openpilot_comma/tools/latencylogger/plot_timestamps.py

#!/usr/bin/env python3
import argparse
import json
import matplotlib.patches as mpatches
import matplotlib.pyplot as plt
import sys
from collections import defaultdict

from openpilot.tools.lib.logreader import LogReader

DEMO_ROUTE = "9f583b1d93915c31|2022-05-18--10-49-51--0"

COLORS = ['blue', 'green', 'red', 'yellow', 'orange', 'purple']
PLOT_SERVICES = ['card', 'controlsd']  # , 'boardd']


def plot(lr):
  seen = set()
  aligned = False

  start_time = None
  # dict of services to events per inferred frame
  times = {s: [[]] for s in PLOT_SERVICES}

  first_event = None
  # temp_times = {s: [] for s in PLOT_SERVICES}  # holds only current frame of services

  timestamps = [json.loads(msg.logMessage) for msg in lr if msg.which() == 'logMessage' and 'timestamp' in msg.logMessage]
  # print(timestamps)
  timestamps = sorted(timestamps, key=lambda m: float(m['msg']['timestamp']['time']))

  # closely matches timestamp time
  start_time = next(msg.logMonoTime for msg in lr)

  for jmsg in timestamps:
    if len(times[PLOT_SERVICES[0]]) > 400:
      continue

    # print()
    # print(msg.logMonoTime)
    time = int(jmsg['msg']['timestamp']['time'])
    service = jmsg['ctx']['daemon']
    event = jmsg['msg']['timestamp']['event']
    # print(jmsg)
    # print(seen)

    if service in PLOT_SERVICES and first_event is None:
      first_event = event

    # Align the best we can; wait for all to be seen and this is the first event
    # TODO: detect first logMessage correctly by keeping track of events before aligned
    aligned = aligned or (all(s in seen for s in PLOT_SERVICES) and event == first_event)
    if not aligned:
      seen.add(service)
      continue

    if service in PLOT_SERVICES:

      # new frame when we've seen this event before
      new_frame = event in {e[1] for e in times[service][-1]}
      if new_frame:
        times[service].append([])

      # print(msg.logMonoTime, jmsg)
      print('new_frame', new_frame)
      times[service][-1].append(((time - start_time) * 1e-6, event))

  points = {"x": [], "y": [], "labels": []}
  height = 0.9
  offsets = [[0, -10 * j] for j in range(len(PLOT_SERVICES))]

  fig, ax = plt.subplots()

  for idx, service_times in enumerate(zip(*times.values())):
    print()
    print('idx', idx)
    service_bars = []
    for j, (service, frame_times) in enumerate(zip(times.keys(), service_times)):
      if idx + 1 == len(times[service]):
        break
      print(service, frame_times)
      start = frame_times[0][0]
      # use the first event time from next frame
      end = times[service][idx + 1][0][0]  # frame_times[-1][0]
      print('start, end', start, end)
      service_bars.append((start, end - start))
      for event in frame_times:
        points['x'].append(event[0])
        points['y'].append(idx - j * 1)
        points['labels'].append(event[1])
    print(service_bars)

    # offset = offset_services
    # offset each service
    for j, sb in enumerate(service_bars):
      ax.broken_barh([sb], (idx - height / 2 - j * 1, height), facecolors=[COLORS[j]], alpha=0.5)  # , offsets=offsets)
    # ax.broken_barh(service_bars, (idx - height / 2, height), facecolors=COLORS, alpha=0.5, offsets=offsets)

  scatter = ax.scatter(points['x'], points['y'], marker='d', edgecolor='black')
  txt = ax.text(0, 0, '', ha='center', fontsize=8, color='red')
  ax.set_xlabel('milliseconds')

  plt.legend(handles=[mpatches.Patch(color=COLORS[i], label=PLOT_SERVICES[i]) for i in range(len(PLOT_SERVICES))])

  def hover(event):
    txt.set_text("")
    status, pts = scatter.contains(event)
    txt.set_visible(status)
    if status:
      txt.set_text(points['labels'][pts['ind'][0]])
      txt.set_position((event.xdata, event.ydata + 1))
    event.canvas.draw()

