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path: root/tools/perf/scripts/python/sched-migration.py
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#!/usr/bin/python
#
# Cpu task migration overview toy
#
# Copyright (C) 2010 Frederic Weisbecker <fweisbec@gmail.com>
#
# perf trace event handlers have been generated by perf trace -g python
#
# The whole is licensed under the terms of the GNU GPL License version 2


try:
	import wx
except ImportError:
	raise ImportError, "You need to install the wxpython lib for this script"

import os
import sys

from collections import defaultdict
from UserList import UserList

sys.path.append(os.environ['PERF_EXEC_PATH'] + \
	'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')

from perf_trace_context import *
from Core import *

class RootFrame(wx.Frame):
	def __init__(self, timeslices, parent = None, id = -1, title = "Migration"):
		wx.Frame.__init__(self, parent, id, title)

		(self.screen_width, self.screen_height) = wx.GetDisplaySize()
		self.screen_width -= 10
		self.screen_height -= 10
		self.zoom = 0.5
		self.scroll_scale = 20
		self.timeslices = timeslices
		(self.ts_start, self.ts_end) = timeslices.interval()
		self.update_width_virtual()

		# whole window panel
		self.panel = wx.Panel(self, size=(self.screen_width, self.screen_height))

		# scrollable container
		self.scroll = wx.ScrolledWindow(self.panel)
		self.scroll.SetScrollbars(self.scroll_scale, self.scroll_scale, self.width_virtual / self.scroll_scale, 100 / 10)
		self.scroll.EnableScrolling(True, True)
		self.scroll.SetFocus()

		# scrollable drawing area
		self.scroll_panel = wx.Panel(self.scroll, size=(self.screen_width, self.screen_height / 2))
		self.scroll_panel.Bind(wx.EVT_PAINT, self.on_paint)
		self.scroll_panel.Bind(wx.EVT_KEY_DOWN, self.on_key_press)
		self.scroll_panel.Bind(wx.EVT_LEFT_DOWN, self.on_mouse_down)
		self.scroll.Bind(wx.EVT_PAINT, self.on_paint)

		self.scroll.Fit()
		self.Fit()

		self.scroll_panel.SetDimensions(-1, -1, self.width_virtual, -1, wx.SIZE_USE_EXISTING)

		self.max_cpu = -1
		self.txt = None

		self.Show(True)

	def us_to_px(self, val):
		return val / (10 ** 3) * self.zoom

	def px_to_us(self, val):
		return (val / self.zoom) * (10 ** 3)

	def scroll_start(self):
		(x, y) = self.scroll.GetViewStart()
		return (x * self.scroll_scale, y * self.scroll_scale)

	def scroll_start_us(self):
		(x, y) = self.scroll_start()
		return self.px_to_us(x)

	def update_rectangle_cpu(self, dc, slice, cpu, offset_time):
		rq = slice.rqs[cpu]

		if slice.total_load != 0:
			load_rate = rq.load() / float(slice.total_load)
		else:
			load_rate = 0


		offset_px = self.us_to_px(slice.start - offset_time)
		width_px = self.us_to_px(slice.end - slice.start)
		(x, y) = self.scroll_start()

		if width_px == 0:
			return

		offset_py = 100 + (cpu * 150)
		width_py = 100

		if cpu in slice.event_cpus:
			rgb = rq.event.color()
			if rgb is not None:
				(r, g, b) = rgb
				color = wx.Colour(r, g, b)
				brush = wx.Brush(color, wx.SOLID)
				dc.SetBrush(brush)
				dc.DrawRectangle(offset_px, offset_py, width_px, 5)
				width_py -= 5
				offset_py += 5

		red_power = int(0xff - (0xff * load_rate))
		color = wx.Colour(0xff, red_power, red_power)
		brush = wx.Brush(color, wx.SOLID)
		dc.SetBrush(brush)
		dc.DrawRectangle(offset_px, offset_py, width_px, width_py)

	def update_rectangles(self, dc, start, end):
		if len(self.timeslices) == 0:
			return
		start += self.timeslices[0].start
		end += self.timeslices[0].start

		color = wx.Colour(0, 0, 0)
		brush = wx.Brush(color, wx.SOLID)
		dc.SetBrush(brush)

		i = self.timeslices.find_time_slice(start)
		if i == -1:
			return

		for i in xrange(i, len(self.timeslices)):
			timeslice = self.timeslices[i]
			if timeslice.start > end:
				return

			for cpu in timeslice.rqs:
				self.update_rectangle_cpu(dc, timeslice, cpu, self.timeslices[0].start)
				if cpu > self.max_cpu:
					self.max_cpu = cpu

