consul/vendor/github.com/hashicorp/raft/config.go

package raft

import (
	"fmt"
	"io"
	"log"
	"time"
)

// Config provides any necessary configuration to
// the Raft server
type Config struct {
	// Time in follower state without a leader before we attempt an election.
	HeartbeatTimeout time.Duration

	// Time in candidate state without a leader before we attempt an election.
	ElectionTimeout time.Duration

	// Time without an Apply() operation before we heartbeat to ensure
	// a timely commit. Due to random staggering, may be delayed as much as
	// 2x this value.
	CommitTimeout time.Duration

	// MaxAppendEntries controls the maximum number of append entries
	// to send at once. We want to strike a balance between efficiency
	// and avoiding waste if the follower is going to reject because of
	// an inconsistent log.
	MaxAppendEntries int

	// If we are a member of a cluster, and RemovePeer is invoked for the
	// local node, then we forget all peers and transition into the follower state.
	// If ShutdownOnRemove is is set, we additional shutdown Raft. Otherwise,
	// we can become a leader of a cluster containing only this node.
	ShutdownOnRemove bool

	// DisableBootstrapAfterElect is used to turn off EnableSingleNode
	// after the node is elected. This is used to prevent self-election
	// if the node is removed from the Raft cluster via RemovePeer. Setting
	// it to false will keep the bootstrap mode, allowing the node to self-elect
	// and potentially bootstrap a separate cluster.
	DisableBootstrapAfterElect bool

	// TrailingLogs controls how many logs we leave after a snapshot. This is
	// used so that we can quickly replay logs on a follower instead of being
	// forced to send an entire snapshot.
	TrailingLogs uint64

	// SnapshotInterval controls how often we check if we should perform a snapshot.
	// We randomly stagger between this value and 2x this value to avoid the entire
	// cluster from performing a snapshot at once.
	SnapshotInterval time.Duration

	// SnapshotThreshold controls how many outstanding logs there must be before
	// we perform a snapshot. This is to prevent excessive snapshots when we can
	// just replay a small set of logs.
	SnapshotThreshold uint64

	// EnableSingleNode allows for a single node mode of operation. This
	// is false by default, which prevents a lone node from electing itself.
	// leader.
	EnableSingleNode bool

	// LeaderLeaseTimeout is used to control how long the "lease" lasts
	// for being the leader without being able to contact a quorum
	// of nodes. If we reach this interval without contact, we will
	// step down as leader.
	LeaderLeaseTimeout time.Duration

	// StartAsLeader forces Raft to start in the leader state. This should
	// never be used except for testing purposes, as it can cause a split-brain.
	StartAsLeader bool

	// NotifyCh is used to provide a channel that will be notified of leadership
	// changes. Raft will block writing to this channel, so it should either be
	// buffered or aggressively consumed.
	NotifyCh chan<- bool

	// LogOutput is used as a sink for logs, unless Logger is specified.
	// Defaults to os.Stderr.
	LogOutput io.Writer

	// Logger is a user-provided logger. If nil, a logger writing to LogOutput
	// is used.
	Logger *log.Logger
}

// DefaultConfig returns a Config with usable defaults.
func DefaultConfig() *Config {
	return &Config{
		HeartbeatTimeout:           1000 * time.Millisecond,
		ElectionTimeout:            1000 * time.Millisecond,
		CommitTimeout:              50 * time.Millisecond,
		MaxAppendEntries:           64,
		ShutdownOnRemove:           true,
		DisableBootstrapAfterElect: true,
		TrailingLogs:               10240,
		SnapshotInterval:           120 * time.Second,
		SnapshotThreshold:          8192,
		EnableSingleNode:           false,
		LeaderLeaseTimeout:         500 * time.Millisecond,
	}
}

// ValidateConfig is used to validate a sane configuration
func ValidateConfig(config *Config) error {
	if config.HeartbeatTimeout < 5*time.Millisecond {
		return fmt.Errorf("Heartbeat timeout is too low")
	}
	if config.ElectionTimeout < 5*time.Millisecond {
		return fmt.Errorf("Election timeout is too low")
	}
	if config.CommitTimeout < time.Millisecond {
		return fmt.Errorf("Commit timeout is too low")
	}
	if config.MaxAppendEntries <= 0 {
		return fmt.Errorf("MaxAppendEntries must be positive")
	}
	if config.MaxAppendEntries > 1024 {
		return fmt.Errorf("MaxAppendEntries is too large")
	}
	if config.SnapshotInterval < 5*time.Millisecond {
		return fmt.Errorf("Snapshot interval is too low")
	}
	if config.LeaderLeaseTimeout < 5*time.Millisecond {
		return fmt.Errorf("Leader lease timeout is too low")
	}
	if config.LeaderLeaseTimeout > config.HeartbeatTimeout {
		return fmt.Errorf("Leader lease timeout cannot be larger than heartbeat timeout")
	}
	if config.ElectionTimeout < config.HeartbeatTimeout {
		return fmt.Errorf("Election timeout must be equal or greater than Heartbeat Timeout")
	}
	return nil
}
Manage dependencies via Godep Embrace the future and use Go 1.6's vendor support via Godep. Go 1.5 users should `export GO15VENDOREXPERIMENT=1` 2016-02-13 00:50:37 +00:00			`package raft`

			`import (`
			`"fmt"`
			`"io"`
			`"log"`
			`"time"`
			`)`

			`// Config provides any necessary configuration to`
			`// the Raft server`
			`type Config struct {`
			`// Time in follower state without a leader before we attempt an election.`
			`HeartbeatTimeout time.Duration`

