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# This file is part of pybootchartgui.
# pybootchartgui is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# pybootchartgui is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with pybootchartgui. If not, see <http://www.gnu.org/licenses/>.
class DiskStatSample:
def __init__(self, time):
self.time = time
self.diskdata = [0, 0, 0]
def add_diskdata(self, new_diskdata):
self.diskdata = [ a + b for a, b in zip(self.diskdata, new_diskdata) ]
class CPUSample:
def __init__(self, time, user, sys, io = 0.0, swap = 0.0):
self.time = time
self.user = user
self.sys = sys
self.io = io
self.swap = swap
@property
def cpu(self):
return self.user + self.sys
def __str__(self):
return str(self.time) + "\t" + str(self.user) + "\t" + \
str(self.sys) + "\t" + str(self.io) + "\t" + str (self.swap)
class MemSample:
used_values = ('MemTotal', 'MemFree', 'Buffers', 'Cached', 'SwapTotal', 'SwapFree',)
def __init__(self, time):
self.time = time
self.records = {}
def add_value(self, name, value):
if name in MemSample.used_values:
self.records[name] = value
def valid(self):
keys = self.records.keys()
# discard incomplete samples
return [v for v in MemSample.used_values if v not in keys] == []
class DrawMemSample:
"""
Condensed version of a MemSample with exactly the values used by the drawing code.
Initialized either from a valid MemSample or
a tuple/list of buffer/used/cached/swap values.
"""
def __init__(self, mem_sample):
self.time = mem_sample.time
if isinstance(mem_sample, MemSample):
self.buffers = mem_sample.records['MemTotal'] - mem_sample.records['MemFree']
self.used = mem_sample.records['MemTotal'] - mem_sample.records['MemFree'] - mem_sample.records['Buffers']
self.cached = mem_sample.records['Cached']
self.swap = mem_sample.records['SwapTotal'] - mem_sample.records['SwapFree']
else:
self.buffers, self.used, self.cached, self.swap = mem_sample
class DiskSpaceSample:
def __init__(self, time):
self.time = time
self.records = {}
def add_value(self, name, value):
self.records[name] = value
def valid(self):
return bool(self.records)
class ProcessSample:
def __init__(self, time, state, cpu_sample):
self.time = time
self.state = state
self.cpu_sample = cpu_sample
def __str__(self):
return str(self.time) + "\t" + str(self.state) + "\t" + str(self.cpu_sample)
class ProcessStats:
def __init__(self, writer, process_map, sample_count, sample_period, start_time, end_time):
self.process_map = process_map
self.sample_count = sample_count
self.sample_period = sample_period
self.start_time = start_time
self.end_time = end_time
writer.info ("%d samples, avg. sample length %f" % (self.sample_count, self.sample_period))
writer.info ("process list size: %d" % len (self.process_map.values()))
class Process:
def __init__(self, writer, pid, cmd, ppid, start_time):
self.writer = writer
self.pid = pid
self.cmd = cmd
self.exe = cmd
self.args = []
self.ppid = ppid
self.start_time = start_time
self.duration = 0
self.samples = []
self.parent = None
self.child_list = []
self.active = None
self.last_user_cpu_time = None
self.last_sys_cpu_time = None
self.last_cpu_ns = 0
self.last_blkio_delay_ns = 0
self.last_swapin_delay_ns = 0
# split this process' run - triggered by a name change
def split(self, writer, pid, cmd, ppid, start_time):
split = Process (writer, pid, cmd, ppid, start_time)
split.last_cpu_ns = self.last_cpu_ns
split.last_blkio_delay_ns = self.last_blkio_delay_ns
split.last_swapin_delay_ns = self.last_swapin_delay_ns
return split
def __str__(self):
return " ".join([str(self.pid), self.cmd, str(self.ppid), '[ ' + str(len(self.samples)) + ' samples ]' ])
def calc_stats(self, samplePeriod):
if self.samples:
firstSample = self.samples[0]
lastSample = self.samples[-1]
self.start_time = min(firstSample.time, self.start_time)
self.duration = lastSample.time - self.start_time + samplePeriod
activeCount = sum( [1 for sample in self.samples if sample.cpu_sample and sample.cpu_sample.sys + sample.cpu_sample.user + sample.cpu_sample.io > 0.0] )
activeCount = activeCount + sum( [1 for sample in self.samples if sample.state == 'D'] )
self.active = (activeCount>2)
def calc_load(self, userCpu, sysCpu, interval):
userCpuLoad = float(userCpu - self.last_user_cpu_time) / interval
sysCpuLoad = float(sysCpu - self.last_sys_cpu_time) / interval
cpuLoad = userCpuLoad + sysCpuLoad
# normalize
if cpuLoad > 1.0:
userCpuLoad = userCpuLoad / cpuLoad
sysCpuLoad = sysCpuLoad / cpuLoad
return (userCpuLoad, sysCpuLoad)
def set_parent(self, processMap):
if self.ppid != None:
self.parent = processMap.get (self.ppid)
if self.parent == None and self.pid // 1000 > 1 and \
not (self.ppid == 2000 or self.pid == 2000): # kernel threads: ppid=2
self.writer.warn("Missing CONFIG_PROC_EVENTS: no parent for pid '%i' ('%s') with ppid '%i'" \
% (self.pid,self.cmd,self.ppid))
def get_end_time(self):
return self.start_time + self.duration
class DiskSample:
def __init__(self, time, read, write, util):
self.time = time
self.read = read
self.write = write
self.util = util
self.tput = read + write
def __str__(self):
return "\t".join([str(self.time), str(self.read), str(self.write), str(self.util)])
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