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freebsd/tools/sched/schedgraph.py

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33 KiB
Python
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#!/usr/local/bin/python
# Copyright (c) 2002-2003, Jeffrey Roberson <jeff@freebsd.org>
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice unmodified, this list of conditions, and the following
# disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# $FreeBSD$
import sys
import re
from Tkinter import *
# To use:
# - Install the ports/x11-toolkits/py-tkinter package.
# - Add KTR_SCHED to KTR_COMPILE and KTR_MASK in your KERNCONF
# - It is encouraged to increase KTR_ENTRIES size to 32768 to gather
# enough information for analysis.
# - Rebuild kernel with proper changes to KERNCONF.
# - Dump the trace to a file: 'ktrdump -ct > ktr.out'
# - Run the python script: 'python schedgraph.py ktr.out'
#
# To do:
# 1) Add a per-thread summary display
# 2) Add bounding box style zoom.
# 3) Click to center.
# 4) Implement some sorting mechanism.
ticksps = None
status = None
configtypes = []
def ticks2sec(ticks):
ns = ticksps / 1000000000
ticks /= ns
if (ticks < 1000):
return (str(ticks) + "ns")
ticks /= 1000
if (ticks < 1000):
return (str(ticks) + "us")
ticks /= 1000
if (ticks < 1000):
return (str(ticks) + "ms")
ticks /= 1000
return (str(ticks) + "s")
class Scaler(Frame):
def __init__(self, master, target):
Frame.__init__(self, master)
self.scale = Scale(self, command=self.scaleset,
from_=1000, to_=1000000, orient=HORIZONTAL, resolution=1000)
self.label = Label(self, text="Ticks per pixel")
self.label.pack(side=LEFT)
self.scale.pack(fill="both", expand=1)
self.target = target
self.scale.set(target.scaleget())
self.initialized = 1
def scaleset(self, value):
self.target.scaleset(int(value))
def set(self, value):
self.scale.set(value)
class Status(Frame):
def __init__(self, master):
Frame.__init__(self, master)
self.label = Label(self, bd=1, relief=SUNKEN, anchor=W)
self.label.pack(fill="both", expand=1)
self.clear()
def set(self, str):
self.label.config(text=str)
def clear(self):
self.label.config(text="")
def startup(self, str):
self.set(str)
root.update()
class EventConf(Frame):
def __init__(self, master, name, color, enabled):
Frame.__init__(self, master)
self.name = name
self.color = StringVar()
self.color_default = color
self.color_current = color
self.color.set(color)
self.enabled = IntVar()
self.enabled_default = enabled
self.enabled_current = enabled
self.enabled.set(enabled)
self.draw()
def draw(self):
self.label = Label(self, text=self.name, anchor=W)
self.sample = Canvas(self, width=24, height=24,
bg='grey')
self.rect = self.sample.create_rectangle(0, 0, 24, 24,
fill=self.color.get())
self.list = OptionMenu(self, self.color,
"dark red", "red", "pink",
"dark orange", "orange",
"yellow", "light yellow",
"dark green", "green", "light green",
"dark blue", "blue", "light blue",
"dark violet", "violet", "purple",
"dark grey", "light grey",
"white", "black",
command=self.setcolor)
self.checkbox = Checkbutton(self, text="enabled",
variable=self.enabled)
self.label.grid(row=0, column=0, sticky=E+W)
self.sample.grid(row=0, column=1)
self.list.grid(row=0, column=2, sticky=E+W)
self.checkbox.grid(row=0, column=3)
self.columnconfigure(0, weight=1)
self.columnconfigure(2, minsize=110)
def setcolor(self, color):
self.color.set(color)
self.sample.itemconfigure(self.rect, fill=color)
def apply(self):
cchange = 0
echange = 0
if (self.color_current != self.color.get()):
cchange = 1
if (self.enabled_current != self.enabled.get()):
echange = 1
self.color_current = self.color.get()
self.enabled_current = self.enabled.get()
