dockerfiles/graphite/data/conf/carbon.conf

[cache]
# Configure carbon directories.
#
# OS environment variables can be used to tell carbon where graphite is
# installed, where to read configuration from and where to write data.
#
#   GRAPHITE_ROOT        - Root directory of the graphite installation.
#                          Defaults to ../
#   GRAPHITE_CONF_DIR    - Configuration directory (where this file lives).
#                          Defaults to $GRAPHITE_ROOT/conf/
#   GRAPHITE_STORAGE_DIR - Storage directory for whisper/rrd/log/pid files.
#                          Defaults to $GRAPHITE_ROOT/storage/
#
# To change other directory paths, add settings to this file. The following
# configuration variables are available with these default values:
#
#   STORAGE_DIR    = $GRAPHITE_STORAGE_DIR
#   LOCAL_DATA_DIR = %(STORAGE_DIR)s/whisper/
#   WHITELISTS_DIR = %(STORAGE_DIR)s/lists/
#   CONF_DIR       = %(STORAGE_DIR)s/conf/
#   LOG_DIR        = %(STORAGE_DIR)s/log/
#   PID_DIR        = %(STORAGE_DIR)s/
#
# For FHS style directory structures, use:
#
#   STORAGE_DIR    = /var/lib/carbon/
#   CONF_DIR       = /etc/carbon/
#   LOG_DIR        = /var/log/carbon/
#   PID_DIR        = /var/run/
#
#LOCAL_DATA_DIR = /opt/graphite/storage/whisper/

# Specify the database library used to store metric data on disk. Each database
# may have configurable options to change the behaviour of how it writes to
# persistent storage.
#
# whisper - Fixed-size database, similar in design and purpose to RRD. This is
# the default storage backend for carbon and the most rigorously tested.
#
# ceres - Experimental alternative database that supports storing data in sparse
# files of arbitrary fixed-size resolutions.
DATABASE = whisper

# Enable daily log rotation. If disabled, a new file will be opened whenever the log file path no
# longer exists (i.e. it is removed or renamed)
ENABLE_LOGROTATION = True

# Specify the user to drop privileges to
# If this is blank carbon-cache runs as the user that invokes it
# This user must have write access to the local data directory
USER =

# Limit the size of the cache to avoid swapping or becoming CPU bound.
# Sorts and serving cache queries gets more expensive as the cache grows.
# Use the value "inf" (infinity) for an unlimited cache size.
# value should be an integer number of metric datapoints.
MAX_CACHE_SIZE = inf

# Limits the number of whisper update_many() calls per second, which effectively
# means the number of write requests sent to the disk. This is intended to
# prevent over-utilizing the disk and thus starving the rest of the system.
# When the rate of required updates exceeds this, then carbon's caching will
# take effect and increase the overall throughput accordingly.
MAX_UPDATES_PER_SECOND = 500

# If defined, this changes the MAX_UPDATES_PER_SECOND in Carbon when a
# stop/shutdown is initiated.  This helps when MAX_UPDATES_PER_SECOND is
# relatively low and carbon has cached a lot of updates; it enables the carbon
# daemon to shutdown more quickly.
# MAX_UPDATES_PER_SECOND_ON_SHUTDOWN = 1000

# Softly limits the number of whisper files that get created each minute.
# Setting this value low (e.g. 50) is a good way to ensure that your carbon
# system will not be adversely impacted when a bunch of new metrics are
# sent to it. The trade off is that any metrics received in excess of this
# value will be silently dropped, and the whisper file will not be created
# until such point as a subsequent metric is received and fits within the
# defined rate limit. Setting this value high (like "inf" for infinity) will
# cause carbon to create the files quickly but at the risk of increased I/O.
MAX_CREATES_PER_MINUTE = 50

# Set the minimum timestamp resolution supported by this instance. This allows
# internal optimisations by overwriting points with equal truncated timestamps
# in order to limit the number of updates to the database. It defaults to one
# second.
MIN_TIMESTAMP_RESOLUTION = 1

