salt/conf/master.template
Pedro Algarvio 89cffc051e Raise max open files when starting master. Refs #1964
When `salt-master` starts, it checks the soft and hard limits for max open files, it then raises it's process allowed max open files to the maximum if `max_open_files` is unset on the configuration file or to the set value.
2012-09-06 18:07:30 +01:00

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##### Primary configuration settings #####
##########################################
# Per default the master will automatically include all config files
# from master.d/*.conf (master.d is a directory in the same directory
# as the main master config file)
#default_include: master.d/*.conf
# The address of the interface to bind to
#interface: 0.0.0.0
# The port used by the publisher
#publish_port: 4505
# The user to run salt
#user: root
# Max open files
# Each minion connecting to the master uses AT LEAST one file descriptor, the
# master subscription connection. If enough minions connect you might start
# seeing on the console(and then salt-master crashes):
# Too many open files (tcp_listener.cpp:335)
# Aborted (core dumped)
#
# By default this value will be the one of `ulimit -Hn`, ie, the hard limit for
# max open files.
#
# If you wish to set a different value than the default one, uncomment and
# configure this setting. Remember that this value CANNOT be higher that the
# hard limit. Raising the hard limit depends on your OS and/or distribution,
# so go to your preferred search engine and search for(for example):
# raise max open files hard limit debian
#
#max_open_files:
# The number of worker threads to start, these threads are used to manage
# return calls made from minions to the master, if the master seems to be
# running slowly, increase the number of threads
#worker_threads: 5
# The port used by the communication interface
#ret_port: 4506
# The root directory prepended to these options: pki_dir, cachedir,
# sock_dir, log_file, autosign_file.
#root_dir: /
# Directory used to store public key data
#pki_dir: /etc/salt/pki
# Directory to store job and cache data
#cachedir: /var/cache/salt
# Set the number of hours to keep old job information
#keep_jobs: 24
# Set the default timeout for the salt command and api, the default is 5
# seconds
#timeout: 5
# Set the directory used to hold unix sockets
#sock_dir: /tmp/salt-unix
# The master maintains a job cache, while this is a great addition it can be
# a burden on the master for larger deployments (over 5000 minions).
# Disabling the job cache will make previously executed jobs unavailable to
# the jobs system and is not generally recommended.
#
#job_cache: True
# Set the acceptance level for serialization of messages. This should only be
# set if the master is newer than 0.9.5 and the minion are older. This option
# allows a 0.9.5 and newer master to communicate with minions 0.9.4 and
# earlier. It is not recommended to keep this setting on if the minions are
# all 0.9.5 or higher, as leaving pickle as the serialization medium is slow
# and opens up security risks
#
#serial: msgpack
# The master can include configuration from other files. To enable this,
# pass a list of paths to this option. The paths can be either relative or
# absolute; if relative, they are considered to be relative to the directory
# the main master configuration file lives in (this file). Paths can make use
# of shell-style globbing. If no files are matched by a path passed to this
# option then the master will log a warning message.
#
#
# Include a config file from some other path:
#include: /etc/salt/extra_config
#
# Include config from several files and directories:
#include:
# - /etc/salt/extra_config
##### Security settings #####
##########################################
# Enable "open mode", this mode still maintains encryption, but turns off
# authentication, this is only intended for highly secure environments or for
# the situation where your keys end up in a bad state. If you run in open mode
# you do so at your own risk!
#open_mode: False
# Enable auto_accept, this setting will automatically accept all incoming
# public keys from the minions. Note that this is insecure.
#auto_accept: False
# If the autosign_file is specified only incoming keys specified in
# the autosign_file will be automatically accepted. This is insecure.
# Regular expressions as well as globing lines are supported.
#autosign_file: /etc/salt/autosign.conf
# Enable permissive access to the salt keys. This allows you to run the
# master or minion as root, but have a non-root group be given access to
# your pki_dir. To make the access explicit, root must belong to the group
# you've given access to. This is potentially quite insecure.
#
# If an autosign_file is specified permissive access will allow group access
# to that specific file.
#permissive_pki_access: False
#
# Allow users on the master access to execute specific commands on minions.
# This setting should be treated with care since it opens up execution
# capabilities to non root users. By default this capability is completely
# disabled.
#
# client_acl:
# larry:
# - test.ping
# - network.*
##### Master Module Management #####
##########################################
# Manage how master side modules are loaded
#
# Add any additional locations to look for master runners
#runner_dirs: []