if (echange != 0):
if (self.enabled_current):
graph.setcolor(self.name, self.color_current)
else:
graph.hide(self.name)
return
if (cchange != 0):
graph.setcolor(self.name, self.color_current)
def revert(self):
self.setcolor(self.color_current)
self.enabled.set(self.enabled_current)
def default(self):
self.setcolor(self.color_default)
self.enabled.set(self.enabled_default)
class EventConfigure(Toplevel):
def __init__(self):
Toplevel.__init__(self)
self.resizable(0, 0)
self.title("Event Configuration")
self.items = LabelFrame(self, text="Event Type")
self.buttons = Frame(self)
self.drawbuttons()
self.items.grid(row=0, column=0, sticky=E+W)
self.columnconfigure(0, weight=1)
self.buttons.grid(row=1, column=0, sticky=E+W)
self.types = []
self.irow = 0
for type in configtypes:
self.additem(type.name, type.color, type.enabled)
def additem(self, name, color, enabled=1):
item = EventConf(self.items, name, color, enabled)
self.types.append(item)
item.grid(row=self.irow, column=0, sticky=E+W)
self.irow += 1
def drawbuttons(self):
self.apply = Button(self.buttons, text="Apply",
command=self.apress)
self.revert = Button(self.buttons, text="Revert",
command=self.rpress)
self.default = Button(self.buttons, text="Default",
command=self.dpress)
self.apply.grid(row=0, column=0, sticky=E+W)
self.revert.grid(row=0, column=1, sticky=E+W)
self.default.grid(row=0, column=2, sticky=E+W)
self.buttons.columnconfigure(0, weight=1)
self.buttons.columnconfigure(1, weight=1)
self.buttons.columnconfigure(2, weight=1)
def apress(self):
for item in self.types:
item.apply()
def rpress(self):
for item in self.types:
item.revert()
def dpress(self):
for item in self.types:
item.default()
class EventView(Toplevel):
def __init__(self, event, canvas):
Toplevel.__init__(self)
self.resizable(0, 0)
self.title("Event")
self.event = event
self.frame = Frame(self)
self.frame.grid(row=0, column=0, sticky=N+S+E+W)
self.buttons = Frame(self)
self.buttons.grid(row=1, column=0, sticky=E+W)
self.canvas = canvas
self.drawlabels()
self.drawbuttons()
event.displayref(canvas)
self.bind("<Destroy>", self.destroycb)
def destroycb(self, event):
self.unbind("<Destroy>")
if (self.event != None):
self.event.displayunref(self.canvas)
self.event = None
self.destroy()
def clearlabels(self):
for label in self.frame.grid_slaves():
label.grid_remove()
def drawlabels(self):
ypos = 0
labels = self.event.labels()
while (len(labels) < 7):
labels.append(("", "", 0))
for label in labels:
name, value, linked = label
l = Label(self.frame, text=name, bd=1, width=15,
relief=SUNKEN, anchor=W)
if (linked):
fgcolor = "blue"
else:
fgcolor = "black"
r = Label(self.frame, text=value, bd=1,
relief=SUNKEN, anchor=W, fg=fgcolor)
l.grid(row=ypos, column=0, sticky=E+W)
r.grid(row=ypos, column=1, sticky=E+W)
if (linked):
r.bind("<Button-1>", self.linkpress)
ypos += 1
self.frame.columnconfigure(1, minsize=80)
def drawbuttons(self):
self.back = Button(self.buttons, text="<", command=self.bpress)
self.forw = Button(self.buttons, text=">", command=self.fpress)
self.new = Button(self.buttons, text="new", command=self.npress)
self.back.grid(row=0, column=0, sticky=E+W)
self.forw.grid(row=0, column=1, sticky=E+W)
self.new.grid(row=0, column=2, sticky=E+W)
self.buttons.columnconfigure(2, weight=1)
def newevent(self, event):
self.event.displayunref(self.canvas)
self.clearlabels()
self.event = event
self.event.displayref(self.canvas)
self.drawlabels()
def npress(self):
EventView(self.event, self.canvas)
def bpress(self):
prev = self.event.prev()
if (prev == None):
return
while (prev.real == 0):
prev = prev.prev()
if (prev == None):
return
self.newevent(prev)
def fpress(self):
next = self.event.next()
if (next == None):