			`// Time in candidate state without a leader before we attempt an election.`
			`ElectionTimeout time.Duration`

			`// Time without an Apply() operation before we heartbeat to ensure`
			`// a timely commit. Due to random staggering, may be delayed as much as`
			`// 2x this value.`
			`CommitTimeout time.Duration`

			`// MaxAppendEntries controls the maximum number of append entries`
			`// to send at once. We want to strike a balance between efficiency`
			`// and avoiding waste if the follower is going to reject because of`
			`// an inconsistent log.`
			`MaxAppendEntries int`

			`// If we are a member of a cluster, and RemovePeer is invoked for the`
			`// local node, then we forget all peers and transition into the follower state.`
			`// If ShutdownOnRemove is is set, we additional shutdown Raft. Otherwise,`
			`// we can become a leader of a cluster containing only this node.`
			`ShutdownOnRemove bool`

			`// DisableBootstrapAfterElect is used to turn off EnableSingleNode`
			`// after the node is elected. This is used to prevent self-election`
			`// if the node is removed from the Raft cluster via RemovePeer. Setting`
			`// it to false will keep the bootstrap mode, allowing the node to self-elect`
			`// and potentially bootstrap a separate cluster.`
			`DisableBootstrapAfterElect bool`

			`// TrailingLogs controls how many logs we leave after a snapshot. This is`
			`// used so that we can quickly replay logs on a follower instead of being`
			`// forced to send an entire snapshot.`
			`TrailingLogs uint64`

			`// SnapshotInterval controls how often we check if we should perform a snapshot.`
			`// We randomly stagger between this value and 2x this value to avoid the entire`
			`// cluster from performing a snapshot at once.`
			`SnapshotInterval time.Duration`

			`// SnapshotThreshold controls how many outstanding logs there must be before`
			`// we perform a snapshot. This is to prevent excessive snapshots when we can`
			`// just replay a small set of logs.`
			`SnapshotThreshold uint64`

			`// EnableSingleNode allows for a single node mode of operation. This`
			`// is false by default, which prevents a lone node from electing itself.`
			`// leader.`
			`EnableSingleNode bool`

			`// LeaderLeaseTimeout is used to control how long the "lease" lasts`
			`// for being the leader without being able to contact a quorum`
			`// of nodes. If we reach this interval without contact, we will`
			`// step down as leader.`
			`LeaderLeaseTimeout time.Duration`

			`// StartAsLeader forces Raft to start in the leader state. This should`
			`// never be used except for testing purposes, as it can cause a split-brain.`
			`StartAsLeader bool`

			`// NotifyCh is used to provide a channel that will be notified of leadership`
			`// changes. Raft will block writing to this channel, so it should either be`
			`// buffered or aggressively consumed.`
			`NotifyCh chan<- bool`

			`// LogOutput is used as a sink for logs, unless Logger is specified.`
			`// Defaults to os.Stderr.`
			`LogOutput io.Writer`

			`// Logger is a user-provided logger. If nil, a logger writing to LogOutput`
			`// is used.`
			`Logger *log.Logger`
			`}`

			`// DefaultConfig returns a Config with usable defaults.`
			`func DefaultConfig() *Config {`
			`return &Config{`
			`HeartbeatTimeout: 1000 * time.Millisecond,`
			`ElectionTimeout: 1000 * time.Millisecond,`
			`CommitTimeout: 50 * time.Millisecond,`
			`MaxAppendEntries: 64,`
			`ShutdownOnRemove: true,`
			`DisableBootstrapAfterElect: true,`
			`TrailingLogs: 10240,`
			`SnapshotInterval: 120 * time.Second,`
			`SnapshotThreshold: 8192,`
			`EnableSingleNode: false,`
			`LeaderLeaseTimeout: 500 * time.Millisecond,`
			`}`
			`}`

			`// ValidateConfig is used to validate a sane configuration`
			`func ValidateConfig(config *Config) error {`
			`if config.HeartbeatTimeout < 5*time.Millisecond {`
			`return fmt.Errorf("Heartbeat timeout is too low")`
			`}`
			`if config.ElectionTimeout < 5*time.Millisecond {`
			`return fmt.Errorf("Election timeout is too low")`
			`}`
			`if config.CommitTimeout < time.Millisecond {`
			`return fmt.Errorf("Commit timeout is too low")`
			`}`
			`if config.MaxAppendEntries <= 0 {`
			`return fmt.Errorf("MaxAppendEntries must be positive")`
			`}`
			`if config.MaxAppendEntries > 1024 {`
			`return fmt.Errorf("MaxAppendEntries is too large")`
			`}`
			`if config.SnapshotInterval < 5*time.Millisecond {`
			`return fmt.Errorf("Snapshot interval is too low")`
			`}`
			`if config.LeaderLeaseTimeout < 5*time.Millisecond {`
			`return fmt.Errorf("Leader lease timeout is too low")`
			`}`
			`if config.LeaderLeaseTimeout > config.HeartbeatTimeout {`
			`return fmt.Errorf("Leader lease timeout cannot be larger than heartbeat timeout")`
			`}`
			`if config.ElectionTimeout < config.HeartbeatTimeout {`
			`return fmt.Errorf("Election timeout must be equal or greater than Heartbeat Timeout")`
			`}`
			`return nil`
			`}`