def __elapse(self):
if self.__timer == 0:
for m in self.__env.HOSTS:
self.__scr.writeFooter(_("Loading ..."))
self.__scr.refresh()
try:
self.__cpu_num[m] = Utils.safeInt(Data.getRRD("%s/%s/cpu_num.rrd" % (self.__env.DATADIR, m))[-1][1])
self.__cpu_speed[m] = Utils.safeFloat(Data.getRRD("%s/%s/cpu_speed.rrd" % (self.__env.DATADIR, m))[-1][1])
self.__cpu_user[m] = Data.getRRD("%s/%s/cpu_user.rrd" % (self.__env.DATADIR, m))
self.__cpu_system[m] = Data.getRRD("%s/%s/cpu_system.rrd" % (self.__env.DATADIR, m))
self.__mem_buffers[m] = Data.getRRD("%s/%s/mem_buffers.rrd" % (self.__env.DATADIR, m))
self.__mem_cached[m] = Data.getRRD("%s/%s/mem_cached.rrd" % (self.__env.DATADIR, m))
self.__mem_free[m] = Data.getRRD("%s/%s/mem_free.rrd" % (self.__env.DATADIR, m))
self.__mem_total[m] = Data.getRRD("%s/%s/mem_total.rrd" % (self.__env.DATADIR, m))
self.__cpu_topuser[m] = Data.getProcData("%s/%s/cpu_topuser" % (self.__env.DATADIR, m))
self.__mem_topuser[m] = Data.getProcData("%s/%s/mem_topuser" % (self.__env.DATADIR, m))
except ElementTree.ParseError:
return False
except IOError:
return False
self.__redraw = True
# go ahead
self.__timer += 1
if self.__timer >= self.__options.interval * 1000 // Screen.timeout():
self.__timer = 0
return True
def __elapse(self):
if self.__timer == 0:
for m in self.__env.HOSTS:
self.__scr.writeFooter(_("Loading ..."))
self.__scr.refresh()
try:
self.__cpu_num[m] = Utils.safeInt(
Data.getRRD("%s/%s/cpu_num.rrd" %
(self.__env.DATADIR, m))[-1][1])
self.__cpu_speed[m] = Utils.safeFloat(
Data.getRRD("%s/%s/cpu_speed.rrd" %
(self.__env.DATADIR, m))[-1][1])
self.__cpu_user[m] = Data.getRRD("%s/%s/cpu_user.rrd" %
(self.__env.DATADIR, m))
self.__cpu_system[m] = Data.getRRD("%s/%s/cpu_system.rrd" %
(self.__env.DATADIR, m))
self.__mem_buffers[m] = Data.getRRD(
"%s/%s/mem_buffers.rrd" % (self.__env.DATADIR, m))
self.__mem_cached[m] = Data.getRRD("%s/%s/mem_cached.rrd" %
(self.__env.DATADIR, m))
self.__mem_free[m] = Data.getRRD("%s/%s/mem_free.rrd" %
(self.__env.DATADIR, m))
self.__mem_total[m] = Data.getRRD("%s/%s/mem_total.rrd" %
(self.__env.DATADIR, m))
self.__cpu_topuser[m] = Data.getProcData(
"%s/%s/cpu_topuser" % (self.__env.DATADIR, m))
self.__mem_topuser[m] = Data.getProcData(
"%s/%s/mem_topuser" % (self.__env.DATADIR, m))
except ElementTree.ParseError:
return False
except IOError:
return False
self.__redraw = True
# go ahead
self.__timer += 1
if self.__timer >= self.__options.interval * 1000 // Screen.timeout():
self.__timer = 0
return True
def __drawStatus(self, x, y, current, step, hostname):
# variables
cpu_user = self.__cpu_user[hostname]
cpu_system = self.__cpu_system[hostname]
cpu_num = self.__cpu_num[hostname]
cpu_speed = self.__cpu_speed[hostname]
