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util.py
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util.py
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# stdlib
from hashlib import md5
import logging
import math
import os
import platform
import re
import signal
import socket
import sys
import time
import types
import urllib2
import uuid
# 3p
import simplejson as json
import yaml # noqa, let's guess, probably imported somewhere
from tornado import ioloop
try:
from yaml import CLoader as yLoader
from yaml import CDumper as yDumper
except ImportError:
# On source install C Extensions might have not been built
from yaml import Loader as yLoader # noqa, imported from here elsewhere
from yaml import Dumper as yDumper # noqa, imported from here elsewhere
# These classes are now in utils/, they are just here for compatibility reasons,
# if a user actually uses them in a custom check
# If you're this user, please use utils.pidfile or utils.platform instead
# FIXME: remove them at a point (6.x)
from utils.pidfile import PidFile # noqa, see ^^^
from utils.platform import Platform
from utils.subprocess_output import subprocess
VALID_HOSTNAME_RFC_1123_PATTERN = re.compile(r"^(([a-zA-Z0-9]|[a-zA-Z0-9][a-zA-Z0-9\-]*[a-zA-Z0-9])\.)*([A-Za-z0-9]|[A-Za-z0-9][A-Za-z0-9\-]*[A-Za-z0-9])$")
MAX_HOSTNAME_LEN = 255
COLON_NON_WIN_PATH = re.compile(':(?!\\\\)')
log = logging.getLogger(__name__)
NumericTypes = (float, int, long)
def plural(count):
if count == 1:
return ""
return "s"
def get_tornado_ioloop():
return ioloop.IOLoop.current()
def get_uuid():
# Generate a unique name that will stay constant between
# invocations, such as platform.node() + uuid.getnode()
# Use uuid5, which does not depend on the clock and is
# recommended over uuid3.
# This is important to be able to identify a server even if
# its drives have been wiped clean.
# Note that this is not foolproof but we can reconcile servers
# on the back-end if need be, based on mac addresses.
return uuid.uuid5(uuid.NAMESPACE_DNS, platform.node() + str(uuid.getnode())).hex
def get_os():
"Human-friendly OS name"
if sys.platform == 'darwin':
return 'mac'
elif sys.platform.find('freebsd') != -1:
return 'freebsd'
elif sys.platform.find('linux') != -1:
return 'linux'
elif sys.platform.find('win32') != -1:
return 'windows'
elif sys.platform.find('sunos') != -1:
return 'solaris'
else:
return sys.platform
def headers(agentConfig):
# Build the request headers
return {
'User-Agent': 'Datadog Agent/%s' % agentConfig['version'],
'Content-Type': 'application/x-www-form-urlencoded',
'Accept': 'text/html, */*',
}
def windows_friendly_colon_split(config_string):
'''
Perform a split by ':' on the config_string
without splitting on the start of windows path
'''
if Platform.is_win32():
# will split on path/to/module.py:blabla but not on C:\\path
return COLON_NON_WIN_PATH.split(config_string)
else:
return config_string.split(':')
def getTopIndex():
macV = None
if sys.platform == 'darwin':
macV = platform.mac_ver()
# Output from top is slightly modified on OS X 10.6 (case #28239)
if macV and macV[0].startswith('10.6.'):
return 6
else:
return 5
def isnan(val):
if hasattr(math, 'isnan'):
return math.isnan(val)
# for py < 2.6, use a different check
# http://stackoverflow.com/questions/944700/how-to-check-for-nan-in-python
return str(val) == str(1e400*0)
def cast_metric_val(val):
# ensure that the metric value is a numeric type
if not isinstance(val, NumericTypes):
# Try the int conversion first because want to preserve
# whether the value is an int or a float. If neither work,
# raise a ValueError to be handled elsewhere
for cast in [int, float]:
try:
val = cast(val)
return val
except ValueError:
continue
raise ValueError
return val
_IDS = {}
def get_next_id(name):
global _IDS
current_id = _IDS.get(name, 0)
current_id += 1
_IDS[name] = current_id
return current_id
def is_valid_hostname(hostname):
if hostname.lower() in set([
'localhost',
'localhost.localdomain',
'localhost6.localdomain6',
'ip6-localhost',
]):
log.warning("Hostname: %s is local" % hostname)
return False
if len(hostname) > MAX_HOSTNAME_LEN:
log.warning("Hostname: %s is too long (max length is %s characters)" % (hostname, MAX_HOSTNAME_LEN))
return False
if VALID_HOSTNAME_RFC_1123_PATTERN.match(hostname) is None:
log.warning("Hostname: %s is not complying with RFC 1123" % hostname)
return False
return True
def get_hostname(config=None):
"""
Get the canonical host name this agent should identify as. This is
the authoritative source of the host name for the agent.