# Set the minimum lag in seconds for a point to be written to the database
# in order to optimize batching. This means that each point will wait at least
# the duration of this lag before being written. Setting this to 0 disable the feature.
# This currently only works when using the timesorted write strategy.
# MIN_TIMESTAMP_LAG = 0

# Set the interface and port for the line (plain text) listener.  Setting the
# interface to 0.0.0.0 listens on all interfaces.  Port can be set to 0 to
# disable this listener if it is not required.
LINE_RECEIVER_INTERFACE = 0.0.0.0
LINE_RECEIVER_PORT = 2003

# Set this to True to enable the UDP listener. By default this is off
# because it is very common to run multiple carbon daemons and managing
# another (rarely used) port for every carbon instance is not fun.
ENABLE_UDP_LISTENER = True
UDP_RECEIVER_INTERFACE = 0.0.0.0
UDP_RECEIVER_PORT = 2003

# Set the interface and port for the pickle listener.  Setting the interface to
# 0.0.0.0 listens on all interfaces.  Port can be set to 0 to disable this
# listener if it is not required.
PICKLE_RECEIVER_INTERFACE = 0.0.0.0
PICKLE_RECEIVER_PORT = 2004

# Set the interface and port for the protobuf listener.  Setting the interface to
# 0.0.0.0 listens on all interfaces.  Port can be set to 0 to disable this
# listener if it is not required.
# PROTOBUF_RECEIVER_INTERFACE = 0.0.0.0
# PROTOBUF_RECEIVER_PORT = 2005

# Limit the number of open connections the receiver can handle as any time.
# Default is no limit. Setting up a limit for sites handling high volume
# traffic may be recommended to avoid running out of TCP memory or having
# thousands of TCP connections reduce the throughput of the service.
#MAX_RECEIVER_CONNECTIONS = inf

# Per security concerns outlined in Bug #817247 the pickle receiver
# will use a more secure and slightly less efficient unpickler.
# Set this to True to revert to the old-fashioned insecure unpickler.
USE_INSECURE_UNPICKLER = False

CACHE_QUERY_INTERFACE = 0.0.0.0
CACHE_QUERY_PORT = 7002

# Set this to False to drop datapoints received after the cache
# reaches MAX_CACHE_SIZE. If this is True (the default) then sockets
# over which metrics are received will temporarily stop accepting
# data until the cache size falls below 95% MAX_CACHE_SIZE.
USE_FLOW_CONTROL = True

# If enabled this setting is used to timeout metric client connection if no
# metrics have been sent in specified time in seconds
#METRIC_CLIENT_IDLE_TIMEOUT = None

# By default, carbon-cache will log every whisper update and cache hit.
# This can be excessive and degrade performance if logging on the same
# volume as the whisper data is stored.
LOG_UPDATES = False
LOG_CREATES = False
LOG_CACHE_HITS = False
LOG_CACHE_QUEUE_SORTS = False

# The thread that writes metrics to disk can use one of the following strategies
# determining the order in which metrics are removed from cache and flushed to
# disk. The default option preserves the same behavior as has been historically
# available in version 0.9.10.
#
# sorted - All metrics in the cache will be counted and an ordered list of
# them will be sorted according to the number of datapoints in the cache at the
# moment of the list's creation. Metrics will then be flushed from the cache to
# disk in that order.
#
# timesorted - All metrics in the list will be looked at and sorted according
# to the timestamp of there datapoints. The metric that were the least recently
# written will be written first. This is an hybrid strategy between max and
# sorted which is particularly adapted to sets of metrics with non-uniform
# resolutions.
#
# max - The writer thread will always pop and flush the metric from cache
# that has the most datapoints. This will give a strong flush preference to
# frequently updated metrics and will also reduce random file-io. Infrequently
# updated metrics may only ever be persisted to disk at daemon shutdown if
# there are a large number of metrics which receive very frequent updates OR if
# disk i/o is very slow.
#
# naive - Metrics will be flushed from the cache to disk in an unordered
# fashion. This strategy may be desirable in situations where the storage for
# whisper files is solid state, CPU resources are very limited or deference to
# the OS's i/o scheduler is expected to compensate for the random write
# pattern.
#
CACHE_WRITE_STRATEGY = sorted

