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	diff --git a/man/corosync.conf.5 b/man/corosync.conf.5
	index 3860ddba..04dc056c 100644
	--- a/man/corosync.conf.5
	+++ b/man/corosync.conf.5
	@@ -1,698 +1,694 @@
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	.TH COROSYNC_CONF 5 2012-10-10 "corosync Man Page" "Corosync Cluster Engine Programmer's Manual"
	.SH NAME
	corosync.conf - corosync executive configuration file

	.SH SYNOPSIS
	/etc/corosync/corosync.conf

	.SH DESCRIPTION
	The corosync.conf instructs the corosync executive about various parameters
	needed to control the corosync executive. Empty lines and lines starting with
	# character are ignored. The configuration file consists of bracketed top level
	directives. The possible directive choices are:

	.TP
	totem { }
	This top level directive contains configuration options for the totem protocol.
	.TP
	logging { }
	This top level directive contains configuration options for logging.
	.TP
	quorum { }
	This top level directive contains configuration options for quorum.
	.TP
	nodelist { }
	This top level directive contains configuration options for nodes in cluster.
	.TP
	qb { }
	This top level directive contains configuration options related to libqb.
	.TP
	resources { }
	This top level directive contains configuration options for resources.

	.PP
	The
	.B interface sub-directive of totem is optional for UDP and knet transports.

	For knet, multiple interface subsections define parameters for each knet link on the
	system.

	For UDPU an interface section is not needed and it is recommended that the nodelist
	is used to define cluster nodes.

	.TP
	linknumber
	This specifies the link number for the interface. When using the knet
	protocol, each interface should specify separate link numbers to uniquely
	identify to the membership protocol which interface to use for which link.
	The linknumber must start at 0. For UDP the only supported linknumber is 0.

	.TP
	knet_link_priority
	This specifies the priority for the link when knet is used in 'passive'
	mode. (see link_mode below)

	.TP
	knet_ping_interval
	This specifies the interval between knet link pings.
	(default 1000 ms)

	.TP
	knet_ping_timeout
	If no ping is received within this time, the knet link is declared dead.
	(default 2000 ms)

	.TP
	knet_ping_precision
	How many values of latency are used to calculate
	the average link latency. (default 2048 samples)

	.TP
	knet_pong_count
	How many valid ping/pongs before a link is marked UP. (default 5)
	.TP

	knet_transport
	Which IP transport knet should use. valid values are "sctp" or "udp". (default: udp)

	.TP
	bindnetaddr (udp only)
	This specifies the network address the corosync executive should bind
	to when using udp.

	bindnetaddr (udp only)
	should be an IP address configured on the system, or a network
	address.

	For example, if the local interface is 192.168.5.92 with netmask
	255.255.255.0, you should set bindnetaddr to 192.168.5.92 or 192.168.5.0.
	If the local interface is 192.168.5.92 with netmask 255.255.255.192,
	set bindnetaddr to 192.168.5.92 or 192.168.5.64, and so forth.

	This may also be an IPV6 address, in which case IPV6 networking will be used.
	In this case, the exact address must be specified and there is no automatic
	selection of the network interface within a specific subnet as with IPv4.

	If IPv6 networking is used, the nodeid field in nodelist must be specified.

	.TP
	broadcast (udp only)
	This is optional and can be set to yes. If it is set to yes, the broadcast
	address will be used for communication. If this option is set, mcastaddr
	should not be set.

	.TP
	mcastaddr (udp only)
	This is the multicast address used by corosync executive. The default
	should work for most networks, but the network administrator should be queried
	about a multicast address to use. Avoid 224.x.x.x because this is a "config"
	multicast address.

	This may also be an IPV6 multicast address, in which case IPV6 networking
	will be used. If IPv6 networking is used, the nodeid field in nodelist must
	be specified.

	It's not necessary to use this option if cluster_name option is used. If both options
	are used, mcastaddr has higher priority.

	.TP
	mcastport (udp only)
	This specifies the UDP port number. It is possible to use the same multicast
	address on a network with the corosync services configured for different
	UDP ports.
	Please note corosync uses two UDP ports mcastport (for mcast receives) and
	mcastport - 1 (for mcast sends).
	If you have multiple clusters on the same network using the same mcastaddr
	please configure the mcastports with a gap.