Tries, in order:
* agent config (datadog.conf, "hostname:")
* 'hostname -f' (on unix)
* socket.gethostname()
"""
hostname = None
# first, try the config
if config is None:
from config import get_config
config = get_config(parse_args=True)
config_hostname = config.get('hostname')
if config_hostname and is_valid_hostname(config_hostname):
return config_hostname
#Try to get GCE instance name
if hostname is None:
gce_hostname = GCE.get_hostname(config)
if gce_hostname is not None:
if is_valid_hostname(gce_hostname):
return gce_hostname
# then move on to os-specific detection
if hostname is None:
def _get_hostname_unix():
try:
# try fqdn
p = subprocess.Popen(['/bin/hostname', '-f'], stdout=subprocess.PIPE)
out, err = p.communicate()
if p.returncode == 0:
return out.strip()
except Exception:
return None
os_name = get_os()
if os_name in ['mac', 'freebsd', 'linux', 'solaris']:
unix_hostname = _get_hostname_unix()
if unix_hostname and is_valid_hostname(unix_hostname):
hostname = unix_hostname
# if we have an ec2 default hostname, see if there's an instance-id available
if (Platform.is_ecs_instance()) or (hostname is not None and True in [hostname.lower().startswith(p) for p in [u'ip-', u'domu']]):
instanceid = EC2.get_instance_id(config)
if instanceid:
hostname = instanceid
# fall back on socket.gethostname(), socket.getfqdn() is too unreliable
if hostname is None:
try:
socket_hostname = socket.gethostname()
except socket.error, e:
socket_hostname = None
if socket_hostname and is_valid_hostname(socket_hostname):
hostname = socket_hostname
if hostname is None:
log.critical('Unable to reliably determine host name. You can define one in datadog.conf or in your hosts file')
raise Exception('Unable to reliably determine host name. You can define one in datadog.conf or in your hosts file')
else:
return hostname
class GCE(object):
URL = "http://169.254.169.254/computeMetadata/v1/?recursive=true"
TIMEOUT = 0.1 # second
SOURCE_TYPE_NAME = 'google cloud platform'
metadata = None
EXCLUDED_ATTRIBUTES = ["sshKeys", "user-data", "cli-cert", "ipsec-cert", "ssl-cert"]
@staticmethod
def _get_metadata(agentConfig):
if GCE.metadata is not None:
return GCE.metadata
if not agentConfig['collect_instance_metadata']:
log.info("Instance metadata collection is disabled. Not collecting it.")