# On some systems it is desirable for whisper to write synchronously.
# Set this option to True if you'd like to try this. Basically it will
# shift the onus of buffering writes from the kernel into carbon's cache.
WHISPER_AUTOFLUSH = False

# By default new Whisper files are created pre-allocated with the data region
# filled with zeros to prevent fragmentation and speed up contiguous reads and
# writes (which are common). Enabling this option will cause Whisper to create
# the file sparsely instead. Enabling this option may allow a large increase of
# MAX_CREATES_PER_MINUTE but may have longer term performance implications
# depending on the underlying storage configuration.
# WHISPER_SPARSE_CREATE = False

# Only beneficial on linux filesystems that support the fallocate system call.
# It maintains the benefits of contiguous reads/writes, but with a potentially
# much faster creation speed, by allowing the kernel to handle the block
# allocation and zero-ing. Enabling this option may allow a large increase of
# MAX_CREATES_PER_MINUTE. If enabled on an OS or filesystem that is unsupported
# this option will gracefully fallback to standard POSIX file access methods.
WHISPER_FALLOCATE_CREATE = True

# Enabling this option will cause Whisper to lock each Whisper file it writes
# to with an exclusive lock (LOCK_EX, see: man 2 flock). This is useful when
# multiple carbon-cache daemons are writing to the same files.
# WHISPER_LOCK_WRITES = False

# On systems which has a large number of metrics, an amount of Whisper write(2)'s
# pageback sometimes cause disk thrashing due to memory shortage, so that abnormal
# disk reads occur. Enabling this option makes it possible to decrease useless
# page cache memory by posix_fadvise(2) with POSIX_FADVISE_RANDOM option.
# WHISPER_FADVISE_RANDOM = False

# By default all nodes stored in Ceres are cached in memory to improve the
# throughput of reads and writes to underlying slices. Turning this off will
# greatly reduce memory consumption for databases with millions of metrics, at
# the cost of a steep increase in disk i/o, approximately an extra two os.stat
# calls for every read and write. Reasons to do this are if the underlying
# storage can handle stat() with practically zero cost (SSD, NVMe, zRAM).
# Valid values are:
#       all - all nodes are cached
#      none - node caching is disabled
# CERES_NODE_CACHING_BEHAVIOR = all

# Ceres nodes can have many slices and caching the right ones can improve
# performance dramatically. Note that there are many trade-offs to tinkering
# with this, and unless you are a ceres developer you *really* should not
# mess with this. Valid values are:
#    latest - only the most recent slice is cached
#       all - all slices are cached
#      none - slice caching is disabled
# CERES_SLICE_CACHING_BEHAVIOR = latest

# If a Ceres node accumulates too many slices, performance can suffer.
# This can be caused by intermittently reported data. To mitigate
# slice fragmentation there is a tolerance for how much space can be
# wasted within a slice file to avoid creating a new one. That tolerance
# level is determined by MAX_SLICE_GAP, which is the number of consecutive
# null datapoints allowed in a slice file.
# If you set this very low, you will waste less of the *tiny* bit disk space
# that this feature wastes, and you will be prone to performance problems
# caused by slice fragmentation, which can be pretty severe.
# If you set this really high, you will waste a bit more disk space (each
# null datapoint wastes 8 bytes, but keep in mind your filesystem's block
# size). If you suffer slice fragmentation issues, you should increase this or
# run the ceres-maintenance defrag plugin more often. However you should not
# set it to be huge because then if a large but allowed gap occurs it has to
# get filled in, which means instead of a simple 8-byte write to a new file we
# could end up doing an (8 * MAX_SLICE_GAP)-byte write to the latest slice.
# CERES_MAX_SLICE_GAP = 80

# Enabling this option will cause Ceres to lock each Ceres file it writes to
# to with an exclusive lock (LOCK_EX, see: man 2 flock). This is useful when
# multiple carbon-cache daemons are writing to the same files.
# CERES_LOCK_WRITES = False