cpu_topuser = self.__cpu_topuser[hostname]
mem_free = self.__mem_free[hostname]
mem_buffers = self.__mem_buffers[hostname]
mem_cached = self.__mem_cached[hostname]
mem_total = self.__mem_total[hostname]
mem_topuser = self.__mem_topuser[hostname]
# utilities
hspace = ' ' * self.__chart_w
hline = '-' * self.__chart_w
rowText = lambda l, r, sep: sep + l + sep + r + sep # ex. '|@@@@|####|'
cpu_title = "cpu (%d * %sHz)" % (cpu_num, (("%.1fG" % (cpu_speed / 1000)) if cpu_speed >= 1000 else ("%.1fM" % cpu_speed)))
mem_title = "mem (%siB)" % (("%.1fG" % (mem_total[-1][1] / 1024 / 1024)) if mem_total[-1][1] >= 1024 else ("%.1fM" % (mem_total[-1][1] / 1024)))
cpu_title = cpu_title[:self.__chart_w]
mem_title = mem_title[:self.__chart_w]
self.__scr.write(y + 1, x, rowText(hspace, hspace, ' '))
self.__scr.write(y + 1, x + 1, cpu_title.center(self.__chart_w))
self.__scr.write(y + 1, x + self.__chart_w + 2, mem_title.center(self.__chart_w))
self.__scr.write(y + 2, x, rowText(hline, hline, '|'))
for i in range(self.__chart_h):
self.__scr.write(y + 3 + i, x, rowText(hspace, hspace, '|'))
self.__scr.write(y + 3 + self.__chart_h, x, rowText(hline, hline, '|'))
for j in range(self.__chart_w):
val1 = Data.getRRDValue(cpu_system, current + (j - self.__chart_w + 1) * step, step)
val2 = Data.getRRDValue(cpu_user, current + (j - self.__chart_w + 1) * step, step)
if val1 < 0 or val2 < 0:
for i in range(self.__chart_h):
self.__scr.write(y + 3 + i, x + 1 + j, "?")
continue
val2 += val1
for i in range(self.__chart_h):
if val2 > i / self.__chart_h * 100:
self.__scr.write(y + self.__chart_h + 2 - i, x + 1 + j, "#", 'USER')
for i in range(self.__chart_h):
if val1 > i / self.__chart_h * 100:
self.__scr.write(y + self.__chart_h + 2 - i, x + 1 + j, "@", 'SYSTEM')
i = 0
if self.__showusers:
self.__scr.write(y + 4 + self.__chart_h, x, rowText(hspace, hspace, '|'))
self.__scr.write(y + 5 + self.__chart_h, x, rowText(hspace, hspace, '|'))
self.__scr.write(y + 6 + self.__chart_h, x, rowText(hline, hline, '|'))
for u in cpu_topuser:
mu = u[:]
mu[1] += "%"
mu[2] = mu[2].split("/")[-1]
s = " ".join(mu)
self.__scr.write(y + self.__chart_h + 4 + i, x + 2, s[:self.__chart_w - 2])
i += 1
for j in range(self.__chart_w):
total = Data.getRRDValue(mem_total, current + (j - self.__chart_w + 1) * step, step)
val1 = Data.getRRDValue(mem_free, current + (j - self.__chart_w + 1) * step, step)
val2 = Data.getRRDValue(mem_cached, current + (j - self.__chart_w + 1) * step, step)
val3 = Data.getRRDValue(mem_buffers, current + (j - self.__chart_w + 1) * step, step)
if total <= 0 or val1 < 0 or val2 < 0 or val3 < 0:
for i in range(self.__chart_h):
self.__scr.write(y + 3 + i, x + self.__chart_w + 2 + j, "?")