GCE.metadata = {}
return GCE.metadata
socket_to = None
try:
socket_to = socket.getdefaulttimeout()
socket.setdefaulttimeout(GCE.TIMEOUT)
except Exception:
pass
try:
opener = urllib2.build_opener()
opener.addheaders = [('X-Google-Metadata-Request','True')]
GCE.metadata = json.loads(opener.open(GCE.URL).read().strip())
except Exception:
GCE.metadata = {}
try:
if socket_to is None:
socket_to = 3
socket.setdefaulttimeout(socket_to)
except Exception:
pass
return GCE.metadata
@staticmethod
def get_tags(agentConfig):
if not agentConfig['collect_instance_metadata']:
return None
try:
host_metadata = GCE._get_metadata(agentConfig)
tags = []
for key, value in host_metadata['instance'].get('attributes', {}).iteritems():
if key in GCE.EXCLUDED_ATTRIBUTES:
continue
tags.append("%s:%s" % (key, value))
tags.extend(host_metadata['instance'].get('tags', []))
tags.append('zone:%s' % host_metadata['instance']['zone'].split('/')[-1])
tags.append('instance-type:%s' % host_metadata['instance']['machineType'].split('/')[-1])
tags.append('internal-hostname:%s' % host_metadata['instance']['hostname'])
tags.append('instance-id:%s' % host_metadata['instance']['id'])
tags.append('project:%s' % host_metadata['project']['projectId'])
tags.append('numeric_project_id:%s' % host_metadata['project']['numericProjectId'])
GCE.metadata['hostname'] = host_metadata['instance']['hostname'].split('.')[0]
return tags
except Exception:
return None
@staticmethod
def get_hostname(agentConfig):
try:
host_metadata = GCE._get_metadata(agentConfig)
hostname = host_metadata['instance']['hostname']
if agentConfig.get('gce_updated_hostname'):
return hostname
else:
return hostname.split('.')[0]
except Exception:
return None
@staticmethod
def get_host_aliases(agentConfig):
try:
host_metadata = GCE._get_metadata(agentConfig)
project_id = host_metadata['project']['projectId']
instance_name = host_metadata['instance']['hostname'].split('.')[0]
return ['%s.%s' % (instance_name, project_id)]
except Exception:
return None
class EC2(object):
"""Retrieve EC2 metadata
"""
EC2_METADATA_HOST = "http://169.254.169.254"
METADATA_URL_BASE = EC2_METADATA_HOST + "/latest/meta-data"
INSTANCE_IDENTITY_URL = EC2_METADATA_HOST + "/latest/dynamic/instance-identity/document"
TIMEOUT = 0.1 # second
metadata = {}
@staticmethod
def get_tags(agentConfig):
if not agentConfig['collect_instance_metadata']:
log.info("Instance metadata collection is disabled. Not collecting it.")
return []
socket_to = None
try:
socket_to = socket.getdefaulttimeout()
socket.setdefaulttimeout(EC2.TIMEOUT)
except Exception:
pass
try:
iam_role = urllib2.urlopen(EC2.METADATA_URL_BASE + "/iam/security-credentials/").read().strip()
iam_params = json.loads(urllib2.urlopen(EC2.METADATA_URL_BASE + "/iam/security-credentials/" + unicode(iam_role)).read().strip())
instance_identity = json.loads(urllib2.urlopen(EC2.INSTANCE_IDENTITY_URL).read().strip())
region = instance_identity['region']
import boto.ec2
connection = boto.ec2.connect_to_region(region, aws_access_key_id=iam_params['AccessKeyId'], aws_secret_access_key=iam_params['SecretAccessKey'], security_token=iam_params['Token'])
tag_object = connection.get_all_tags({'resource-id': EC2.metadata['instance-id']})
EC2_tags = [u"%s:%s" % (tag.name, tag.value) for tag in tag_object]
except Exception:
log.exception("Problem retrieving custom EC2 tags")
EC2_tags = []
try:
if socket_to is None:
socket_to = 3
socket.setdefaulttimeout(socket_to)
except Exception:
pass
return EC2_tags
@staticmethod
def get_metadata(agentConfig):
"""Use the ec2 http service to introspect the instance. This adds latency if not running on EC2
"""
# >>> import urllib2
# >>> urllib2.urlopen('http://169.254.169.254/latest/', timeout=1).read()
# 'meta-data\nuser-data'
# >>> urllib2.urlopen('http://169.254.169.254/latest/meta-data', timeout=1).read()
# 'ami-id\nami-launch-index\nami-manifest-path\nhostname\ninstance-id\nlocal-ipv4\npublic-keys/\nreservation-id\nsecurity-groups'
# >>> urllib2.urlopen('http://169.254.169.254/latest/meta-data/instance-id', timeout=1).read()
# 'i-deadbeef'
# Every call may add TIMEOUT seconds in latency so don't abuse this call
# python 2.4 does not support an explicit timeout argument so force it here
# Rather than monkey-patching urllib2, just lower the timeout globally for these calls
if not agentConfig['collect_instance_metadata']:
log.info("Instance metadata collection is disabled. Not collecting it.")