# Set this to True to enable whitelisting and blacklisting of metrics in
# CONF_DIR/whitelist.conf and CONF_DIR/blacklist.conf. If the whitelist is
# missing or empty, all metrics will pass through
# USE_WHITELIST = False

# By default, carbon itself will log statistics (such as a count,
# metricsReceived) with the top level prefix of 'carbon' at an interval of 60
# seconds. Set CARBON_METRIC_INTERVAL to 0 to disable instrumentation
# CARBON_METRIC_PREFIX = carbon
# CARBON_METRIC_INTERVAL = 60

# Enable AMQP if you want to receve metrics using an amqp broker
# ENABLE_AMQP = False

# Verbose means a line will be logged for every metric received
# useful for testing
# AMQP_VERBOSE = False

# AMQP_HOST = localhost
# AMQP_PORT = 5672
# AMQP_VHOST = /
# AMQP_USER = guest
# AMQP_PASSWORD = guest
# AMQP_EXCHANGE = graphite
# AMQP_METRIC_NAME_IN_BODY = False

# The manhole interface allows you to SSH into the carbon daemon
# and get a python interpreter. BE CAREFUL WITH THIS! If you do
# something like time.sleep() in the interpreter, the whole process
# will sleep! This is *extremely* helpful in debugging, assuming
# you are familiar with the code. If you are not, please don't
# mess with this, you are asking for trouble :)
#
# ENABLE_MANHOLE = False
# MANHOLE_INTERFACE = 127.0.0.1
# MANHOLE_PORT = 7222
# MANHOLE_USER = admin
# MANHOLE_PUBLIC_KEY = ssh-rsa AAAAB3NzaC1yc2EAAAABiwAaAIEAoxN0sv/e4eZCPpi3N3KYvyzRaBaMeS2RsOQ/cDuKv11dlNzVeiyc3RFmCv5Rjwn/lQ79y0zyHxw67qLyhQ/kDzINc4cY41ivuQXm2tPmgvexdrBv5nsfEpjs3gLZfJnyvlcVyWK/lId8WUvEWSWHTzsbtmXAF2raJMdgLTbQ8wE=

# Patterns for all of the metrics this machine will store. Read more at
# http://en.wikipedia.org/wiki/Advanced_Message_Queuing_Protocol#Bindings
#
# Example: store all sales, linux servers, and utilization metrics
# BIND_PATTERNS = sales.#, servers.linux.#, #.utilization
#
# Example: store everything
# BIND_PATTERNS = #

# URL of graphite-web instance, this is used to add incoming series to the tag database
# GRAPHITE_URL = http://127.0.0.1:8000

# Tag support, when enabled carbon will make HTTP calls to graphite-web to update the tag index
# ENABLE_TAGS = True

# Tag update interval, this specifies how frequently updates to existing series will trigger
# an update to the tag index, the default setting is once every 100 updates
# TAG_UPDATE_INTERVAL = 100

# Tag batch size, this specifies the maximum number of series to be sent to graphite-web in a single batch
# TAG_BATCH_SIZE = 100

# Tag queue size, this specifies the maximum number of series to be queued for sending to graphite-web
# There are separate queues for new series and for updates to existing series
# TAG_QUEUE_SIZE = 10000

# To configure special settings for the carbon-cache instance 'b', uncomment this:
#[cache:b]
#LINE_RECEIVER_PORT = 2103
#PICKLE_RECEIVER_PORT = 2104
#CACHE_QUERY_PORT = 7102
# and any other settings you want to customize, defaults are inherited
# from the [cache] section.
# You can then specify the --instance=b option to manage this instance
#
# In order to turn off logging of successful connections for the line
# receiver, set this to False
# LOG_LISTENER_CONN_SUCCESS = True

[relay]
LINE_RECEIVER_INTERFACE = 0.0.0.0
LINE_RECEIVER_PORT = 2013
PICKLE_RECEIVER_INTERFACE = 0.0.0.0
PICKLE_RECEIVER_PORT = 2014