return
while (next.real == 0):
next = next.next()
if (next == None):
return
self.newevent(next)
def linkpress(self, wevent):
event = self.event.getlinked()
if (event != None):
self.newevent(event)
class Event:
name = "none"
color = "grey"
def __init__(self, source, cpu, timestamp, last=0):
self.source = source
self.cpu = cpu
self.timestamp = int(timestamp)
self.entries = []
self.real = 1
self.idx = None
self.state = 0
self.item = None
self.dispcnt = 0
self.linked = None
if (last):
source.lastevent(self)
else:
source.event(self)
def status(self):
statstr = self.name + " " + self.source.name
statstr += " on: cpu" + str(self.cpu)
statstr += " at: " + str(self.timestamp)
statstr += self.stattxt()
status.set(statstr)
def stattxt(self):
return ""
def textadd(self, tuple):
pass
self.entries.append(tuple)
def labels(self):
return [("Source:", self.source.name, 0),
("Event:", self.name, 0),
("CPU:", self.cpu, 0),
("Timestamp:", self.timestamp, 0)] + self.entries
def mouseenter(self, canvas, item):
self.displayref(canvas)
self.status()
def mouseexit(self, canvas, item):
self.displayunref(canvas)
status.clear()
def mousepress(self, canvas, item):
EventView(self, canvas)
def next(self):
return self.source.eventat(self.idx + 1)
def prev(self):
return self.source.eventat(self.idx - 1)
def displayref(self, canvas):
if (self.dispcnt == 0):
canvas.itemconfigure(self.item, width=2)
self.dispcnt += 1
def displayunref(self, canvas):
self.dispcnt -= 1
if (self.dispcnt == 0):
canvas.itemconfigure(self.item, width=0)
canvas.tag_raise("point", "state")
def getlinked(self):
return self.linked.findevent(self.timestamp)
class PointEvent(Event):
def __init__(self, thread, cpu, timestamp, last=0):
Event.__init__(self, thread, cpu, timestamp, last)
def draw(self, canvas, xpos, ypos):
l = canvas.create_oval(xpos - 6, ypos + 1, xpos + 6, ypos - 11,
fill=self.color, tags=("all", "point", "event")
+ (self.name,), width=0)
canvas.events[l] = self
self.item = l
if (self.enabled == 0):
canvas.itemconfigure(l, state="hidden")
return (xpos)
class StateEvent(Event):
def __init__(self, thread, cpu, timestamp, last=0):
Event.__init__(self, thread, cpu, timestamp, last)
self.duration = 0
self.skipnext = 0
self.skipself = 0
self.state = 1
def draw(self, canvas, xpos, ypos):
next = self.nextstate()
if (self.skipself == 1 or next == None):
return (xpos)
while (self.skipnext):
skipped = next
next.skipself = 1
next.real = 0
next = next.nextstate()
if (next == None):
next = skipped
self.skipnext -= 1
self.duration = next.timestamp - self.timestamp
delta = self.duration / canvas.ratio
l = canvas.create_rectangle(xpos, ypos,
xpos + delta, ypos - 10, fill=self.color, width=0,
tags=("all", "state", "event") + (self.name,))
canvas.events[l] = self
self.item = l
if (self.enabled == 0):
canvas.itemconfigure(l, state="hidden")
return (xpos + delta)
def stattxt(self):
return " duration: " + ticks2sec(self.duration)
def nextstate(self):
next = self.next()
while (next != None and next.state == 0):
next = next.next()
return (next)
def labels(self):
return [("Source:", self.source.name, 0),
("Event:", self.name, 0),
("Timestamp:", self.timestamp, 0),
("CPU:", self.cpu, 0),
("Duration:", ticks2sec(self.duration), 0)] \
+ self.entries
class Count(Event):
name = "Count"
color = "red"
enabled = 1
def __init__(self, source, cpu, timestamp, count):
self.count = int(count)
Event.__init__(self, source, cpu, timestamp)
self.duration = 0
self.textadd(("count:", self.count, 0))
def draw(self, canvas, xpos, ypos):
next = self.next()
self.duration = next.timestamp - self.timestamp
delta = self.duration / canvas.ratio
yhight = self.source.yscale() * self.count
l = canvas.create_rectangle(xpos, ypos - yhight,