	def on_paint(self, event):
		color = wx.Colour(0xff, 0xff, 0xff)
		brush = wx.Brush(color, wx.SOLID)
		dc = wx.PaintDC(self.scroll_panel)
		dc.SetBrush(brush)

		width = min(self.width_virtual, self.screen_width)
		(x, y) = self.scroll_start()
		start = self.px_to_us(x)
		end = self.px_to_us(x + width)
		self.update_rectangles(dc, start, end)

	def cpu_from_ypixel(self, y):
		y -= 100
		cpu = y / 150
		height = y % 150

		if cpu < 0 or cpu > self.max_cpu or height > 100:
			return -1

		return cpu

	def update_summary(self, cpu, t):
		idx = self.timeslices.find_time_slice(t)
		if idx == -1:
			return

		ts = self.timeslices[idx]
		rq = ts.rqs[cpu]
		raw = "CPU: %d\n" % cpu
		raw += "Last event : %s\n" % rq.event.__repr__()
		raw += "Timestamp : %d.%06d\n" % (ts.start / (10 ** 9), (ts.start % (10 ** 9)) / 1000)
		raw += "Duration : %6d us\n" % ((ts.end - ts.start) / (10 ** 6))
		raw += "Load = %d\n" % rq.load()
		for t in rq.tasks:
			raw += "%s \n" % thread_name(t)

		if self.txt:
			self.txt.Destroy()
		self.txt = wx.StaticText(self.panel, -1, raw, (0, (self.screen_height / 2) + 50))


	def on_mouse_down(self, event):
		(x, y) = event.GetPositionTuple()
		cpu = self.cpu_from_ypixel(y)
		if cpu == -1:
			return

		t = self.px_to_us(x) + self.timeslices[0].start

		self.update_summary(cpu, t)


	def update_width_virtual(self):
		self.width_virtual = self.us_to_px(self.ts_end - self.ts_start)

	def __zoom(self, x):
		self.update_width_virtual()
		(xpos, ypos) = self.scroll.GetViewStart()
		xpos = self.us_to_px(x) / self.scroll_scale
		self.scroll.SetScrollbars(self.scroll_scale, self.scroll_scale, self.width_virtual / self.scroll_scale, 100 / 10, xpos, ypos)
		self.Refresh()

	def zoom_in(self):
		x = self.scroll_start_us()
		self.zoom *= 2
		self.__zoom(x)

	def zoom_out(self):
		x = self.scroll_start_us()
		self.zoom /= 2
		self.__zoom(x)


	def on_key_press(self, event):
		key = event.GetRawKeyCode()
		if key == ord("+"):
			self.zoom_in()
			return
		if key == ord("-"):
			self.zoom_out()
			return

		key = event.GetKeyCode()
		(x, y) = self.scroll.GetViewStart()
		if key == wx.WXK_RIGHT:
			self.scroll.Scroll(x + 1, y)
		elif key == wx.WXK_LEFT:
			self.scroll.Scroll(x -1, y)


threads = { 0 : "idle"}

def thread_name(pid):
	return "%s:%d" % (threads[pid], pid)

class EventHeaders:
	def __init__(self, common_cpu, common_secs, common_nsecs,
		     common_pid, common_comm):
		self.cpu = common_cpu
		self.secs = common_secs
		self.nsecs = common_nsecs
		self.pid = common_pid
		self.comm = common_comm

	def ts(self):
		return (self.secs * (10 ** 9)) + self.nsecs

	def ts_format(self):
		return "%d.%d" % (self.secs, int(self.nsecs / 1000))


def taskState(state):
	states = {
		0 : "R",
		1 : "S",
		2 : "D",
		64: "DEAD"
	}

	if state not in states:
		return "Unknown"

	return states[state]


class RunqueueEventUnknown:
	@staticmethod
	def color():
		return None

	def __repr__(self):
		return "unknown"

class RunqueueEventSleep:
	@staticmethod
	def color():
		return (0, 0, 0xff)

	def __init__(self, sleeper):
		self.sleeper = sleeper

	def __repr__(self):
		return "%s gone to sleep" % thread_name(self.sleeper)

class RunqueueEventWakeup:
	@staticmethod
	def color():
		return (0xff, 0xff, 0)

	def __init__(self, wakee):
		self.wakee = wakee

	def __repr__(self):
		return "%s woke up" % thread_name(self.wakee)

class RunqueueEventFork:
	@staticmethod
	def color():
		return (0, 0xff, 0)