# Carbon-relay has several options for metric routing controlled by RELAY_METHOD
#
# Use relay-rules.conf to route metrics to destinations based on pattern rules
#RELAY_METHOD = rules
#
# Use consistent-hashing for even distribution of metrics between destinations
#RELAY_METHOD = consistent-hashing
#
# Use consistent-hashing but take into account an aggregation-rules.conf shared
# by downstream carbon-aggregator daemons. This will ensure that all metrics
# that map to a given aggregation rule are sent to the same carbon-aggregator
# instance.
# Enable this for carbon-relays that send to a group of carbon-aggregators
#RELAY_METHOD = aggregated-consistent-hashing
#
# You can also use fast-hashing and fast-aggregated-hashing which are in O(1)
# and will always redirect the metrics to the same destination but do not try
# to minimize rebalancing when the list of destinations is changing.
RELAY_METHOD = rules

# If you use consistent-hashing you can add redundancy by replicating every
# datapoint to more than one machine.
REPLICATION_FACTOR = 1

# For REPLICATION_FACTOR >=2, set DIVERSE_REPLICAS to True to guarantee replicas
# across distributed hosts. With this setting disabled, it's possible that replicas
# may be sent to different caches on the same host. This has been the default
# behavior since introduction of 'consistent-hashing' relay method.
# Note that enabling this on an existing pre-0.9.14 cluster will require rebalancing
# your metrics across the cluster nodes using a tool like Carbonate.
#DIVERSE_REPLICAS = True

# This is a list of carbon daemons we will send any relayed or
# generated metrics to. The default provided would send to a single
# carbon-cache instance on the default port. However if you
# use multiple carbon-cache instances then it would look like this:
#
# DESTINATIONS = 127.0.0.1:2004:a, 127.0.0.1:2104:b
#
# The general form is IP:PORT:INSTANCE where the :INSTANCE part is
# optional and refers to the "None" instance if omitted.
#
# Note that if the destinations are all carbon-caches then this should
# exactly match the webapp's CARBONLINK_HOSTS setting in terms of
# instances listed (order matters!).
#
# If using RELAY_METHOD = rules, all destinations used in relay-rules.conf
# must be defined in this list
DESTINATIONS = 127.0.0.1:2004

# This define the protocol to use to contact the destination. It can be
# set to one of "line", "pickle", "udp" and "protobuf". This list can be
# extended with CarbonClientFactory plugins and defaults to "pickle".
# DESTINATION_PROTOCOL = pickle

# When using consistent hashing it sometime makes sense to make
# the ring dynamic when you don't want to loose points when a
# single destination is down. Replication is an answer to that
# but it can be quite expensive.
# DYNAMIC_ROUTER = False

# Controls the number of connection attempts before marking a
# destination as down. We usually do one connection attempt per
# second.
# DYNAMIC_ROUTER_MAX_RETRIES = 5

# This is the maximum number of datapoints that can be queued up
# for a single destination. Once this limit is hit, we will
# stop accepting new data if USE_FLOW_CONTROL is True, otherwise
# we will drop any subsequently received datapoints.
MAX_QUEUE_SIZE = 10000

# This defines the maximum "message size" between carbon daemons.  If
# your queue is large, setting this to a lower number will cause the
# relay to forward smaller discrete chunks of stats, which may prevent
# overloading on the receiving side after a disconnect.
MAX_DATAPOINTS_PER_MESSAGE = 500

# Limit the number of open connections the receiver can handle as any time.
# Default is no limit. Setting up a limit for sites handling high volume
# traffic may be recommended to avoid running out of TCP memory or having
# thousands of TCP connections reduce the throughput of the service.
#MAX_RECEIVER_CONNECTIONS = inf