  fig.canvas.mpl_connect("motion_notify_event", hover)

  plt.show()
  # plt.pause(1000)
  return times, points


if __name__ == "__main__":
  # parser = argparse.ArgumentParser(description="A tool for analyzing openpilot's end-to-end latency",
  #                                  formatter_class=argparse.ArgumentDefaultsHelpFormatter)
  # parser.add_argument("--demo", action="store_true", help="Use the demo route instead of providing one")
  # parser.add_argument("route_or_segment_name", nargs='?', help="The route to print")
  #
  # if len(sys.argv) == 1:
  #   parser.print_help()
  #   sys.exit()
  # args = parser.parse_args()

  # r = DEMO_ROUTE if args.demo else args.route_or_segment_name.strip()
  # lr = LogReader(r, sort_by_time=True)
  lr = LogReader('08e4c2a99df165b1/00000016--c3a4ca99ec/0', sort_by_time=True)  # normal
  # lr = LogReader('08e4c2a99df165b1/00000017--e2d24ab118/0', sort_by_time=True)  # polls on carControl
  # lr = LogReader('08e4c2a99df165b1/00000018--cf65e47c24/0', sort_by_time=True)  # polls on carControl, sends it earlier
  # lr = LogReader('08e4c2a99df165b1/00000019--e73e3ab4df/0', sort_by_time=True)  # polls on carControl, more logging

  times, points = plot(lr)
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago			`#!/usr/bin/env python3`
			`import argparse`
			`import json`
			`import matplotlib.patches as mpatches`
			`import matplotlib.pyplot as plt`
			`import sys`
			`from collections import defaultdict`

			`from openpilot.tools.lib.logreader import LogReader`

			`DEMO_ROUTE = "9f583b1d93915c31\|2022-05-18--10-49-51--0"`

remove latencylogger 12 months ago			`COLORS = ['blue', 'green', 'red', 'yellow', 'orange', 'purple']`
detect first event 12 months ago			`PLOT_SERVICES = ['card', 'controlsd'] # , 'boardd']`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago

			`def plot(lr):`
			`seen = set()`
			`aligned = False`

			`start_time = None`
			`# dict of services to events per inferred frame`
			`times = {s: [[]] for s in PLOT_SERVICES}`

detect first event 12 months ago			`first_event = None`
			`# temp_times = {s: [] for s in PLOT_SERVICES} # holds only current frame of services`

more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago			`timestamps = [json.loads(msg.logMessage) for msg in lr if msg.which() == 'logMessage' and 'timestamp' in msg.logMessage]`
detect first event 12 months ago			`# print(timestamps)`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago			`timestamps = sorted(timestamps, key=lambda m: float(m['msg']['timestamp']['time']))`

			`# closely matches timestamp time`
			`start_time = next(msg.logMonoTime for msg in lr)`

			`for jmsg in timestamps:`
			`if len(times[PLOT_SERVICES[0]]) > 400:`
			`continue`

			`# print()`
			`# print(msg.logMonoTime)`
			`time = int(jmsg['msg']['timestamp']['time'])`
			`service = jmsg['ctx']['daemon']`
			`event = jmsg['msg']['timestamp']['event']`
detect first event 12 months ago			`# print(jmsg)`
			`# print(seen)`

			`if service in PLOT_SERVICES and first_event is None:`
			`first_event = event`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago
detect first event 12 months ago			`# Align the best we can; wait for all to be seen and this is the first event`
remove latencylogger 12 months ago			`# TODO: detect first logMessage correctly by keeping track of events before aligned`
detect first event 12 months ago			`aligned = aligned or (all(s in seen for s in PLOT_SERVICES) and event == first_event)`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago			`if not aligned:`
			`seen.add(service)`
			`continue`

			`if service in PLOT_SERVICES:`

			`# new frame when we've seen this event before`
			`new_frame = event in {e[1] for e in times[service][-1]}`
			`if new_frame:`
			`times[service].append([])`