	def __init__(self, child):
		self.child = child

	def __repr__(self):
		return "new forked task %s" % thread_name(self.child)

class RunqueueMigrateIn:
	@staticmethod
	def color():
		return (0, 0xf0, 0xff)

	def __init__(self, new):
		self.new = new

	def __repr__(self):
		return "task migrated in %s" % thread_name(self.new)

class RunqueueMigrateOut:
	@staticmethod
	def color():
		return (0xff, 0, 0xff)

	def __init__(self, old):
		self.old = old

	def __repr__(self):
		return "task migrated out %s" % thread_name(self.old)

class RunqueueSnapshot:
	def __init__(self, tasks = [0], event = RunqueueEventUnknown()):
		self.tasks = tuple(tasks)
		self.event = event

	def sched_switch(self, prev, prev_state, next):
		event = RunqueueEventUnknown()

		if taskState(prev_state) == "R" and next in self.tasks \
			and prev in self.tasks:
			return self

		if taskState(prev_state) != "R":
			event = RunqueueEventSleep(prev)

		next_tasks = list(self.tasks[:])
		if prev in self.tasks:
			if taskState(prev_state) != "R":
				next_tasks.remove(prev)
		elif taskState(prev_state) == "R":
			next_tasks.append(prev)

		if next not in next_tasks:
			next_tasks.append(next)

		return RunqueueSnapshot(next_tasks, event)

	def migrate_out(self, old):
		if old not in self.tasks:
			return self
		next_tasks = [task for task in self.tasks if task != old]

		return RunqueueSnapshot(next_tasks, RunqueueMigrateOut(old))

	def __migrate_in(self, new, event):
		if new in self.tasks:
			self.event = event
			return self
		next_tasks = self.tasks[:] + tuple([new])

		return RunqueueSnapshot(next_tasks, event)

	def migrate_in(self, new):
		return self.__migrate_in(new, RunqueueMigrateIn(new))

	def wake_up(self, new):
		return self.__migrate_in(new, RunqueueEventWakeup(new))

	def wake_up_new(self, new):
		return self.__migrate_in(new, RunqueueEventFork(new))

	def load(self):
		""" Provide the number of tasks on the runqueue.
		    Don't count idle"""
		return len(self.tasks) - 1

	def __repr__(self):
		ret = self.tasks.__repr__()
		ret += self.origin_tostring()

		return ret

class TimeSlice:
	def __init__(self, start, prev):
		self.start = start
		self.prev = prev
		self.end = start
		# cpus that triggered the event
		self.event_cpus = []
		if prev is not None:
			self.total_load = prev.total_load
			self.rqs = prev.rqs.copy()
		else:
			self.rqs = defaultdict(RunqueueSnapshot)
			self.total_load = 0

	def __update_total_load(self, old_rq, new_rq):
		diff = new_rq.load() - old_rq.load()
		self.total_load += diff

	def sched_switch(self, ts_list, prev, prev_state, next, cpu):
		old_rq = self.prev.rqs[cpu]
		new_rq = old_rq.sched_switch(prev, prev_state, next)

		if old_rq is new_rq:
			return

		self.rqs[cpu] = new_rq
		self.__update_total_load(old_rq, new_rq)
		ts_list.append(self)
		self.event_cpus = [cpu]

	def migrate(self, ts_list, new, old_cpu, new_cpu):
		if old_cpu == new_cpu:
			return
		old_rq = self.prev.rqs[old_cpu]
		out_rq = old_rq.migrate_out(new)
		self.rqs[old_cpu] = out_rq
		self.__update_total_load(old_rq, out_rq)

		new_rq = self.prev.rqs[new_cpu]
		in_rq = new_rq.migrate_in(new)
		self.rqs[new_cpu] = in_rq
		self.__update_total_load(new_rq, in_rq)

		ts_list.append(self)

		if old_rq is not out_rq:
			self.event_cpus.append(old_cpu)
		self.event_cpus.append(new_cpu)

	def wake_up(self, ts_list, pid, cpu, fork):
		old_rq = self.prev.rqs[cpu]
		if fork:
			new_rq = old_rq.wake_up_new(pid)
		else:
			new_rq = old_rq.wake_up(pid)

		if new_rq is old_rq:
			return
		self.rqs[cpu] = new_rq
		self.__update_total_load(old_rq, new_rq)
		ts_list.append(self)
		self.event_cpus = [cpu]

	def next(self, t):
		self.end = t
		return TimeSlice(t, self)

