You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
kratos/pkg/naming/opt.go

176 lines
4.3 KiB

package naming
import (
"encoding/json"
"fmt"
"math/rand"
"net/url"
"os"
"sort"
"github.com/go-kratos/kratos/pkg/conf/env"
"github.com/go-kratos/kratos/pkg/log"
"github.com/dgryski/go-farm"
)
// BuildOptions build options.
type BuildOptions struct {
Filter func(map[string][]*Instance) map[string][]*Instance
Subset func([]*Instance, int) []*Instance
SubsetSize int
ClientZone string
Scheduler func(*InstancesInfo) []*Instance
}
// BuildOpt build option interface.
type BuildOpt interface {
Apply(*BuildOptions)
}
type funcOpt struct {
f func(*BuildOptions)
}
func (f *funcOpt) Apply(opt *BuildOptions) {
f.f(opt)
}
// Filter filter option.
func Filter(schema string, clusters map[string]struct{}) BuildOpt {
return &funcOpt{f: func(opt *BuildOptions) {
opt.Filter = func(inss map[string][]*Instance) map[string][]*Instance {
newInss := make(map[string][]*Instance)
for zone := range inss {
var instances []*Instance
for _, ins := range inss[zone] {
//如果r.clusters的长度大于0说明需要进行集群选择
if len(clusters) > 0 {
if _, ok := clusters[ins.Metadata[MetaCluster]]; !ok {
continue
}
}
var addr string
for _, a := range ins.Addrs {
u, err := url.Parse(a)
if err == nil && u.Scheme == schema {
addr = u.Host
}
}
if addr == "" {
fmt.Fprintf(os.Stderr, "resolver: app(%s,%s) no valid grpc address(%v) found!", ins.AppID, ins.Hostname, ins.Addrs)
log.Warn("resolver: invalid rpc address(%s,%s,%v) found!", ins.AppID, ins.Hostname, ins.Addrs)
continue
}
instances = append(instances, ins)
}
newInss[zone] = instances
}
return newInss
}
}}
}
func defulatSubset(inss []*Instance, size int) []*Instance {
backends := inss
if len(backends) <= size {
return backends
}
clientID := env.Hostname
sort.Slice(backends, func(i, j int) bool {
return backends[i].Hostname < backends[j].Hostname
})
count := len(backends) / size
// hash得到ID
id := farm.Fingerprint64([]byte(clientID))
// 获得rand轮数
round := int64(id / uint64(count))
s := rand.NewSource(round)
ra := rand.New(s)
// 根据source洗牌
ra.Shuffle(len(backends), func(i, j int) {
backends[i], backends[j] = backends[j], backends[i]
})
start := (id % uint64(count)) * uint64(size)
return backends[int(start) : int(start)+size]
}
// Subset Subset option.
func Subset(defaultSize int) BuildOpt {
return &funcOpt{f: func(opt *BuildOptions) {
opt.SubsetSize = defaultSize
opt.Subset = defulatSubset
}}
}
// ScheduleNode ScheduleNode option.
func ScheduleNode(clientZone string) BuildOpt {
return &funcOpt{f: func(opt *BuildOptions) {
opt.ClientZone = clientZone
opt.Scheduler = func(app *InstancesInfo) (instances []*Instance) {
type Zone struct {
inss []*Instance
weight int64
name string
score float64
}
var zones []*Zone
if app.Scheduler != nil {
si, err := json.Marshal(app.Scheduler)
if err == nil {
log.Info("schedule info: %s", string(si))
}
if strategy, ok := app.Scheduler.Clients[clientZone]; ok {
var min *Zone
for name, zone := range strategy.Zones {
inss := app.Instances[name]
if len(inss) == 0 {
continue
}
z := &Zone{
inss: inss,
weight: zone.Weight,
name: name,
score: float64(len(inss)) / float64(zone.Weight),
}
if min == nil || z.score < min.score {
min = z
}
zones = append(zones, z)
}
if opt.SubsetSize != 0 && len(min.inss) > opt.SubsetSize {
min.score = float64(opt.SubsetSize) / float64(min.weight)
}
for _, z := range zones {
nums := int(min.score * float64(z.weight))
if nums == 0 {
nums = 1
}
if nums < len(z.inss) {
if opt.Subset != nil {
z.inss = opt.Subset(z.inss, nums)
} else {
z.inss = defulatSubset(z.inss, nums)
}
}
}
}
}
for _, zone := range zones {
instances = append(instances, zone.inss...)
}
//如果没有拿到节点,则选择直接获取
if len(instances) == 0 {
instances = app.Instances[clientZone]
if len(instances) == 0 {
for _, value := range app.Instances {
instances = append(instances, value...)
}
}
}
return
}
}}
}