xpos + delta, ypos, fill=self.color, width=0,
tags=("all", "count", "event") + (self.name,))
canvas.events[l] = self
self.item = l
if (self.enabled == 0):
canvas.itemconfigure(l, state="hidden")
return (xpos + delta)
def stattxt(self):
return " count: " + str(self.count)
configtypes.append(Count)
class Running(StateEvent):
name = "running"
color = "green"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Running)
class Idle(StateEvent):
name = "idle"
color = "grey"
enabled = 0
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Idle)
class Yielding(StateEvent):
name = "yielding"
color = "yellow"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.skipnext = 2
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Yielding)
class Swapped(StateEvent):
name = "swapped"
color = "violet"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Swapped)
class Suspended(StateEvent):
name = "suspended"
color = "purple"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Suspended)
class Iwait(StateEvent):
name = "iwait"
color = "grey"
enabled = 0
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Iwait)
class Preempted(StateEvent):
name = "preempted"
color = "red"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio, bythread):
StateEvent.__init__(self, thread, cpu, timestamp)
self.skipnext = 2
self.prio = prio
self.linked = bythread
self.textadd(("prio:", self.prio, 0))
self.textadd(("by thread:", self.linked.name, 1))
configtypes.append(Preempted)
class Sleep(StateEvent):
name = "sleep"
color = "blue"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio, wmesg):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.wmesg = wmesg
self.textadd(("prio:", self.prio, 0))
self.textadd(("wmesg:", self.wmesg, 0))
def stattxt(self):
statstr = StateEvent.stattxt(self)
statstr += " sleeping on: " + self.wmesg
return (statstr)
configtypes.append(Sleep)
class Blocked(StateEvent):
name = "blocked"
color = "dark red"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio, lock):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.lock = lock
self.textadd(("prio:", self.prio, 0))
self.textadd(("lock:", self.lock, 0))
def stattxt(self):
statstr = StateEvent.stattxt(self)
statstr += " blocked on: " + self.lock
return (statstr)
configtypes.append(Blocked)
class KsegrpRunq(StateEvent):
name = "KsegrpRunq"
color = "orange"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio, bythread):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.linked = bythread
self.textadd(("prio:", self.prio, 0))
self.textadd(("by thread:", self.linked.name, 1))
configtypes.append(KsegrpRunq)
class Runq(StateEvent):
name = "Runq"
color = "yellow"
enabled = 1
def __init__(self, thread, cpu, timestamp, prio, bythread):
StateEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.linked = bythread
self.textadd(("prio:", self.prio, 0))
self.textadd(("by thread:", self.linked.name, 1))
configtypes.append(Runq)
class Sched_exit(StateEvent):
name = "exit"
color = "grey"
enabled = 0
def __init__(self, thread, cpu, timestamp, prio):
StateEvent.__init__(self, thread, cpu, timestamp)
self.name = "sched_exit"
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Sched_exit)
class Padevent(StateEvent):
def __init__(self, thread, cpu, timestamp, last=0):
StateEvent.__init__(self, thread, cpu, timestamp, last)
self.name = "pad"
self.real = 0
def draw(self, canvas, xpos, ypos):
next = self.next()
if (next == None):
return (xpos)
self.duration = next.timestamp - self.timestamp
delta = self.duration / canvas.ratio
return (xpos + delta)
class Tick(PointEvent):
name = "tick"
color = "black"
enabled = 0
def __init__(self, thread, cpu, timestamp, prio, stathz):
PointEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.textadd(("prio:", self.prio, 0))
configtypes.append(Tick)
class Prio(PointEvent):
name = "prio"
color = "black"
enabled = 0
def __init__(self, thread, cpu, timestamp, prio, newprio, bythread):
PointEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.newprio = newprio
self.linked = bythread
self.textadd(("new prio:", self.newprio, 0))
self.textadd(("prio:", self.prio, 0))
if (self.linked != self.source):
self.textadd(("by thread:", self.linked.name, 1))
else:
self.textadd(("by thread:", self.linked.name, 0))
configtypes.append(Prio)
class Lend(PointEvent):
name = "lend"
color = "black"
enabled = 0
def __init__(self, thread, cpu, timestamp, prio, tothread):
PointEvent.__init__(self, thread, cpu, timestamp)
self.prio = prio
self.linked = tothread
self.textadd(("prio:", self.prio, 0))
self.textadd(("to thread:", self.linked.name, 1))
configtypes.append(Lend)
class Wokeup(PointEvent):
name = "wokeup"
color = "black"
enabled = 0
def __init__(self, thread, cpu, timestamp, ranthread):
PointEvent.__init__(self, thread, cpu, timestamp)
self.linked = ranthread
self.textadd(("ran thread:", self.linked.name, 1))
configtypes.append(Wokeup)
class EventSource:
def __init__(self, name):
self.name = name
self.events = []
self.cpu = 0
self.cpux = 0
def fixup(self):
pass
def event(self, event):
self.events.insert(0, event)
def remove(self, event):
self.events.remove(event)
def lastevent(self, event):
self.events.append(event)
def draw(self, canvas, ypos):
xpos = 10
self.cpux = 10
self.cpu = self.events[1].cpu
for i in range(0, len(self.events)):
self.events[i].idx = i
for event in self.events:
if (event.cpu != self.cpu and event.cpu != -1):
self.drawcpu(canvas, xpos, ypos)
self.cpux = xpos
self.cpu = event.cpu
xpos = event.draw(canvas, xpos, ypos)
self.drawcpu(canvas, xpos, ypos)
def drawname(self, canvas, ypos):
ypos = ypos - (self.ysize() / 2)
canvas.create_text(10, ypos, anchor="w", text=self.name)
def drawcpu(self, canvas, xpos, ypos):
cpu = int(self.cpu)
if (cpu == 0):
color = 'light grey'
elif (cpu == 1):
color = 'dark grey'
elif (cpu == 2):
color = 'light blue'
elif (cpu == 3):
color = 'light green'
2007-01-06 04:40:44 +00:00
elif (cpu == 4):
color = 'blanched almond'
elif (cpu == 5):
color = 'slate grey'
elif (cpu == 6):
color = 'light slate blue'
elif (cpu == 7):
color = 'thistle'
else:
color = "white"
l = canvas.create_rectangle(self.cpux,
ypos - self.ysize() - canvas.bdheight,
xpos, ypos + canvas.bdheight, fill=color, width=0,
tags=("all", "cpuinfo"))
def ysize(self):
return (None)
def eventat(self, i):
if (i >= len(self.events)):
return (None)
event = self.events[i]
return (event)
def findevent(self, timestamp):
for event in self.events:
if (event.timestamp >= timestamp and event.real):
return (event)
return (None)
class Thread(EventSource):
names = {}
def __init__(self, td, pcomm):
EventSource.__init__(self, pcomm)
self.str = td
try:
cnt = Thread.names[pcomm]
except:
Thread.names[pcomm] = 0
return
Thread.names[pcomm] = cnt + 1
def fixup(self):
cnt = Thread.names[self.name]
if (cnt == 0):
return
cnt -= 1
Thread.names[self.name] = cnt
self.name += " td" + str(cnt)
def ysize(self):
return (10)
class Counter(EventSource):
max = 0
def __init__(self, name):
EventSource.__init__(self, name)
def event(self, event):
EventSource.event(self, event)
try:
count = event.count
except:
return
count = int(count)
if (count > Counter.max):
Counter.max = count
def ysize(self):
return (80)
def yscale(self):
return (self.ysize() / Counter.max)
class KTRFile:
def __init__(self, file):
self.timestamp_first = None
self.timestamp_last = None
self.lineno = -1
self.threads = []
self.sources = []