	.TP
	ttl (udp only)
	This specifies the Time To Live (TTL). If you run your cluster on a routed
	network then the default of "1" will be too small. This option provides
	a way to increase this up to 255. The valid range is 0..255.

	.PP
	.PP
	Within the
	.B totem
	directive, there are seven configuration options of which one is required,
	five are optional, and one is required when IPV6 is configured in the interface
	subdirective. The required directive controls the version of the totem
	configuration. The optional option unless using IPV6 directive controls
	identification of the processor. The optional options control secrecy and
	authentication, the network mode of operation and maximum network MTU
	field.

	.TP
	version
	This specifies the version of the configuration file. Currently the only
	valid version for this directive is 2.

	.PP
	clear_node_high_bit
	This configuration option is optional and is only relevant when no nodeid is
	specified. Some corosync clients require a signed 32 bit nodeid that is greater
	than zero however by default corosync uses all 32 bits of the IPv4 address space
	when generating a nodeid. Set this option to yes to force the high bit to be
	zero and therefor ensure the nodeid is a positive signed 32 bit integer.

	WARNING: The clusters behavior is undefined if this option is enabled on only
	a subset of the cluster (for example during a rolling upgrade).

	.TP
	crypto_hash
	This specifies which HMAC authentication should be used to authenticate all
	messages. Valid values are none (no authentication), md5, sha1, sha256,
	sha384 and sha512. Encrypted transmission is only supported for
	the knet transport.

	The default is sha1.

	.TP
	crypto_cipher
	This specifies which cipher should be used to encrypt all messages.
	Valid values are none (no encryption), aes256, aes192, aes128 and 3des.
	Enabling crypto_cipher, requires also enabling of crypto_hash. Encrypted
	transmission is only supported for the knet transport.

	The default is aes256.

	.TP
	link_mode
	This specifies the Kronosnet mode, which may be passive, active, or
	rr (round-robin).
	.B passive:
	the active link with the lowest priority will be used. If one or more
	links share the same priority the one with the lowest link ID will
	be used.
	.B active:
	All active links will be used simultaneously to send traffic.
	link priority is ignored.
	.B rr:
	Round-Robin policy. Each packet will be sent to the next active link in
	order.

	If only one interface directive is specified, passive is automatically chosen.

	The maximum number of interface directives that is allowed with Kronosnet
	is 8. For other transports it is 1.

	-When using multiple interfaces, make sure to use different multicast
	-address/port (port for same address must differ by at least two) pair
	-for each interface (this is checked by parser).
	-
	.TP
	netmtu
	This specifies the network maximum transmit unit. To set this value beyond
	1500, the regular frame MTU, requires ethernet devices that support large, or
	also called jumbo, frames. If any device in the network doesn't support large
	frames, the protocol will not operate properly. The hosts must also have their
	mtu size set from 1500 to whatever frame size is specified here.

	Please note while some NICs or switches claim large frame support, they support
	9000 MTU as the maximum frame size including the IP header. Setting the netmtu
	and host MTUs to 9000 will cause totem to use the full 9000 bytes of the frame.
	Then Linux will add a 18 byte header moving the full frame size to 9018. As a
	result some hardware will not operate properly with this size of data. A netmtu
	of 8982 seems to work for the few large frame devices that have been tested.
	Some manufacturers claim large frame support when in fact they support frame
	sizes of 4500 bytes.

	When sending multicast traffic, if the network frequently reconfigures, chances are
	that some device in the network doesn't support large frames.

	Choose hardware carefully if intending to use large frame support.

	The default is 1500.

	.TP
	transport
	This directive controls the transport mechanism used.
	The default is knet. The transport type can also be set to udpu or udp.
	Only knet allows crypto or multiple interfaces per node.

	.TP
	cluster_name
	This specifies the name of cluster and it's used for automatic generating
	of multicast address.