class TimeSliceList(UserList):
	def __init__(self, arg = []):
		self.data = arg

	def get_time_slice(self, ts):
		if len(self.data) == 0:
			slice = TimeSlice(ts, TimeSlice(-1, None))
		else:
			slice = self.data[-1].next(ts)
		return slice

	def find_time_slice(self, ts):
		start = 0
		end = len(self.data)
		found = -1
		searching = True
		while searching:
			if start == end or start == end - 1:
				searching = False

			i = (end + start) / 2
			if self.data[i].start <= ts and self.data[i].end >= ts:
				found = i
				end = i
				continue

			if self.data[i].end < ts:
				start = i

			elif self.data[i].start > ts:
				end = i

		return found

	def interval(self):
		if len(self.data) == 0:
			return (0, 0)

		return (self.data[0].start, self.data[-1].end)


class SchedEventProxy:
	def __init__(self):
		self.current_tsk = defaultdict(lambda : -1)
		self.timeslices = TimeSliceList()

	def sched_switch(self, headers, prev_comm, prev_pid, prev_prio, prev_state,
			 next_comm, next_pid, next_prio):
		""" Ensure the task we sched out this cpu is really the one
		    we logged. Otherwise we may have missed traces """

		on_cpu_task = self.current_tsk[headers.cpu]

		if on_cpu_task != -1 and on_cpu_task != prev_pid:
			print "Sched switch event rejected ts: %s cpu: %d prev: %s(%d) next: %s(%d)" % \
				(headers.ts_format(), headers.cpu, prev_comm, prev_pid, next_comm, next_pid)

		threads[prev_pid] = prev_comm
		threads[next_pid] = next_comm
		self.current_tsk[headers.cpu] = next_pid

		ts = self.timeslices.get_time_slice(headers.ts())
		ts.sched_switch(self.timeslices, prev_pid, prev_state, next_pid, headers.cpu)

	def migrate(self, headers, pid, prio, orig_cpu, dest_cpu):
		ts = self.timeslices.get_time_slice(headers.ts())
		ts.migrate(self.timeslices, pid, orig_cpu, dest_cpu)

	def wake_up(self, headers, comm, pid, success, target_cpu, fork):
		if success == 0:
			return
		ts = self.timeslices.get_time_slice(headers.ts())
		ts.wake_up(self.timeslices, pid, target_cpu, fork)


def trace_begin():
	global parser
	parser = SchedEventProxy()

def trace_end():
	app = wx.App(False)
	timeslices = parser.timeslices
	frame = RootFrame(timeslices)
	app.MainLoop()

def sched__sched_stat_runtime(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, runtime, vruntime):
	pass

def sched__sched_stat_iowait(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, delay):
	pass

def sched__sched_stat_sleep(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, delay):
	pass

def sched__sched_stat_wait(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, delay):
	pass

def sched__sched_process_fork(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	parent_comm, parent_pid, child_comm, child_pid):
	pass

def sched__sched_process_wait(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio):
	pass

def sched__sched_process_exit(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio):
	pass

def sched__sched_process_free(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio):
	pass

def sched__sched_migrate_task(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio, orig_cpu,
	dest_cpu):
	headers = EventHeaders(common_cpu, common_secs, common_nsecs,
				common_pid, common_comm)
	parser.migrate(headers, pid, prio, orig_cpu, dest_cpu)

def sched__sched_switch(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	prev_comm, prev_pid, prev_prio, prev_state,
	next_comm, next_pid, next_prio):

	headers = EventHeaders(common_cpu, common_secs, common_nsecs,
				common_pid, common_comm)
	parser.sched_switch(headers, prev_comm, prev_pid, prev_prio, prev_state,
			 next_comm, next_pid, next_prio)

def sched__sched_wakeup_new(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio, success,
	target_cpu):
	headers = EventHeaders(common_cpu, common_secs, common_nsecs,
				common_pid, common_comm)
	parser.wake_up(headers, comm, pid, success, target_cpu, 1)

def sched__sched_wakeup(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio, success,
	target_cpu):
	headers = EventHeaders(common_cpu, common_secs, common_nsecs,
				common_pid, common_comm)
	parser.wake_up(headers, comm, pid, success, target_cpu, 0)

def sched__sched_wait_task(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid, prio):
	pass

def sched__sched_kthread_stop_ret(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	ret):
	pass

def sched__sched_kthread_stop(event_name, context, common_cpu,
	common_secs, common_nsecs, common_pid, common_comm,
	comm, pid):
	pass

def trace_unhandled(event_name, context, common_cpu, common_secs, common_nsecs,
		common_pid, common_comm):
	pass