本文主要研究一下dapr的consistent hash

consistent_hash

dapr/pkg/placement/hashing/consistent_hash.go

var replicationFactor int

// ErrNoHosts is an error for no hosts
var ErrNoHosts = errors.New("no hosts added")

// ConsistentHashTables is a table holding a map of consistent hashes with a given version
type ConsistentHashTables struct {
    Version string
    Entries map[string]*Consistent
}

// Host represents a host of stateful entities with a given name, id, port and load
type Host struct {
    Name  string
    Port  int64
    Load  int64
    AppID string
}

// Consistent represents a data structure for consistent hashing
type Consistent struct {
    hosts     map[uint64]string
    sortedSet []uint64
    loadMap   map[string]*Host
    totalLoad int64

    sync.RWMutex
}
ConsistentHashTables定义了Version、Entries属性,Entries是个map,value为Consistent;Consistent定义了hosts、sortedSet、loadMap、totalLoad、sync.RWMutex属性

GetInternals

dapr/pkg/placement/hashing/consistent_hash.go

// GetInternals returns the internal data structure of the consistent hash
func (c *Consistent) GetInternals() (map[uint64]string, []uint64, map[string]*Host, int64) {
    c.RLock()
    defer c.RUnlock()

    return c.hosts, c.sortedSet, c.loadMap, c.totalLoad
}
GetInternals方法返回hosts、sortedSet、loadMap、totalLoad属性

Add

dapr/pkg/placement/hashing/consistent_hash.go

// Add adds a host with port to the table
func (c *Consistent) Add(host, id string, port int64) bool {
    c.Lock()
    defer c.Unlock()

    if _, ok := c.loadMap[host]; ok {
        return true
    }

    c.loadMap[host] = &Host{Name: host, AppID: id, Load: 0, Port: port}
    for i := 0; i < replicationFactor; i++ {
        h := c.hash(fmt.Sprintf("%s%d", host, i))
        c.hosts[h] = host
        c.sortedSet = append(c.sortedSet, h)
    }
    // sort hashes ascendingly
    sort.Slice(c.sortedSet, func(i int, j int) bool {
        return c.sortedSet[i] < c.sortedSet[j]
    })

    return false
}
Add方法创建Host并添加到loadMap中,之后根据replicationFactor次数对host进行hash并添加到hosts及sortedSet中,最后对sortedSet进行排序

Get

dapr/pkg/placement/hashing/consistent_hash.go

// Get returns the host that owns `key`.
//
// As described in https://en.wikipedia.org/wiki/Consistent_hashing
//
// It returns ErrNoHosts if the ring has no hosts in it.
func (c *Consistent) Get(key string) (string, error) {
    c.RLock()
    defer c.RUnlock()

    if len(c.hosts) == 0 {
        return "", ErrNoHosts
    }

    h := c.hash(key)
    idx := c.search(h)
    return c.hosts[c.sortedSet[idx]], nil
}
Get方法先对key进行hash,然后通过search查找idx,最后找到idx在sortedSet中对应的host,最后从hosts中返回对应host

GetHost

dapr/pkg/placement/hashing/consistent_hash.go

// GetHost gets a host
func (c *Consistent) GetHost(key string) (*Host, error) {
    h, err := c.Get(key)
    if err != nil {
        return nil, err
    }

    return c.loadMap[h], nil
}
GetHost方法先get key,之后再去loadMap获取host

GetLeast

dapr/pkg/placement/hashing/consistent_hash.go

// GetLeast uses Consistent Hashing With Bounded loads
//
// https://research.googleblog.com/2017/04/consistent-hashing-with-bounded-loads.html
//
// to pick the least loaded host that can serve the key
//
// It returns ErrNoHosts if the ring has no hosts in it.
//
func (c *Consistent) GetLeast(key string) (string, error) {
    c.RLock()
    defer c.RUnlock()

    if len(c.hosts) == 0 {
        return "", ErrNoHosts
    }

    h := c.hash(key)
    idx := c.search(h)

    i := idx
    for {
        host := c.hosts[c.sortedSet[i]]
        if c.loadOK(host) {
            return host, nil
        }
        i++
        if i >= len(c.hosts) {
            i = 0
        }
    }
}
GetLeast方法先对key进行hash,然后通过search获取idx,之后通过loadOK来获取least loaded host

search

dapr/pkg/placement/hashing/consistent_hash.go

func (c *Consistent) search(key uint64) int {
    idx := sort.Search(len(c.sortedSet), func(i int) bool {
        return c.sortedSet[i] >= key
    })

    if idx >= len(c.sortedSet) {
        idx = 0
    }
    return idx
}
search方法通过sort.Search根据key获取idx

小结

dapr的Consistent定义了hosts、sortedSet、loadMap、totalLoad、sync.RWMutex属性;它定义了GetInternals、Add、Get、GetHost、GetLeast、search等方法。

doc


codecraft
11.9k 声望2k 粉丝

当一个代码的工匠回首往事时,不因虚度年华而悔恨,也不因碌碌无为而羞愧,这样,当他老的时候,可以很自豪告诉世人,我曾经将代码注入生命去打造互联网的浪潮之巅,那是个很疯狂的时代,我在一波波的浪潮上留下...