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# -*- coding: utf-8 -*-
# Description: ntpd netdata python.d module
# Author: Sven Mäder (rda0)
# Author: Ilya Mashchenko (l2isbad)
import struct
import re
from bases.FrameworkServices.SocketService import SocketService
# default module values
update_every = 1
priority = 60000
retries = 60
# NTP Control Message Protocol constants
MODE = 6
HEADER_FORMAT = '!BBHHHHH'
HEADER_LEN = 12
OPCODES = {
'readstat': 1,
'readvar': 2
}
# Maximal dimension precision
PRECISION = 1000000
# Static charts
ORDER = [
'sys_offset',
'sys_jitter',
'sys_frequency',
'sys_wander',
'sys_rootdelay',
'sys_rootdisp',
'sys_stratum',
'sys_tc',
'sys_precision',
'peer_offset',
'peer_delay',
'peer_dispersion',
'peer_jitter',
'peer_xleave',
'peer_rootdelay',
'peer_rootdisp',
'peer_stratum',
'peer_hmode',
'peer_pmode',
'peer_hpoll',
'peer_ppoll',
'peer_precision'
]
CHARTS = {
'sys_offset': {
'options': [None, 'Combined offset of server relative to this host', 'ms', 'system', 'ntpd.sys_offset', 'area'],
'lines': [
['offset', 'offset', 'absolute', 1, PRECISION]
]},
'sys_jitter': {
'options': [None, 'Combined system jitter and clock jitter', 'ms', 'system', 'ntpd.sys_jitter', 'line'],
'lines': [
['sys_jitter', 'system', 'absolute', 1, PRECISION],
['clk_jitter', 'clock', 'absolute', 1, PRECISION]
]},
'sys_frequency': {
'options': [None, 'Frequency offset relative to hardware clock', 'ppm', 'system', 'ntpd.sys_frequency', 'area'],
'lines': [
['frequency', 'frequency', 'absolute', 1, PRECISION]
]},
'sys_wander': {
'options': [None, 'Clock frequency wander', 'ppm', 'system', 'ntpd.sys_wander', 'area'],
'lines': [
['clk_wander', 'clock', 'absolute', 1, PRECISION]
]},
'sys_rootdelay': {
'options': [None, 'Total roundtrip delay to the primary reference clock', 'ms', 'system',
'ntpd.sys_rootdelay', 'area'],
'lines': [
['rootdelay', 'delay', 'absolute', 1, PRECISION]
]},
'sys_rootdisp': {
'options': [None, 'Total root dispersion to the primary reference clock', 'ms', 'system',
'ntpd.sys_rootdisp', 'area'],
'lines': [
['rootdisp', 'dispersion', 'absolute', 1, PRECISION]
]},
'sys_stratum': {
'options': [None, 'Stratum (1-15)', 'stratum', 'system', 'ntpd.sys_stratum', 'line'],
'lines': [
['stratum', 'stratum', 'absolute', 1, PRECISION]
]},
'sys_tc': {
'options': [None, 'Time constant and poll exponent (3-17)', 'log2 s', 'system', 'ntpd.sys_tc', 'line'],
'lines': [
['tc', 'current', 'absolute', 1, PRECISION],
['mintc', 'minimum', 'absolute', 1, PRECISION]
]},
'sys_precision': {
'options': [None, 'Precision', 'log2 s', 'system', 'ntpd.sys_precision', 'line'],
'lines': [
['precision', 'precision', 'absolute', 1, PRECISION]
]}
}
PEER_CHARTS = {
'peer_offset': {
'options': [None, 'Filter offset', 'ms', 'peers', 'ntpd.peer_offset', 'line'],
'lines': [
]},
'peer_delay': {
'options': [None, 'Filter delay', 'ms', 'peers', 'ntpd.peer_delay', 'line'],
'lines': [
]},
'peer_dispersion': {
'options': [None, 'Filter dispersion', 'ms', 'peers', 'ntpd.peer_dispersion', 'line'],
'lines': [
]},
'peer_jitter': {
'options': [None, 'Filter jitter', 'ms', 'peers', 'ntpd.peer_jitter', 'line'],
'lines': [
]},
'peer_xleave': {
'options': [None, 'Interleave delay', 'ms', 'peers', 'ntpd.peer_xleave', 'line'],
'lines': [
]},
'peer_rootdelay': {
'options': [None, 'Total roundtrip delay to the primary reference clock', 'ms', 'peers',
'ntpd.peer_rootdelay', 'line'],
'lines': [
]},
'peer_rootdisp': {
'options': [None, 'Total root dispersion to the primary reference clock', 'ms', 'peers',
'ntpd.peer_rootdisp', 'line'],
'lines': [
]},
'peer_stratum': {
'options': [None, 'Stratum (1-15)', 'stratum', 'peers', 'ntpd.peer_stratum', 'line'],
'lines': [
]},
'peer_hmode': {
'options': [None, 'Host mode (1-6)', 'hmode', 'peers', 'ntpd.peer_hmode', 'line'],
'lines': [
]},
'peer_pmode': {
'options': [None, 'Peer mode (1-5)', 'pmode', 'peers', 'ntpd.peer_pmode', 'line'],
'lines': [
]},
'peer_hpoll': {
'options': [None, 'Host poll exponent', 'log2 s', 'peers', 'ntpd.peer_hpoll', 'line'],
'lines': [
]},
'peer_ppoll': {
'options': [None, 'Peer poll exponent', 'log2 s', 'peers', 'ntpd.peer_ppoll', 'line'],
'lines': [
]},
'peer_precision': {
'options': [None, 'Precision', 'log2 s', 'peers', 'ntpd.peer_precision', 'line'],
'lines': [
]}
}
class Base:
regex = re.compile(r'([a-z_]+)=((?:-)?[0-9]+(?:\.[0-9]+)?)')
