "__main__": 676 sys.exit(main(sys.argv)) 677