# Specify the user to drop privileges to
# If this is blank carbon-relay runs as the user that invokes it
# USER =

# This is the percentage that the queue must be empty before it will accept
# more messages.  For a larger site, if the queue is very large it makes sense
# to tune this to allow for incoming stats.  So if you have an average
# flow of 100k stats/minute, and a MAX_QUEUE_SIZE of 3,000,000, it makes sense
# to allow stats to start flowing when you've cleared the queue to 95% since
# you should have space to accommodate the next minute's worth of stats
# even before the relay incrementally clears more of the queue
QUEUE_LOW_WATERMARK_PCT = 0.8

# To allow for batch efficiency from the pickle protocol and to benefit from
# other batching advantages, all writes are deferred by putting them into a queue,
# and then the queue is flushed and sent a small fraction of a second later.
TIME_TO_DEFER_SENDING = 0.0001

# Set this to False to drop datapoints when any send queue (sending datapoints
# to a downstream carbon daemon) hits MAX_QUEUE_SIZE. If this is True (the
# default) then sockets over which metrics are received will temporarily stop accepting
# data until the send queues fall below QUEUE_LOW_WATERMARK_PCT * MAX_QUEUE_SIZE.
USE_FLOW_CONTROL = True

# If enabled this setting is used to timeout metric client connection if no
# metrics have been sent in specified time in seconds
#METRIC_CLIENT_IDLE_TIMEOUT = None

# Set this to True to enable whitelisting and blacklisting of metrics in
# CONF_DIR/whitelist.conf and CONF_DIR/blacklist.conf. If the whitelist is
# missing or empty, all metrics will pass through
# USE_WHITELIST = False

# By default, carbon itself will log statistics (such as a count,
# metricsReceived) with the top level prefix of 'carbon' at an interval of 60
# seconds. Set CARBON_METRIC_INTERVAL to 0 to disable instrumentation
# CARBON_METRIC_PREFIX = carbon
# CARBON_METRIC_INTERVAL = 60
#
# In order to turn off logging of successful connections for the line
# receiver, set this to False
# LOG_LISTENER_CONN_SUCCESS = True

# If you're connecting from the relay to a destination that's over the
# internet or similarly iffy connection, a backlog can develop because
# of internet weather conditions, e.g. acks getting lost or similar issues.
# To deal with that, you can enable USE_RATIO_RESET which will let you
# re-set the connection to an individual destination.  Defaults to being off.
USE_RATIO_RESET=False

# When there is a small number of stats flowing, it's not desirable to
# perform any actions based on percentages - it's just too "twitchy".
MIN_RESET_STAT_FLOW=1000

# When the ratio of stats being sent in a reporting interval is far
# enough from 1.0, we will disconnect the socket and reconnecto to
# clear out queued stats.  The default ratio of 0.9 indicates that 10%
# of stats aren't being delivered within one CARBON_METRIC_INTERVAL
# (default of 60 seconds), which can lead to a queue backup.  Under
# some circumstances re-setting the connection can fix this, so
# set this according to your tolerance, and look in the logs for
# "resetConnectionForQualityReasons" to observe whether this is kicking
# in when your sent queue is building up.
MIN_RESET_RATIO=0.9

# The minimum time between resets.  When a connection is re-set, we
# need to wait before another reset is performed.
# (2*CARBON_METRIC_INTERVAL) + 1 second is the minimum time needed
# before stats for the new connection will be available.  Setting this
# below (2*CARBON_METRIC_INTERVAL) + 1 second will result in a lot of
# reset connections for no good reason.
MIN_RESET_INTERVAL=121

[aggregator]
LINE_RECEIVER_INTERFACE = 0.0.0.0
LINE_RECEIVER_PORT = 2023

PICKLE_RECEIVER_INTERFACE = 0.0.0.0
PICKLE_RECEIVER_PORT = 2024

# If set true, metric received will be forwarded to DESTINATIONS in addition to
# the output of the aggregation rules. If set false the carbon-aggregator will
# only ever send the output of aggregation.
FORWARD_ALL = True

# Filenames of the configuration files to use for this instance of aggregator.
# Filenames are relative to CONF_DIR.
#
# AGGREGATION_RULES = aggregation-rules.conf
# REWRITE_RULES = rewrite-rules.conf