	.TP
	config_version
	This specifies version of config file. This is converted to unsigned 64-bit int.
	By default it's 0. Option is used to prevent joining old nodes with not
	up-to-date configuration. If value is not 0, and node is going for first time
	(only for first time, join after split doesn't follow this rules)
	from single-node membership to multiple nodes membership, other nodes
	config_versions are collected. If current node config_version is not
	equal to highest of collected versions, corosync is terminated.

	.TP
	ip_version
	Specifies version of IP to use for communication. Value can be one of
	ipv4 or ipv6. Default (if unspecified) is ipv4.


	Within the
	.B totem
	directive, there are several configuration options which are used to control
	the operation of the protocol. It is generally not recommended to change any
	of these values without proper guidance and sufficient testing. Some networks
	may require larger values if suffering from frequent reconfigurations. Some
	applications may require faster failure detection times which can be achieved
	by reducing the token timeout.

	.TP
	token
	This timeout is used directly or as a base for real token timeout calculation (explained in
	.B token_coefficient
	section). Token timeout specifies in milliseconds until a token loss is declared after not
	receiving a token. This is the time spent detecting a failure of a processor
	in the current configuration. Reforming a new configuration takes about 50
	milliseconds in addition to this timeout.

	For real token timeout used by totem it's possible to read cmap value of
	.B runtime.config.token
	key.

	The default is 1000 milliseconds.

	.TP
	token_coefficient
	This value is used only when
	.B nodelist
	section is specified and contains at least 3 nodes. If so, real token timeout
	is then computed as token + (number_of_nodes - 2) * token_coefficient.
	This allows cluster to scale without manually changing token timeout
	every time new node is added. This value can be set to 0 resulting
	in effective removal of this feature.

	The default is 650 milliseconds.

	.TP
	token_retransmit
	This timeout specifies in milliseconds after how long before receiving a token
	the token is retransmitted. This will be automatically calculated if token
	is modified. It is not recommended to alter this value without guidance from
	the corosync community.

	The default is 238 milliseconds.

	.TP
	knet_compression_model
	-The (optional) type of compression used by kronosnet. The values available depend on
	+The (optional) type of compression used by Kronosnet. The values available depend on
	the build and also avaialable libraries. Typically zlib and lz4 will be available
	but bzip2 and others could also be allowed. The default is 'none'

	.TP
	knet_compression_threshold
	Tells knet to NOT compress any packets that are smaller than the value
	indicated. Default 100 bytes.

	Set to 0 to reset to the default.
	Set to 1 to compress everything.

	.TP
	knet_compression_level
	Many compression libraries allow tuning of compression parameters. For example
	0 or 1 ... 9 are commonly used to determine the level of compression. This value
	is passed unmodified to the compression library so it is recommended to consult
	the library's documentation for more detailed information.

	.TP
	hold
	This timeout specifies in milliseconds how long the token should be held by
	the representative when the protocol is under low utilization. It is not
	recommended to alter this value without guidance from the corosync community.

	The default is 180 milliseconds.

	.TP
	token_retransmits_before_loss_const
	This value identifies how many token retransmits should be attempted before
	forming a new configuration. If this value is set, retransmit and hold will
	be automatically calculated from retransmits_before_loss and token.

	The default is 4 retransmissions.

	.TP
	join
	This timeout specifies in milliseconds how long to wait for join messages in
	the membership protocol.

	The default is 50 milliseconds.

	.TP
	send_join
	This timeout specifies in milliseconds an upper range between 0 and send_join
	to wait before sending a join message. For configurations with less than
	32 nodes, this parameter is not necessary. For larger rings, this parameter
	is necessary to ensure the NIC is not overflowed with join messages on
	formation of a new ring. A reasonable value for large rings (128 nodes) would
	be 80msec. Other timer values must also change if this value is changed. Seek
	advice from the corosync mailing list if trying to run larger configurations.

	The default is 0 milliseconds.

	.TP
	consensus
	This timeout specifies in milliseconds how long to wait for consensus to be
	achieved before starting a new round of membership configuration. The minimum
	value for consensus must be 1.2 * token. This value will be automatically
	calculated at 1.2 * token if the user doesn't specify a consensus value.

