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types.go

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标签:shc   info   string   return   form   count   package   app   expect   

package clusterinfo

import (
    "encoding/json"
    "fmt"
    "sort"
    "strings"
    "time"

    "github.com/blang/semver"
    "github.com/nsqio/nsq/internal/quantile"
)

type ProducerTopic struct {
    Topic      string `json:"topic"`
    Tombstoned bool   `json:"tombstoned"`
}

type ProducerTopics []ProducerTopic

func (pt ProducerTopics) Len() int           { return len(pt) }
func (pt ProducerTopics) Swap(i, j int)      { pt[i], pt[j] = pt[j], pt[i] }
func (pt ProducerTopics) Less(i, j int) bool { return pt[i].Topic < pt[j].Topic }

type Producer struct {
    RemoteAddresses  []string       `json:"remote_addresses"`
    RemoteAddress    string         `json:"remote_address"`
    Hostname         string         `json:"hostname"`
    BroadcastAddress string         `json:"broadcast_address"`
    TCPPort          int            `json:"tcp_port"`
    HTTPPort         int            `json:"http_port"`
    Version          string         `json:"version"`
    VersionObj       semver.Version `json:"-"`
    Topics           ProducerTopics `json:"topics"`
    OutOfDate        bool           `json:"out_of_date"`
}

// UnmarshalJSON implements json.Unmarshaler and postprocesses of ProducerTopics and VersionObj
func (p *Producer) UnmarshalJSON(b []byte) error {
    var r struct {
        RemoteAddress    string   `json:"remote_address"`
        Hostname         string   `json:"hostname"`
        BroadcastAddress string   `json:"broadcast_address"`
        TCPPort          int      `json:"tcp_port"`
        HTTPPort         int      `json:"http_port"`
        Version          string   `json:"version"`
        Topics           []string `json:"topics"`
        Tombstoned       []bool   `json:"tombstones"`
    }
    if err := json.Unmarshal(b, &r); err != nil {
        return err
    }
    *p = Producer{
        RemoteAddress:    r.RemoteAddress,
        Hostname:         r.Hostname,
        BroadcastAddress: r.BroadcastAddress,
        TCPPort:          r.TCPPort,
        HTTPPort:         r.HTTPPort,
        Version:          r.Version,
    }
    for i, t := range r.Topics {
        p.Topics = append(p.Topics, ProducerTopic{Topic: t, Tombstoned: r.Tombstoned[i]})
    }
    version, err := semver.Parse(p.Version)
    if err != nil {
        version, _ = semver.Parse("0.0.0")
    }
    p.VersionObj = version
    return nil
}

func (p *Producer) Address() string {
    if p.RemoteAddress == "" {
        return "N/A"
    }
    return p.RemoteAddress
}

func (p *Producer) HTTPAddress() string {
    return fmt.Sprintf("%s:%d", p.BroadcastAddress, p.HTTPPort)
}

func (p *Producer) TCPAddress() string {
    return fmt.Sprintf("%s:%d", p.BroadcastAddress, p.TCPPort)
}

// IsInconsistent checks for cases where an unexpected number of nsqd connections are
// reporting the same information to nsqlookupd (ie: multiple instances are using the
// same broadcast address), or cases where some nsqd are not reporting to all nsqlookupd.
func (p *Producer) IsInconsistent(numLookupd int) bool {
    return len(p.RemoteAddresses) != numLookupd
}

type TopicStats struct {
    Node         string          `json:"node"`
    Hostname     string          `json:"hostname"`
    TopicName    string          `json:"topic_name"`
    Depth        int64           `json:"depth"`
    MemoryDepth  int64           `json:"memory_depth"`
    BackendDepth int64           `json:"backend_depth"`
    MessageCount int64           `json:"message_count"`
    NodeStats    []*TopicStats   `json:"nodes"`
    Channels     []*ChannelStats `json:"channels"`
    Paused       bool            `json:"paused"`