continue
used = (total - val1) / total
active = used - (val2 - val3) / total
for i in range(self.__chart_h):
r = (self.__chart_h - i) / self.__chart_h
if r < active:
self.__scr.write(y + 3 + i, x + self.__chart_w + 2 + j, "#", 'USER')
elif r < used:
self.__scr.write(y + 3 + i, x + self.__chart_w + 2 + j, ".", 'CACHE')
i = 0
if self.__showusers:
for u in mem_topuser:
mu = u[:]
mu[1] += "%"
mu[2] = mu[2].split("/")[-1]
s = " ".join(mu)
self.__scr.write(y + self.__chart_h + 4 + i, x + self.__chart_w + 3, s[:self.__chart_w - 2])
i += 1
def __drawStatus(self, x, y, current, step, hostname):
# variables
cpu_user = self.__cpu_user[hostname]
cpu_system = self.__cpu_system[hostname]
cpu_num = self.__cpu_num[hostname]
cpu_speed = self.__cpu_speed[hostname]
cpu_topuser = self.__cpu_topuser[hostname]
mem_free = self.__mem_free[hostname]
mem_buffers = self.__mem_buffers[hostname]
mem_cached = self.__mem_cached[hostname]
mem_total = self.__mem_total[hostname]
mem_topuser = self.__mem_topuser[hostname]
# utilities
hspace = ' ' * self.__chart_w
hline = '-' * self.__chart_w
rowText = lambda l, r, sep: sep + l + sep + r + sep # ex. '|@@@@|####|'
cpu_title = "cpu (%d * %sHz)" % (cpu_num, (
("%.1fG" % (cpu_speed / 1000)) if cpu_speed >= 1000 else
("%.1fM" % cpu_speed)))
mem_title = "mem (%siB)" % (
("%.1fG" %
(mem_total[-1][1] / 1024 / 1024)) if mem_total[-1][1] >= 1024 else
("%.1fM" % (mem_total[-1][1] / 1024)))
cpu_title = cpu_title[:self.__chart_w]
mem_title = mem_title[:self.__chart_w]
self.__scr.write(y + 1, x, rowText(hspace, hspace, ' '))
self.__scr.write(y + 1, x + 1, cpu_title.center(self.__chart_w))
self.__scr.write(y + 1, x + self.__chart_w + 2,
mem_title.center(self.__chart_w))
self.__scr.write(y + 2, x, rowText(hline, hline, '|'))
for i in range(self.__chart_h):
self.__scr.write(y + 3 + i, x, rowText(hspace, hspace, '|'))
self.__scr.write(y + 3 + self.__chart_h, x, rowText(hline, hline, '|'))
for j in range(self.__chart_w):
val1 = Data.getRRDValue(cpu_system,
current + (j - self.__chart_w + 1) * step,
step)
val2 = Data.getRRDValue(cpu_user,
current + (j - self.__chart_w + 1) * step,
step)
if val1 < 0 or val2 < 0:
for i in range(self.__chart_h):
self.__scr.write(y + 3 + i, x + 1 + j, "?")
continue
val2 += val1
for i in range(self.__chart_h):
if val2 > i / self.__chart_h * 100:
self.__scr.write(y + self.__chart_h + 2 - i, x + 1 + j,
"#", 'USER')
for i in range(self.__chart_h):
if val1 > i / self.__chart_h * 100:
self.__scr.write(y + self.__chart_h + 2 - i, x + 1 + j,
"@", 'SYSTEM')
i = 0
if self.__showusers:
self.__scr.write(y + 4 + self.__chart_h, x,
rowText(hspace, hspace, '|'))
self.__scr.write(y + 5 + self.__chart_h, x,
rowText(hspace, hspace, '|'))
self.__scr.write(y + 6 + self.__chart_h, x,
rowText(hline, hline, '|'))
for u in cpu_topuser:
mu = u[:]
mu[1] += "%"
mu[2] = mu[2].split("/")[-1]
s = " ".join(mu)
self.__scr.write(y + self.__chart_h + 4 + i, x + 2,
s[:self.__chart_w - 2])
i += 1
for j in range(self.__chart_w):
total = Data.getRRDValue(mem_total,
current + (j - self.__chart_w + 1) * step,
step)
val1 = Data.getRRDValue(mem_free,
current + (j - self.__chart_w + 1) * step,
step)
val2 = Data.getRRDValue(mem_cached,
current + (j - self.__chart_w + 1) * step,
step)
val3 = Data.getRRDValue(mem_buffers,
current + (j - self.__chart_w + 1) * step,
step)
if total <= 0 or val1 < 0 or val2 < 0 or val3 < 0:
for i in range(self.__chart_h):
self.__scr.write(y + 3 + i, x + self.__chart_w + 2 + j,
"?")
continue
used = (total - val1) / total
active = used - (val2 - val3) / total
for i in range(self.__chart_h):
r = (self.__chart_h - i) / self.__chart_h
if r < active:
self.__scr.write(y + 3 + i, x + self.__chart_w + 2 + j,
"#", 'USER')
elif r < used:
self.__scr.write(y + 3 + i, x + self.__chart_w + 2 + j,
".", 'CACHE')
i = 0
if self.__showusers:
for u in mem_topuser:
mu = u[:]
mu[1] += "%"
mu[2] = mu[2].split("/")[-1]
s = " ".join(mu)
self.__scr.write(y + self.__chart_h + 4 + i,
x + self.__chart_w + 3,
s[:self.__chart_w - 2])
i += 1