	For two node clusters, a consensus larger than the join timeout but less than
	token is safe. For three node or larger clusters, consensus should be larger
	than token. There is an increasing risk of odd membership changes, which still
	guarantee virtual synchrony, as node count grows if consensus is less than
	token.

	The default is 1200 milliseconds.

	.TP
	merge
	This timeout specifies in milliseconds how long to wait before checking for
	a partition when no multicast traffic is being sent. If multicast traffic
	is being sent, the merge detection happens automatically as a function of
	the protocol.

	The default is 200 milliseconds.

	.TP
	downcheck
	This timeout specifies in milliseconds how long to wait before checking
	that a network interface is back up after it has been downed.

	The default is 1000 milliseconds.

	.TP
	fail_recv_const
	This constant specifies how many rotations of the token without receiving any
	of the messages when messages should be received may occur before a new
	configuration is formed.

	The default is 2500 failures to receive a message.

	.TP
	seqno_unchanged_const
	This constant specifies how many rotations of the token without any multicast
	traffic should occur before the hold timer is started.

	The default is 30 rotations.

	.TP
	heartbeat_failures_allowed
	[HeartBeating mechanism]
	Configures the optional HeartBeating mechanism for faster failure detection. Keep in
	mind that engaging this mechanism in lossy networks could cause faulty loss declaration
	as the mechanism relies on the network for heartbeating.

	So as a rule of thumb use this mechanism if you require improved failure in low to
	medium utilized networks.

	This constant specifies the number of heartbeat failures the system should tolerate
	before declaring heartbeat failure e.g 3. Also if this value is not set or is 0 then the
	heartbeat mechanism is not engaged in the system and token rotation is the method
	of failure detection

	The default is 0 (disabled).

	.TP
	max_network_delay
	[HeartBeating mechanism]
	This constant specifies in milliseconds the approximate delay that your network takes
	to transport one packet from one machine to another. This value is to be set by system
	engineers and please don't change if not sure as this effects the failure detection
	mechanism using heartbeat.

	The default is 50 milliseconds.

	.TP
	window_size
	This constant specifies the maximum number of messages that may be sent on one
	token rotation. If all processors perform equally well, this value could be
	large (300), which would introduce higher latency from origination to delivery
	for very large rings. To reduce latency in large rings(16+), the defaults are
	a safe compromise. If 1 or more slow processor(s) are present among fast
	processors, window_size should be no larger than 256000 / netmtu to avoid
	overflow of the kernel receive buffers. The user is notified of this by
	the display of a retransmit list in the notification logs. There is no loss
	of data, but performance is reduced when these errors occur.

	The default is 50 messages.

	.TP
	max_messages
	This constant specifies the maximum number of messages that may be sent by one
	processor on receipt of the token. The max_messages parameter is limited to
	256000 / netmtu to prevent overflow of the kernel transmit buffers.

	The default is 17 messages.

	.TP
	miss_count_const
	This constant defines the maximum number of times on receipt of a token
	a message is checked for retransmission before a retransmission occurs. This
	parameter is useful to modify for switches that delay multicast packets
	compared to unicast packets. The default setting works well for nearly all
	modern switches.

	The default is 5 messages.

	.TP
	knet_pmtud_interval
	How often the knet PMTUd runs to look for network MTU changes.
	Value in seconds, default: 60

	.PP
	Within the
	.B logging
	directive, there are several configuration options which are all optional.

	.PP
	The following 3 options are valid only for the top level logging directive:

	.TP
	timestamp
	This specifies that a timestamp is placed on all log messages.

	The default is off.

	.TP
	fileline
	This specifies that file and line should be printed.

	The default is off.

	.TP
	function_name
	This specifies that the code function name should be printed.

	The default is off.

	.PP
	The following options are valid both for top level logging directive
	and they can be overridden in logger_subsys entries.

	.TP
	to_stderr
	.TP
	to_logfile
	.TP
	to_syslog
	These specify the destination of logging output. Any combination of
	these options may be specified. Valid options are
	.B yes
	and
	.B no.

	The default is syslog and stderr.

