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selector.go
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selector.go
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package gost
import (
"errors"
"math/rand"
"net"
"strconv"
"sync"
"sync/atomic"
"time"
)
var (
// ErrNoneAvailable indicates there is no node available.
ErrNoneAvailable = errors.New("none available")
)
// NodeSelector as a mechanism to pick nodes and mark their status.
type NodeSelector interface {
Select(nodes []Node, opts ...SelectOption) (Node, error)
}
type defaultSelector struct {
}
func (s *defaultSelector) Select(nodes []Node, opts ...SelectOption) (Node, error) {
sopts := SelectOptions{}
for _, opt := range opts {
opt(&sopts)
}
for _, filter := range sopts.Filters {
nodes = filter.Filter(nodes)
}
if len(nodes) == 0 {
return Node{}, ErrNoneAvailable
}
strategy := sopts.Strategy
if strategy == nil {
strategy = &RoundStrategy{}
}
return strategy.Apply(nodes), nil
}
// SelectOption is the option used when making a select call.
type SelectOption func(*SelectOptions)
// SelectOptions is the options for node selection.
type SelectOptions struct {
Filters []Filter
Strategy Strategy
}
// WithFilter adds a filter function to the list of filters
// used during the Select call.
func WithFilter(f ...Filter) SelectOption {
return func(o *SelectOptions) {
o.Filters = append(o.Filters, f...)
}
}
// WithStrategy sets the selector strategy
func WithStrategy(s Strategy) SelectOption {
return func(o *SelectOptions) {
o.Strategy = s
}
}
// Strategy is a selection strategy e.g random, round-robin.
type Strategy interface {
Apply([]Node) Node
String() string
}
// NewStrategy creates a Strategy by the name s.
func NewStrategy(s string) Strategy {
switch s {
case "random":
return &RandomStrategy{}
case "fifo":
return &FIFOStrategy{}
case "round":
fallthrough
default:
return &RoundStrategy{}
}
}
// RoundStrategy is a strategy for node selector.
// The node will be selected by round-robin algorithm.
type RoundStrategy struct {
counter uint64
}
// Apply applies the round-robin strategy for the nodes.
func (s *RoundStrategy) Apply(nodes []Node) Node {
if len(nodes) == 0 {
return Node{}
}
n := atomic.AddUint64(&s.counter, 1) - 1
return nodes[int(n%uint64(len(nodes)))]
}
func (s *RoundStrategy) String() string {
return "round"
}
// RandomStrategy is a strategy for node selector.
// The node will be selected randomly.
type RandomStrategy struct {
Seed int64
rand *rand.Rand
once sync.Once
mux sync.Mutex
}
// Apply applies the random strategy for the nodes.
func (s *RandomStrategy) Apply(nodes []Node) Node {
s.once.Do(func() {
seed := s.Seed
if seed == 0 {
seed = time.Now().UnixNano()
}
s.rand = rand.New(rand.NewSource(seed))
})
if len(nodes) == 0 {
return Node{}
}
s.mux.Lock()
r := s.rand.Int()
s.mux.Unlock()
return nodes[r%len(nodes)]
}
func (s *RandomStrategy) String() string {
return "random"
}
// FIFOStrategy is a strategy for node selector.
// The node will be selected from first to last,
// and will stick to the selected node until it is failed.
type FIFOStrategy struct{}
// Apply applies the fifo strategy for the nodes.
func (s *FIFOStrategy) Apply(nodes []Node) Node {
if len(nodes) == 0 {
return Node{}
}
return nodes[0]
}
func (s *FIFOStrategy) String() string {
return "fifo"
}
// Filter is used to filter a node during the selection process
type Filter interface {
Filter([]Node) []Node
String() string
}
// default options for FailFilter
const (
DefaultMaxFails = 1
DefaultFailTimeout = 30 * time.Second
)
// FailFilter filters the dead node.
// A node is marked as dead if its failed count is greater than MaxFails.
type FailFilter struct {
MaxFails int
FailTimeout time.Duration
}
// Filter filters dead nodes.
func (f *FailFilter) Filter(nodes []Node) []Node {
maxFails := f.MaxFails
if maxFails == 0 {
maxFails = DefaultMaxFails
}
failTimeout := f.FailTimeout
if failTimeout == 0 {
failTimeout = DefaultFailTimeout
}
if len(nodes) <= 1 || maxFails < 0 {
return nodes
}
nl := []Node{}
for i := range nodes {
marker := nodes[i].marker.Clone()
// log.Logf("%s: %d/%d %v/%v", nodes[i], marker.FailCount(), f.MaxFails, marker.FailTime(), f.FailTimeout)
if marker.FailCount() < uint32(maxFails) ||
time.Since(time.Unix(marker.FailTime(), 0)) >= failTimeout {
nl = append(nl, nodes[i])
}
}
return nl
}
func (f *FailFilter) String() string {
return "fail"
}
// InvalidFilter filters the invalid node.
// A node is invalid if its port is invalid (negative or zero value).
type InvalidFilter struct{}
// Filter filters invalid nodes.
func (f *InvalidFilter) Filter(nodes []Node) []Node {
nl := []Node{}
for i := range nodes {
_, sport, _ := net.SplitHostPort(nodes[i].Addr)
if port, _ := strconv.Atoi(sport); port > 0 {
nl = append(nl, nodes[i])
}
}
return nl
}
func (f *InvalidFilter) String() string {
return "invalid"
}
type failMarker struct {
failTime int64
failCount uint32
mux sync.RWMutex
}
func (m *failMarker) FailTime() int64 {
if m == nil {
return 0
}
m.mux.Lock()
defer m.mux.Unlock()
return m.failTime
}
func (m *failMarker) FailCount() uint32 {
if m == nil {
return 0
}
m.mux.Lock()
defer m.mux.Unlock()
return m.failCount
}
func (m *failMarker) Mark() {
if m == nil {
return
}
m.mux.Lock()
defer m.mux.Unlock()
m.failTime = time.Now().Unix()
m.failCount++
}
func (m *failMarker) Reset() {
if m == nil {
return
}
m.mux.Lock()
defer m.mux.Unlock()
m.failTime = 0
m.failCount = 0
}
func (m *failMarker) Clone() *failMarker {
if m == nil {
return nil
}
m.mux.RLock()
defer m.mux.RUnlock()
fc, ft := m.failCount, m.failTime
return &failMarker{
failCount: fc,
failTime: ft,
}
}