self.ticks = {}
self.load = {}
self.crit = {}
self.parse(file)
self.fixup()
global ticksps
ticksps = self.ticksps()
def parse(self, file):
try:
ifp = open(file)
except:
print "Can't open", file
sys.exit(1)
ktrhdr = "\s+\d+\s+(\d+)\s+(\d+)\s+"
tdname = "(\S+)\(([^)]*)\)"
crittdname = "(\S+)\s+\(\d+,\s+([^)]*)\)"
ktrstr = "mi_switch: " + tdname
ktrstr += " prio (\d+) inhibit (\d+) wmesg (\S+) lock (\S+)"
switchout_re = re.compile(ktrhdr + ktrstr)
ktrstr = "mi_switch: " + tdname + " prio (\d+) idle"
idled_re = re.compile(ktrhdr + ktrstr)
ktrstr = "mi_switch: " + tdname + " prio (\d+) preempted by "
ktrstr += tdname
preempted_re = re.compile(ktrhdr + ktrstr)
ktrstr = "mi_switch: running " + tdname + " prio (\d+)"
switchin_re = re.compile(ktrhdr + ktrstr)
ktrstr = "sched_add: " + tdname + " prio (\d+) by " + tdname
sched_add_re = re.compile(ktrhdr + ktrstr)
ktrstr = "setrunqueue: " + tdname + " prio (\d+) by " + tdname
setrunqueue_re = re.compile(ktrhdr + ktrstr)
ktrstr = "sched_rem: " + tdname + " prio (\d+) by " + tdname
sched_rem_re = re.compile(ktrhdr + ktrstr)
ktrstr = "sched_exit_thread: " + tdname + " prio (\d+)"
sched_exit_re = re.compile(ktrhdr + ktrstr)
ktrstr = "statclock: " + tdname + " prio (\d+)"
ktrstr += " stathz (\d+)"
sched_clock_re = re.compile(ktrhdr + ktrstr)
ktrstr = "sched_prio: " + tdname + " prio (\d+)"
ktrstr += " newprio (\d+) by " + tdname
sched_prio_re = re.compile(ktrhdr + ktrstr)
cpuload_re = re.compile(ktrhdr + "load: (\d+)")
loadglobal_re = re.compile(ktrhdr + "global load: (\d+)")
ktrstr = "critical_\S+ by thread " + crittdname + " to (\d+)"
critsec_re = re.compile(ktrhdr + ktrstr)
parsers = [[cpuload_re, self.cpuload],
[loadglobal_re, self.loadglobal],
[switchin_re, self.switchin],
[switchout_re, self.switchout],
[sched_add_re, self.sched_add],
[setrunqueue_re, self.sched_rem],
[sched_prio_re, self.sched_prio],
[preempted_re, self.preempted],
[sched_rem_re, self.sched_rem],
[sched_exit_re, self.sched_exit],
[sched_clock_re, self.sched_clock],
[critsec_re, self.critsec],
[idled_re, self.idled]]
for line in ifp.readlines():
self.lineno += 1
if ((self.lineno % 1024) == 0):
status.startup("Parsing line " +
str(self.lineno))
for p in parsers:
m = p[0].match(line)
if (m != None):
p[1](*m.groups())
break
# if (m == None):
# print line,
def checkstamp(self, timestamp):
timestamp = int(timestamp)
if (self.timestamp_first == None):
self.timestamp_first = timestamp
if (timestamp > self.timestamp_first):
print "Bad timestamp on line ", self.lineno
return (0)
self.timestamp_last = timestamp
return (1)
def timespan(self):
return (self.timestamp_first - self.timestamp_last);
def ticksps(self):
return (self.timespan() / self.ticks[0]) * int(self.stathz)
def switchout(self, cpu, timestamp, td, pcomm, prio, inhibit, wmesg, lock):
TDI_SUSPENDED = 0x0001
TDI_SLEEPING = 0x0002
TDI_SWAPPED = 0x0004
TDI_LOCK = 0x0008
TDI_IWAIT = 0x0010
if (self.checkstamp(timestamp) == 0):
return
inhibit = int(inhibit)
thread = self.findtd(td, pcomm)
if (inhibit & TDI_SWAPPED):
Swapped(thread, cpu, timestamp, prio)
elif (inhibit & TDI_SLEEPING):
Sleep(thread, cpu, timestamp, prio, wmesg)
elif (inhibit & TDI_LOCK):
Blocked(thread, cpu, timestamp, prio, lock)
elif (inhibit & TDI_IWAIT):
Iwait(thread, cpu, timestamp, prio)
elif (inhibit & TDI_SUSPENDED):
Suspended(thread, cpu, timestamp, prio)
elif (inhibit == 0):
Yielding(thread, cpu, timestamp, prio)
else:
print "Unknown event", inhibit
sys.exit(1)
def idled(self, cpu, timestamp, td, pcomm, prio):
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
Idle(thread, cpu, timestamp, prio)
def preempted(self, cpu, timestamp, td, pcomm, prio, bytd, bypcomm):