# This is a list of carbon daemons we will send any relayed or
# generated metrics to. The default provided would send to a single
# carbon-cache instance on the default port. However if you
# use multiple carbon-cache instances then it would look like this:
#
# DESTINATIONS = 127.0.0.1:2004:a, 127.0.0.1:2104:b
#
# The format is comma-delimited IP:PORT:INSTANCE where the :INSTANCE part is
# optional and refers to the "None" instance if omitted.
#
# Note that if the destinations are all carbon-caches then this should
# exactly match the webapp's CARBONLINK_HOSTS setting in terms of
# instances listed (order matters!).
DESTINATIONS = 127.0.0.1:2004

# If you want to add redundancy to your data by replicating every
# datapoint to more than one machine, increase this.
REPLICATION_FACTOR = 1

# This is the maximum number of datapoints that can be queued up
# for a single destination. Once this limit is hit, we will
# stop accepting new data if USE_FLOW_CONTROL is True, otherwise
# we will drop any subsequently received datapoints.
MAX_QUEUE_SIZE = 10000

# Set this to False to drop datapoints when any send queue (sending datapoints
# to a downstream carbon daemon) hits MAX_QUEUE_SIZE. If this is True (the
# default) then sockets over which metrics are received will temporarily stop accepting
# data until the send queues fall below 80% MAX_QUEUE_SIZE.
USE_FLOW_CONTROL = True

# If enabled this setting is used to timeout metric client connection if no
# metrics have been sent in specified time in seconds
#METRIC_CLIENT_IDLE_TIMEOUT = None

# This defines the maximum "message size" between carbon daemons.
# You shouldn't need to tune this unless you really know what you're doing.
MAX_DATAPOINTS_PER_MESSAGE = 500

# This defines how many datapoints the aggregator remembers for
# each metric. Aggregation only happens for datapoints that fall in
# the past MAX_AGGREGATION_INTERVALS * intervalSize seconds.
MAX_AGGREGATION_INTERVALS = 5

# Limit the number of open connections the receiver can handle as any time.
# Default is no limit. Setting up a limit for sites handling high volume
# traffic may be recommended to avoid running out of TCP memory or having
# thousands of TCP connections reduce the throughput of the service.
#MAX_RECEIVER_CONNECTIONS = inf

# By default (WRITE_BACK_FREQUENCY = 0), carbon-aggregator will write back
# aggregated data points once every rule.frequency seconds, on a per-rule basis.
# Set this (WRITE_BACK_FREQUENCY = N) to write back all aggregated data points
# every N seconds, independent of rule frequency. This is useful, for example,
# to be able to query partially aggregated metrics from carbon-cache without
# having to first wait rule.frequency seconds.
# WRITE_BACK_FREQUENCY = 0

# Set this to True to enable whitelisting and blacklisting of metrics in
# CONF_DIR/whitelist.conf and CONF_DIR/blacklist.conf. If the whitelist is
# missing or empty, all metrics will pass through
# USE_WHITELIST = False

# By default, carbon itself will log statistics (such as a count,
# metricsReceived) with the top level prefix of 'carbon' at an interval of 60
# seconds. Set CARBON_METRIC_INTERVAL to 0 to disable instrumentation
# CARBON_METRIC_PREFIX = carbon
# CARBON_METRIC_INTERVAL = 60

# In order to turn off logging of successful connections for the line
# receiver, set this to False
# LOG_LISTENER_CONN_SUCCESS = True

# In order to turn off logging of metrics with no corresponding
# aggregation rules receiver, set this to False
# LOG_AGGREGATOR_MISSES = False

# Specify the user to drop privileges to
# If this is blank carbon-aggregator runs as the user that invokes it
# USER =

# Part of the code, and particularly aggregator rules, need
# to cache metric names. To avoid leaking too much memory you
# can tweak the size of this cache. The default allow for 1M
# different metrics per rule (~200MiB).
# CACHE_METRIC_NAMES_MAX=1000000

# You can optionally set a ttl to this cache.
# CACHE_METRIC_NAMES_TTL=600