@staticmethod
def get_header(associd=0, operation='readvar'):
"""
Constructs the NTP Control Message header:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|LI | VN |Mode |R|E|M| OpCode | Sequence Number |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Status | Association ID |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Offset | Count |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
"""
version = 2
sequence = 1
status = 0
offset = 0
count = 0
header = struct.pack(HEADER_FORMAT, (version << 3 | MODE), OPCODES[operation],
sequence, status, associd, offset, count)
return header
class System(Base):
def __init__(self):
self.request = self.get_header()
def get_data(self, raw):
"""
Extracts key=value pairs with float/integer from ntp response packet data.
"""
data = dict()
for key, value in self.regex.findall(raw):
data[key] = float(value) * PRECISION
return data
class Peer(Base):
def __init__(self, idx, name):
self.id = idx
self.real_name = name
self.name = name.replace('.', '_')
self.request = self.get_header(self.id)
def get_data(self, raw):
"""
Extracts key=value pairs with float/integer from ntp response packet data.
"""
data = dict()
for key, value in self.regex.findall(raw):
dimension = '_'.join([self.name, key])
data[dimension] = float(value) * PRECISION
return data
class Service(SocketService):
def __init__(self, configuration=None, name=None):
SocketService.__init__(self, configuration=configuration, name=name)
self.order = list(ORDER)
self.definitions = dict(CHARTS)
self.port = 'ntp'
self.dgram_socket = True
self.system = System()
self.peers = dict()
self.request = str()
self.retries = 0
self.show_peers = self.configuration.get('show_peers', False)
self.peer_rescan = self.configuration.get('peer_rescan', 60)
if self.show_peers:
self.definitions.update(PEER_CHARTS)
def check(self):
"""
Checks if we can get valid systemvars.
If not, returns None to disable module.
"""
self._parse_config()
peer_filter = self.configuration.get('peer_filter', r'127\..*')
try:
self.peer_filter = re.compile(r'^((0\.0\.0\.0)|({0}))$'.format(peer_filter))
except re.error as error:
self.error('Compile pattern error (peer_filter) : {0}'.format(error))
return None
self.request = self.system.request
raw_systemvars = self._get_raw_data()
if not self.system.get_data(raw_systemvars):
return None
return True
def get_data(self):
"""
Gets systemvars data on each update.
Gets peervars data for all peers on each update.
"""
data = dict()
self.request = self.system.request
raw = self._get_raw_data()
if not raw:
return None
data.update(self.system.get_data(raw))
if not self.show_peers:
return data
if not self.peers or self.runs_counter % self.peer_rescan == 0 or self.retries > 8:
self.find_new_peers()
for peer in self.peers.values():
self.request = peer.request
peer_data = peer.get_data(self._get_raw_data())
if peer_data:
data.update(peer_data)
else:
self.retries += 1
return data
def find_new_peers(self):
new_peers = dict((p.real_name, p) for p in self.get_peers())
if new_peers:
peers_to_remove = set(self.peers) - set(new_peers)
peers_to_add = set(new_peers) - set(self.peers)
for peer_name in peers_to_remove:
self.hide_old_peer_from_charts(self.peers[peer_name])
del self.peers[peer_name]
for peer_name in peers_to_add:
self.add_new_peer_to_charts(new_peers[peer_name])
self.peers.update(new_peers)
self.retries = 0
def add_new_peer_to_charts(self, peer):
for chart_id in set(self.charts.charts) & set(PEER_CHARTS):
dim_id = peer.name + chart_id[4:]
if dim_id not in self.charts[chart_id]:
self.charts[chart_id].add_dimension([dim_id, peer.real_name, 'absolute', 1, PRECISION])
else:
self.charts[chart_id].hide_dimension(dim_id, reverse=True)
def hide_old_peer_from_charts(self, peer):
for chart_id in set(self.charts.charts) & set(PEER_CHARTS):
dim_id = peer.name + chart_id[4:]
self.charts[chart_id].hide_dimension(dim_id)
def get_peers(self):
self.request = Base.get_header(operation='readstat')
raw_data = self._get_raw_data(raw=True)
if not raw_data:
return list()
peer_ids = self.get_peer_ids(raw_data)
if not peer_ids:
return list()
new_peers = list()
for peer_id in peer_ids:
self.request = Base.get_header(peer_id)
raw_peer_data = self._get_raw_data()
if not raw_peer_data:
continue
srcadr = re.search(r'(srcadr)=([^,]+)', raw_peer_data)
if not srcadr:
continue
srcadr = srcadr.group(2)
if self.peer_filter.search(srcadr):
continue
stratum = re.search(r'(stratum)=([^,]+)', raw_peer_data)
if not stratum:
continue
if int(stratum.group(2)) > 15:
continue
new_peer = Peer(idx=peer_id, name=srcadr)
new_peers.append(new_peer)
return new_peers
def get_peer_ids(self, res):
"""
Unpack the NTP Control Message header
Get data length from header
Get list of association ids returned in the readstat response
"""
try:
count = struct.unpack(HEADER_FORMAT, res[:HEADER_LEN])[6]
except struct.error as error:
self.error('error unpacking header: {0}'.format(error))
return None
if not count:
self.error('empty data field in NTP control packet')
return None
data_end = HEADER_LEN + count
data = res[HEADER_LEN:data_end]
data_format = ''.join(['!', 'H' * int(count / 2)])
try:
peer_ids = list(struct.unpack(data_format, data))[::2]
except struct.error as error:
self.error('error unpacking data: {0}'.format(error))
return None
return peer_ids
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