#
#Enable Cython for master side modules
#cython_enable: False
##### State System settings #####
##########################################
# The state system uses a "top" file to tell the minions what environment to
# use and what modules to use. The state_top file is defined relative to the
# root of the base environment as defined in "File Server settings" below.
#state_top: top.sls
#
# The external_nodes option allows Salt to gather data that would normally be
# placed in a top file. The external_nodes option is the executable that will
# return the ENC data. Remember that Salt will look for external nodes AND top
# files and combine the results if both are enabled!
#external_nodes: None
#
# The renderer to use on the minions to render the state data
#renderer: yaml_jinja
#
# The failhard option tells the minions to stop immediately after the first
# failure detected in the state execution, defaults to False
#failhard: False
#
# The state_verbose and state_output settings can be used to change the way
# state system data is printed to the display. By default all data is printed.
# The state_verbose setting can be set to True or False, when set to False
# all data that has a result of True and no changes will be suppressed.
#state_verbose: True
#
# The state_output setting changes if the output is the full multi line
# output for each changed state if set to 'full', but if set to 'terse'
# the output will be shortened to a single line.
#state_output: full
##### File Server settings #####
##########################################
# Salt runs a lightweight file server written in zeromq to deliver files to
# minions. This file server is built into the master daemon and does not
# require a dedicated port.
# The file server works on environments passed to the master, each environment
# can have multiple root directories, the subdirectories in the multiple file
# roots cannot match, otherwise the downloaded files will not be able to be
# reliably ensured. A base environment is required to house the top file.
# Example:
# file_roots:
# base:
# - /srv/salt/
# dev:
# - /srv/salt/dev/services
# - /srv/salt/dev/states
# prod:
# - /srv/salt/prod/services
# - /srv/salt/prod/states
#
# Default:
#file_roots:
# base:
# - /srv/salt
# The hash_type is the hash to use when discovering the hash of a file on
# the master server, the default is md5, but sha1, sha224, sha256, sha384
# and sha512 are also supported.
#hash_type: md5
# The buffer size in the file server can be adjusted here:
#file_buffer_size: 1048576
# Pillar Configurations:
# The Salt Pillar, is a system that allows for the building of global data
# that is refined based on minion. Basically, the pillar creates data that
# can be generated to be specific based on the grains of the minion. Pillar
# is laid out in the same fashion as the file server, with environments, a top
# file and sls files. The difference is that the data does not need to be
# in the highstate format, and is generally just key/value pairs.
#
#pillar_roots:
# base:
# - /srv/pillar
#
#ext_pillar:
# - hiera: /etc/hiera.yaml
# - cmd: cat /etc/salt/yaml
#
##### Syndic settings #####
##########################################
# The Salt syndic is used to pass commands through a master from a higher
# master. Using the syndic is simple, if this is a master that will have
# syndic servers(s) below it set the "order_masters" setting to True, if this
# is a master that will be running a syndic daemon for passthrough the
# "syndic_master" setting needs to be set to the location of the master server
# to receive commands from.
#
# Set the order_masters setting to True if this master will command lower
# masters' syndic interfaces.
#order_masters: False
#
# If this master will be running a salt syndic daemon, syndic_master tells
# this master where to receive commands from.
#syndic_master: masterofmaster
##### Peer Publish settings #####
##########################################
# Salt minions can send commands to other minions, but only if the minion is
# allowed to. By default "Peer Publication" is disabled, and when enabled it
# is enabled for specific minions and specific commands. This allows secure
# compartmentalization of commands based on individual minions.
#
# The configuration uses regular expressions to match minions and then a list
# of regular expressions to match functions. The following will allow the
# minion authenticated as foo.example.com to execute functions from the test
# and pkg modules.
# peer:
# foo.example.com:
# - test.*
# - pkg.*
#
# This will allow all minions to execute all commands:
# peer:
# .*:
# - .*
# This is not recommended, since it would allow anyone who gets root on any
# single minion to instantly have root on all of the minions!
#
# Minions can also be allowed to execute runners from the salt master.
# Since executing a runner from the minion could be considered a security risk,
# it needs to be enabled. This setting functions just like the peer setting
# except that it opens up runners instead of module functions.
#
# All peer runner support is turned off by default and must be enabled before
# using. This will enable all peer runners for all minions:
#
# peer_run:
# .*:
# - .*
#
# To enable just the manage.up runner for the minion foo.example.com:
#
# peer_run:
# foo.example.com:
# - manage.up
#
##### Cluster settings #####
##########################################
# Salt supports automatic clustering, salt creates a single ip address which
# is shared among the individual salt components using ucarp. The private key
# and all of the minion keys are maintained across the defined cluster masters.
# The failover service is automatically managed via these settings
# List the identifiers for the other cluster masters in this manner:
# [saltmaster-01.foo.com,saltmaster-02.foo.com,saltmaster-03.foo.com]
# The members of this master array must be running as salt minions to
# facilitate the distribution of cluster information
#cluster_masters: []
# The cluster modes are "paranoid" and "full"
# paranoid will only distribute the accepted minion public keys.
# full will also distribute the master private key.
#cluster_mode: paranoid
##### Logging settings #####
##########################################
# The location of the master log file
#log_file: /var/log/salt/master
#
# The level of messages to send to the log file.
# One of 'garbage', 'trace', 'debug', info', 'warning', 'error', 'critical'.
# Default: 'warning'
#log_level: warning
#log_level_logfile:
#
# The date and time format used in log messages. Allowed date/time formating
# can be seen here:
# http://docs.python.org/library/time.html#time.strftime
#log_datefmt: '%H:%M:%S'
#
# The format of the console logging messages. Allowed formatting options can
# be seen here:
# http://docs.python.org/library/logging.html#logrecord-attributes
#log_fmt_console: '[%(levelname)-8s] %(message)s'
#log_fmt_logfile: '%(asctime)s,%(msecs)03.0f [%(name)-17s][%(levelname)-8s] %(message)s'
#
# Logger levels can be used to tweak specific loggers logging levels.
# For example, if you want to have the salt library at the 'warning' level,
# but you still wish to have 'salt.modules' at the 'debug' level:
# log_granular_levels:
# 'salt': 'warning',
# 'salt.modules': 'debug'
#
#log_granular_levels: {}
##### Node Groups #####
##########################################
# Node groups allow for logical groupings of minion nodes.
# A group consists of a group name and a compound target.
#
# nodegroups:
# group1: 'L@foo.domain.com,bar.domain.com,baz.domain.com and bl*.domain.com'
# group2: 'G@os:Debian and foo.domain.com'
##### Range Cluster settings #####
##########################################
# The range server (and optional port) that
# serves your cluster information
#range_server: range:80