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
Preempted(thread, cpu, timestamp, prio,
self.findtd(bytd, bypcomm))
def switchin(self, cpu, timestamp, td, pcomm, prio):
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
Running(thread, cpu, timestamp, prio)
def sched_add(self, cpu, timestamp, td, pcomm, prio, bytd, bypcomm):
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
bythread = self.findtd(bytd, bypcomm)
Runq(thread, cpu, timestamp, prio, bythread)
Wokeup(bythread, cpu, timestamp, thread)
def sched_rem(self, cpu, timestamp, td, pcomm, prio, bytd, bypcomm):
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
KsegrpRunq(thread, cpu, timestamp, prio,
self.findtd(bytd, bypcomm))
def sched_exit(self, cpu, timestamp, td, pcomm, prio):
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
Sched_exit(thread, cpu, timestamp, prio)
def sched_clock(self, cpu, timestamp, td, pcomm, prio, stathz):
if (self.checkstamp(timestamp) == 0):
return
self.stathz = stathz
cpu = int(cpu)
try:
ticks = self.ticks[cpu]
except:
self.ticks[cpu] = 0
self.ticks[cpu] += 1
thread = self.findtd(td, pcomm)
Tick(thread, cpu, timestamp, prio, stathz)
def sched_prio(self, cpu, timestamp, td, pcomm, prio, newprio, bytd, bypcomm):
if (prio == newprio):
return
if (self.checkstamp(timestamp) == 0):
return
thread = self.findtd(td, pcomm)
bythread = self.findtd(bytd, bypcomm)
Prio(thread, cpu, timestamp, prio, newprio, bythread)
Lend(bythread, cpu, timestamp, newprio, thread)
def cpuload(self, cpu, timestamp, count):
if (self.checkstamp(timestamp) == 0):
return
cpu = int(cpu)
try:
load = self.load[cpu]
except:
load = Counter("cpu" + str(cpu) + " load")
self.load[cpu] = load
self.sources.insert(0, load)
Count(load, cpu, timestamp, count)
def loadglobal(self, cpu, timestamp, count):
if (self.checkstamp(timestamp) == 0):
return
cpu = 0
try:
load = self.load[cpu]
except:
load = Counter("CPU load")
self.load[cpu] = load
self.sources.insert(0, load)
Count(load, cpu, timestamp, count)
def critsec(self, cpu, timestamp, td, pcomm, to):
if (self.checkstamp(timestamp) == 0):
return
cpu = int(cpu)
try:
crit = self.crit[cpu]
except:
crit = Counter("Critical Section")
self.crit[cpu] = crit
self.sources.insert(0, crit)
Count(crit, cpu, timestamp, to)
def findtd(self, td, pcomm):
for thread in self.threads:
if (thread.str == td and thread.name == pcomm):
return thread
thread = Thread(td, pcomm)
self.threads.append(thread)
self.sources.append(thread)
return (thread)
def fixup(self):
for source in self.sources:
Padevent(source, -1, self.timestamp_last)
Padevent(source, -1, self.timestamp_first, last=1)
source.fixup()
class SchedDisplay(Canvas):
def __init__(self, master):
self.ratio = 1
self.ktrfile = None
self.sources = None
self.bdheight = 10
self.events = {}
Canvas.__init__(self, master, width=800, height=500, bg='grey',
scrollregion=(0, 0, 800, 500))
def setfile(self, ktrfile):
self.ktrfile = ktrfile
self.sources = ktrfile.sources
def draw(self):
ypos = 0
xsize = self.xsize()
for source in self.sources:
status.startup("Drawing " + source.name)
self.create_line(0, ypos, xsize, ypos,
width=1, fill="black", tags=("all",))
ypos += self.bdheight
ypos += source.ysize()
source.draw(self, ypos)
ypos += self.bdheight
try:
self.tag_raise("point", "state")
self.tag_lower("cpuinfo", "all")
except:
pass
self.create_line(0, ypos, xsize, ypos,
width=1, fill="black", tags=("all",))
self.tag_bind("event", "<Enter>", self.mouseenter)
self.tag_bind("event", "<Leave>", self.mouseexit)
self.tag_bind("event", "<Button-1>", self.mousepress)
def mouseenter(self, event):
item, = self.find_withtag(CURRENT)
event = self.events[item]
event.mouseenter(self, item)
def mouseexit(self, event):