			`# print(msg.logMonoTime, jmsg)`
			`print('new_frame', new_frame)`
			`times[service][-1].append(((time - start_time) * 1e-6, event))`

			`points = {"x": [], "y": [], "labels": []}`
normal send 12 months ago			`height = 0.9`
			`offsets = [[0, -10 * j] for j in range(len(PLOT_SERVICES))]`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago
			`fig, ax = plt.subplots()`

			`for idx, service_times in enumerate(zip(*times.values())):`
			`print()`
			`print('idx', idx)`
			`service_bars = []`
			`for j, (service, frame_times) in enumerate(zip(times.keys(), service_times)):`
			`if idx + 1 == len(times[service]):`
			`break`
			`print(service, frame_times)`
			`start = frame_times[0][0]`
			`# use the first event time from next frame`
			`end = times[service][idx + 1][0][0] # frame_times[-1][0]`
			`print('start, end', start, end)`
			`service_bars.append((start, end - start))`
			`for event in frame_times:`
			`points['x'].append(event[0])`
			`points['y'].append(idx - j * 1)`
			`points['labels'].append(event[1])`
			`print(service_bars)`

			`# offset = offset_services`
			`# offset each service`
			`for j, sb in enumerate(service_bars):`
normal send 12 months ago			`ax.broken_barh([sb], (idx - height / 2 - j * 1, height), facecolors=[COLORS[j]], alpha=0.5) # , offsets=offsets)`
			`# ax.broken_barh(service_bars, (idx - height / 2, height), facecolors=COLORS, alpha=0.5, offsets=offsets)`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago
			`scatter = ax.scatter(points['x'], points['y'], marker='d', edgecolor='black')`
normal send 12 months ago			`txt = ax.text(0, 0, '', ha='center', fontsize=8, color='red')`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago			`ax.set_xlabel('milliseconds')`

normal send 12 months ago			`plt.legend(handles=[mpatches.Patch(color=COLORS[i], label=PLOT_SERVICES[i]) for i in range(len(PLOT_SERVICES))])`
no mpld3! 12 months ago
			`def hover(event):`
			`txt.set_text("")`
			`status, pts = scatter.contains(event)`
			`txt.set_visible(status)`
			`if status:`
normal send 12 months ago			`txt.set_text(points['labels'][pts['ind'][0]])`
no mpld3! 12 months ago			`txt.set_position((event.xdata, event.ydata + 1))`
			`event.canvas.draw()`

			`fig.canvas.mpl_connect("motion_notify_event", hover)`

more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago			`plt.show()`
			`# plt.pause(1000)`
			`return times, points`


			`if __name__ == "__main__":`
no mpld3! 12 months ago			`# parser = argparse.ArgumentParser(description="A tool for analyzing openpilot's end-to-end latency",`
			`# formatter_class=argparse.ArgumentDefaultsHelpFormatter)`
			`# parser.add_argument("--demo", action="store_true", help="Use the demo route instead of providing one")`
			`# parser.add_argument("route_or_segment_name", nargs='?', help="The route to print")`
			`#`
			`# if len(sys.argv) == 1:`
			`# parser.print_help()`
			`# sys.exit()`
			`# args = parser.parse_args()`

			`# r = DEMO_ROUTE if args.demo else args.route_or_segment_name.strip()`
			`# lr = LogReader(r, sort_by_time=True)`
revert "card polls on can and carControl to get latest carControl possible" how it was is best 12 months ago			`lr = LogReader('08e4c2a99df165b1/00000016--c3a4ca99ec/0', sort_by_time=True) # normal`
			`# lr = LogReader('08e4c2a99df165b1/00000017--e2d24ab118/0', sort_by_time=True) # polls on carControl`
normal send 12 months ago			`# lr = LogReader('08e4c2a99df165b1/00000018--cf65e47c24/0', sort_by_time=True) # polls on carControl, sends it earlier`
			`# lr = LogReader('08e4c2a99df165b1/00000019--e73e3ab4df/0', sort_by_time=True) # polls on carControl, more logging`
more generic latency logger; needs some clean up latency_logger.py was difficult to understand and modify 12 months ago
			`times, points = plot(lr)`