exec: introduce PrivateNetwork= process option to turn off network access to specific...

[elogind.git] / src / systemd-analyze

#!/usr/bin/python

import dbus, sys

def acquire_time_data():

        manager = dbus.Interface(bus.get_object('org.freedesktop.systemd1', '/org/freedesktop/systemd1'), 'org.freedesktop.systemd1.Manager')
        units = manager.ListUnits()

        l = []

        for i in units:
                if i[5] != "":
                        continue

                properties = dbus.Interface(bus.get_object('org.freedesktop.systemd1', i[6]), 'org.freedesktop.DBus.Properties')

                ixt = int(properties.Get('org.freedesktop.systemd1.Unit', 'InactiveExitTimestampMonotonic'))
                aet = int(properties.Get('org.freedesktop.systemd1.Unit', 'ActiveEnterTimestampMonotonic'))
                axt = int(properties.Get('org.freedesktop.systemd1.Unit', 'ActiveExitTimestampMonotonic'))
                iet = int(properties.Get('org.freedesktop.systemd1.Unit', 'InactiveEnterTimestampMonotonic'))

                l.append((str(i[0]), ixt, aet, axt, iet))

        return l

def acquire_start_time():
        properties = dbus.Interface(bus.get_object('org.freedesktop.systemd1', '/org/freedesktop/systemd1'), 'org.freedesktop.DBus.Properties')

        initrd_time = int(properties.Get('org.freedesktop.systemd1.Manager', 'InitRDTimestampMonotonic'))
        startup_time = int(properties.Get('org.freedesktop.systemd1.Manager', 'StartupTimestampMonotonic'))
        finish_time = int(properties.Get('org.freedesktop.systemd1.Manager', 'FinishTimestampMonotonic'))

        assert initrd_time <= startup_time
        assert startup_time <= finish_time

        return initrd_time, startup_time, finish_time

def draw_box(context, j, k, l, m, r = 0, g = 0, b = 0):
        context.save()
        context.set_source_rgb(r, g, b)
        context.rectangle(j, k, l, m)
        context.fill()
        context.restore()

def draw_text(context, x, y, text, size = 12, r = 0, g = 0, b = 0, vcenter = 0.5, hcenter = 0.5):
        context.save()

        context.set_source_rgb(r, g, b)
        context.select_font_face("Sans", cairo.FONT_SLANT_NORMAL, cairo.FONT_WEIGHT_NORMAL)
        context.set_font_size(size)

        if vcenter or hcenter:
                x_bearing, y_bearing, width, height = context.text_extents(text)[:4]

                if hcenter:
                        x = x - width*hcenter - x_bearing

                if vcenter:
                        y = y - height*vcenter - y_bearing

        context.move_to(x, y)
        context.show_text(text)

        context.restore()

def help():
        sys.stdout.write("""systemd-analyze time
systemd-analyze blame
systemd-analyze plot

Process systemd profiling information

  -h --help         Show this help
""")


bus = dbus.SystemBus()

if len(sys.argv) <= 1 or sys.argv[1] == 'time':

        initrd_time, start_time, finish_time = acquire_start_time()

        if initrd_time > 0:
                print "Startup finished in %lums (kernel) + %lums (initrd) + %lums (userspace) = %lums" % ( \
                        initrd_time/1000, \
                        (start_time - initrd_time)/1000, \
                        (finish_time - start_time)/1000, \
                        finish_time/1000)
        else:
                print "Startup finished in %lums (kernel) + %lums (userspace) = %lums" % ( \
                        start_time/1000, \
                        (finish_time - start_time)/1000, \
                        finish_time/1000)


elif sys.argv[1] == 'blame':

        data = acquire_time_data()
        s = sorted(data, key = lambda i: i[2] - i[1], reverse = True)

        for name, ixt, aet, axt, iet in s:

                if ixt <= 0 or aet <= 0:
                        continue

                if aet <= ixt:
                        continue

                sys.stdout.write("%6lums %s\n" % ((aet - ixt) / 1000, name))

elif sys.argv[1] == 'plot':
        import cairo, os

        initrd_time, start_time, finish_time = acquire_start_time()
        data = acquire_time_data()
        s = sorted(data, key = lambda i: i[1])

        count = 0

        for name, ixt, aet, axt, iet in s:

                if (ixt >= start_time and ixt <= finish_time) or \
                                (aet >= start_time and aet <= finish_time) or \
                                (axt >= start_time and axt <= finish_time):
                        count += 1

        border = 100
        bar_height = 20
        bar_space = bar_height * 0.1

        # 1000px = 10s, 1px = 10ms
        width = (finish_time - start_time)/10000 + border*2
        height = count * (bar_height + bar_space) + border * 2

        if width < 1000:
                width = 1000

        surface = cairo.SVGSurface(sys.stdout, width, height)
        context = cairo.Context(surface)

        draw_box(context, 0, 0, width, height, 1, 1, 1)

        context.translate(border + 0.5, border + 0.5)

        context.save()
        context.set_line_width(1)
        context.set_source_rgb(0.7, 0.7, 0.7)

        for x in range(0, (finish_time - start_time)/10000, 100):
                context.move_to(x, 0)
                context.line_to(x, height-border*2)

        context.move_to(0, 0)
        context.line_to(width-border*2, 0)

        context.move_to(0, height-border*2)
        context.line_to(width-border*2, height-border*2)

        context.stroke()
        context.restore()

        banner = "Running on %s (%s %s) %s" % (os.uname()[1], os.uname()[2], os.uname()[3], os.uname()[4])
        draw_text(context, 0, -15, banner, hcenter = 0, vcenter = 1)

        for x in range(0, (finish_time - start_time)/10000, 100):
                draw_text(context, x, -5, "%lus" % (x/100), vcenter = 0, hcenter = 0)

        y = 0

        for name, ixt, aet, axt, iet in s:

                drawn = False
                left = -1

                if ixt >= start_time and ixt <= finish_time:

                        # Activating
                        a = ixt - start_time
                        b = min(filter(lambda x: x >= ixt, (aet, axt, iet, finish_time))) - ixt

                        draw_box(context, a/10000, y, b/10000, bar_height, 1, 0, 0)
                        drawn = True

                        if left < 0:
                                left = a

                if aet >= start_time and aet <= finish_time:

                        # Active
                        a = aet - start_time
                        b = min(filter(lambda x: x >= aet, (axt, iet, finish_time))) - aet

                        draw_box(context, a/10000, y, b/10000, bar_height, .8, .6, .6)
                        drawn = True

                        if left < 0:
                                left = a

                if axt >= start_time and axt <= finish_time:

                        # Deactivating
                        a = axt - start_time
                        b = min(filter(lambda x: x >= axt, (iet, finish_time))) - axt

                        draw_box(context, a/10000, y, b/10000, bar_height, .6, .4, .4)
                        drawn = True

                        if left < 0:
                                left = a

                if drawn:
                        x = left/10000

                        if x < width/2-border:
                                draw_text(context, x + 10, y + bar_height/2, name, hcenter = 0)
                        else:
                                draw_text(context, x - 10, y + bar_height/2, name, hcenter = 1)

                        y += bar_height + bar_space

        draw_text(context, 0, height-border*2, "Legend: Red = Activating; Pink = Active; Dark Pink = Deactivating", hcenter = 0, vcenter = -1)

        surface.finish()
elif sys.argv[1] in ("help", "--help", "-h"):
        help()
else:
        sys.stderr.write("Unknown verb '%s'.\n" % sys.argv[1])
        sys.exit(1)