item, = self.find_withtag(CURRENT)
event = self.events[item]
event.mouseexit(self, item)
def mousepress(self, event):
item, = self.find_withtag(CURRENT)
event = self.events[item]
event.mousepress(self, item)
def drawnames(self, canvas):
status.startup("Drawing names")
ypos = 0
canvas.configure(scrollregion=(0, 0,
canvas["width"], self.ysize()))
for source in self.sources:
canvas.create_line(0, ypos, canvas["width"], ypos,
width=1, fill="black", tags=("all",))
ypos += self.bdheight
ypos += source.ysize()
source.drawname(canvas, ypos)
ypos += self.bdheight
canvas.create_line(0, ypos, canvas["width"], ypos,
width=1, fill="black", tags=("all",))
def xsize(self):
return ((self.ktrfile.timespan() / self.ratio) + 20)
def ysize(self):
ysize = 0
for source in self.sources:
ysize += source.ysize() + (self.bdheight * 2)
return (ysize)
def scaleset(self, ratio):
if (self.ktrfile == None):
return
oldratio = self.ratio
xstart, ystart = self.xview()
length = (float(self["width"]) / self.xsize())
middle = xstart + (length / 2)
self.ratio = ratio
self.configure(scrollregion=(0, 0, self.xsize(), self.ysize()))
self.scale("all", 0, 0, float(oldratio) / ratio, 1)
length = (float(self["width"]) / self.xsize())
xstart = middle - (length / 2)
self.xview_moveto(xstart)
def scaleget(self):
return self.ratio
def setcolor(self, tag, color):
self.itemconfigure(tag, state="normal", fill=color)
def hide(self, tag):
self.itemconfigure(tag, state="hidden")
class GraphMenu(Frame):
def __init__(self, master):
Frame.__init__(self, master, bd=2, relief=RAISED)
self.view = Menubutton(self, text="Configure")
self.viewmenu = Menu(self.view, tearoff=0)
self.viewmenu.add_command(label="Events",
command=self.econf)
self.view["menu"] = self.viewmenu
self.view.pack(side=LEFT)
def econf(self):
EventConfigure()
class SchedGraph(Frame):
def __init__(self, master):
Frame.__init__(self, master)
self.menu = None
self.names = None
self.display = None
self.scale = None
self.status = None
self.pack(expand=1, fill="both")
self.buildwidgets()
self.layout()
self.draw(sys.argv[1])
def buildwidgets(self):
global status
self.menu = GraphMenu(self)
self.display = SchedDisplay(self)
self.names = Canvas(self,
width=100, height=self.display["height"],
bg='grey', scrollregion=(0, 0, 50, 100))
self.scale = Scaler(self, self.display)
status = self.status = Status(self)
self.scrollY = Scrollbar(self, orient="vertical",
command=self.display_yview)
self.display.scrollX = Scrollbar(self, orient="horizontal",
command=self.display.xview)
self.display["xscrollcommand"] = self.display.scrollX.set
self.display["yscrollcommand"] = self.scrollY.set
self.names["yscrollcommand"] = self.scrollY.set
def layout(self):
self.columnconfigure(1, weight=1)
self.rowconfigure(1, weight=1)
self.menu.grid(row=0, column=0, columnspan=3, sticky=E+W)
self.names.grid(row=1, column=0, sticky=N+S)
self.display.grid(row=1, column=1, sticky=W+E+N+S)
self.scrollY.grid(row=1, column=2, sticky=N+S)
self.display.scrollX.grid(row=2, column=0, columnspan=2,
sticky=E+W)
self.scale.grid(row=3, column=0, columnspan=3, sticky=E+W)
self.status.grid(row=4, column=0, columnspan=3, sticky=E+W)
def draw(self, file):
self.master.update()
ktrfile = KTRFile(file)
self.display.setfile(ktrfile)
self.display.drawnames(self.names)
self.display.draw()
self.scale.set(250000)
self.display.xview_moveto(0)
def display_yview(self, *args):
self.names.yview(*args)
self.display.yview(*args)
def setcolor(self, tag, color):
self.display.setcolor(tag, color)
def hide(self, tag):
self.display.hide(tag)
if (len(sys.argv) != 2):
print "usage:", sys.argv[0], "<ktr file>"
sys.exit(1)
root = Tk()
root.title("Scheduler Graph")
graph = SchedGraph(root)
root.mainloop()