return {}
socket_to = None
try:
socket_to = socket.getdefaulttimeout()
socket.setdefaulttimeout(EC2.TIMEOUT)
except Exception:
pass
for k in ('instance-id', 'hostname', 'local-hostname', 'public-hostname', 'ami-id', 'local-ipv4', 'public-keys/', 'public-ipv4', 'reservation-id', 'security-groups'):
try:
v = urllib2.urlopen(EC2.METADATA_URL_BASE + "/" + unicode(k)).read().strip()
assert type(v) in (types.StringType, types.UnicodeType) and len(v) > 0, "%s is not a string" % v
EC2.metadata[k.rstrip('/')] = v
except Exception:
pass
try:
if socket_to is None:
socket_to = 3
socket.setdefaulttimeout(socket_to)
except Exception:
pass
return EC2.metadata
@staticmethod
def get_instance_id(agentConfig):
try:
return EC2.get_metadata(agentConfig).get("instance-id", None)
except Exception:
return None
class Watchdog(object):
"""Simple signal-based watchdog that will scuttle the current process
if it has not been reset every N seconds, or if the processes exceeds
a specified memory threshold.
Can only be invoked once per process, so don't use with multiple threads.
If you instantiate more than one, you're also asking for trouble.
"""
def __init__(self, duration, max_mem_mb = None):
import resource
#Set the duration
self._duration = int(duration)
signal.signal(signal.SIGALRM, Watchdog.self_destruct)
# cap memory usage
if max_mem_mb is not None:
self._max_mem_kb = 1024 * max_mem_mb
max_mem_bytes = 1024 * self._max_mem_kb
resource.setrlimit(resource.RLIMIT_AS, (max_mem_bytes, max_mem_bytes))
self.memory_limit_enabled = True
else:
self.memory_limit_enabled = False
@staticmethod
def self_destruct(signum, frame):
try:
import traceback
log.error("Self-destructing...")
log.error(traceback.format_exc())
finally:
os.kill(os.getpid(), signal.SIGKILL)
def reset(self):
# self destruct if using too much memory, as tornado will swallow MemoryErrors
if self.memory_limit_enabled:
mem_usage_kb = int(os.popen('ps -p %d -o %s | tail -1' % (os.getpid(), 'rss')).read())
if mem_usage_kb > (0.95 * self._max_mem_kb):
Watchdog.self_destruct(signal.SIGKILL, sys._getframe(0))
log.debug("Resetting watchdog for %d" % self._duration)
signal.alarm(self._duration)
class LaconicFilter(logging.Filter):
"""
Filters messages, only print them once while keeping memory under control
"""
LACONIC_MEM_LIMIT = 1024
def __init__(self, name=""):
logging.Filter.__init__(self, name)
self.hashed_messages = {}
def hash(self, msg):
return md5(msg).hexdigest()
def filter(self, record):
try:
h = self.hash(record.getMessage())
if h in self.hashed_messages:
return 0
else:
# Don't blow up our memory
if len(self.hashed_messages) >= LaconicFilter.LACONIC_MEM_LIMIT:
self.hashed_messages.clear()
self.hashed_messages[h] = True
return 1
except Exception:
return 1
class Timer(object):
""" Helper class """
def __init__(self):
self.start()
def _now(self):
return time.time()
def start(self):
self.started = self._now()
self.last = self.started
return self
def step(self):
now = self._now()
step = now - self.last
self.last = now
return step
def total(self, as_sec=True):
return self._now() - self.started
"""
Iterable Recipes
"""
def chunks(iterable, chunk_size):
"""Generate sequences of `chunk_size` elements from `iterable`."""
iterable = iter(iterable)
while True:
chunk = [None] * chunk_size
count = 0
try:
for _ in range(chunk_size):
chunk[count] = iterable.next()
count += 1
yield chunk[:count]
except StopIteration:
if count:
yield chunk[:count]
break