	Please note, if you are using to_logfile and want to rotate the file, use logrotate(8)
	with the option
	.B
	copytruncate.
	eg.
	.ne 18
	.RS
	.nf
	.ft CW
	/var/log/corosync.log {
	missingok
	compress
	notifempty
	daily
	rotate 7
	copytruncate
	}
	.ft
	.fi
	.RE

	.TP
	logfile
	If the
	.B to_logfile
	directive is set to
	.B yes
	, this option specifies the pathname of the log file.

	No default.

	.TP
	logfile_priority
	This specifies the logfile priority for this particular subsystem. Ignored if debug is on.
	Possible values are: alert, crit, debug (same as debug = on), emerg, err, info, notice, warning.

	The default is: info.

	.TP
	syslog_facility
	This specifies the syslog facility type that will be used for any messages
	sent to syslog. options are daemon, local0, local1, local2, local3, local4,
	local5, local6 & local7.

	The default is daemon.

	.TP
	syslog_priority
	This specifies the syslog level for this particular subsystem. Ignored if debug is on.
	Possible values are: alert, crit, debug (same as debug = on), emerg, err, info, notice, warning.

	The default is: info.

	.TP
	debug
	This specifies whether debug output is logged for this particular logger. Also can contain
	value trace, what is highest level of debug information.

	The default is off.

	.PP
	Within the
	.B logging
	directive, logger_subsys directives are optional.

	.PP
	Within the
	.B logger_subsys
	sub-directive, all of the above logging configuration options are valid and
	can be used to override the default settings.
	The subsys entry, described below, is mandatory to identify the subsystem.

	.TP
	subsys
	This specifies the subsystem identity (name) for which logging is specified. This is the
	name used by a service in the log_init() call. E.g. 'CPG'. This directive is
	required.

	.PP
	Within the
	.B quorum
	directive it is possible to specify the quorum algorithm to use with the

	.TP
	provider
	directive. At the time of writing only corosync_votequorum is supported.
	See votequorum(5) for configuration options.

	.PP
	Within the
	.B nodelist
	directive it is possible to specify specific information about nodes in cluster. Directive
	can contain only
	.B node
	sub-directive, which specifies every node that should be a member of the membership, and where
	non-default options are needed. Every node must have at least ring0_addr field filled.

	Every node that should be a member of the membership must be specified.

	Possible options are:
	.TP
	ringX_addr
	This specifies IP address of one of the nodes. X is link number.

	.TP
	nodeid
	-This configuration option is required for each node. It is a 32 bit value
	-specifying the node identifier delivered to the
	+This configuration option is required for each node for Kronosnet mode.
	+It is a 32 bit value specifying the node identifier delivered to the
	cluster membership service. The node identifier value of zero is
	reserved and should not be used. If knet is set, this field must be set.

	.PP
	Within the
	.B qb
	directive it is possible to specify options for libqb.

	Possible option is:
	.TP
	ipc_type
	This specifies type of IPC to use. Can be one of native (default), shm and socket.
	Native means one of shm or socket, depending on what is supported by OS. On systems
	with support for both, SHM is selected. SHM is generally faster, but need to allocate
	ring buffer file in /dev/shm.

	.PP
	Within the
	.B resources
	directive it is possible to specify options for resources.

	Possible option is:
	.TP
	watchdog_device
	(Valid only if Corosync was compiled with watchdog support.)
	.br
	Watchdog device to use, for example /dev/watchdog.
	If unset, empty or "off", no watchdog is used.
	.IP
	In a cluster with properly configured power fencing a watchdog
	provides no additional value. On the other hand, slow watchdog
	communication may incur multi-second delays in the Corosync main loop,
	potentially breaking down membership. IPMI watchdogs are particularly
	notorious in this regard: read about kipmid_max_busy_us in IPMI.txt in
	the Linux kernel documentation.

	.SH "FILES"
	.TP
	/etc/corosync/corosync.conf
	The corosync executive configuration file.

	.SH "SEE ALSO"
	.BR corosync_overview (8),
	.BR votequorum (5),
	.BR corosync-qdevice (8),
	.BR logrotate (8)
	.PP

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