    E2eProcessingLatency *quantile.E2eProcessingLatencyAggregate `json:"e2e_processing_latency"`
}

func (t *TopicStats) Add(a *TopicStats) {
    t.Node = "*"
    t.Depth += a.Depth
    t.MemoryDepth += a.MemoryDepth
    t.BackendDepth += a.BackendDepth
    t.MessageCount += a.MessageCount
    if a.Paused {
        t.Paused = a.Paused
    }
    found := false
    for _, aChannelStats := range a.Channels {
        for _, channelStats := range t.Channels {
            if aChannelStats.ChannelName == channelStats.ChannelName {
                found = true
                channelStats.Add(aChannelStats)
            }
        }
        if !found {
            t.Channels = append(t.Channels, aChannelStats)
        }
    }
    t.NodeStats = append(t.NodeStats, a)
    sort.Sort(TopicStatsByHost{t.NodeStats})
    if t.E2eProcessingLatency == nil {
        t.E2eProcessingLatency = &quantile.E2eProcessingLatencyAggregate{
            Addr:  t.Node,
            Topic: t.TopicName,
        }
    }
    t.E2eProcessingLatency.Add(a.E2eProcessingLatency)
}

type ChannelStats struct {
    Node          string          `json:"node"`
    Hostname      string          `json:"hostname"`
    TopicName     string          `json:"topic_name"`
    ChannelName   string          `json:"channel_name"`
    Depth         int64           `json:"depth"`
    MemoryDepth   int64           `json:"memory_depth"`
    BackendDepth  int64           `json:"backend_depth"`
    InFlightCount int64           `json:"in_flight_count"`
    DeferredCount int64           `json:"deferred_count"`
    RequeueCount  int64           `json:"requeue_count"`
    TimeoutCount  int64           `json:"timeout_count"`
    MessageCount  int64           `json:"message_count"`
    ClientCount   int             `json:"-"`
    Selected      bool            `json:"-"`
    NodeStats     []*ChannelStats `json:"nodes"`
    Clients       []*ClientStats  `json:"clients"`
    Paused        bool            `json:"paused"`

    E2eProcessingLatency *quantile.E2eProcessingLatencyAggregate `json:"e2e_processing_latency"`
}

func (c *ChannelStats) Add(a *ChannelStats) {
    c.Node = "*"
    c.Depth += a.Depth
    c.MemoryDepth += a.MemoryDepth
    c.BackendDepth += a.BackendDepth
    c.InFlightCount += a.InFlightCount
    c.DeferredCount += a.DeferredCount
    c.RequeueCount += a.RequeueCount
    c.TimeoutCount += a.TimeoutCount
    c.MessageCount += a.MessageCount
    c.ClientCount += a.ClientCount
    if a.Paused {
        c.Paused = a.Paused
    }
    c.NodeStats = append(c.NodeStats, a)
    sort.Sort(ChannelStatsByHost{c.NodeStats})
    if c.E2eProcessingLatency == nil {
        c.E2eProcessingLatency = &quantile.E2eProcessingLatencyAggregate{
            Addr:    c.Node,
            Topic:   c.TopicName,
            Channel: c.ChannelName,
        }
    }
    c.E2eProcessingLatency.Add(a.E2eProcessingLatency)
    c.Clients = append(c.Clients, a.Clients...)
    sort.Sort(ClientsByHost{c.Clients})
}

type ClientStats struct {
    Node              string        `json:"node"`
    RemoteAddress     string        `json:"remote_address"`
    Name              string        `json:"name"` // TODO: deprecated, remove in 1.0
    Version           string        `json:"version"`
    ClientID          string        `json:"client_id"`
    Hostname          string        `json:"hostname"`
    UserAgent         string        `json:"user_agent"`
    ConnectTs         int64         `json:"connect_ts"`
    ConnectedDuration time.Duration `json:"connected"`
    InFlightCount     int           `json:"in_flight_count"`
    ReadyCount        int           `json:"ready_count"`
    FinishCount       int64         `json:"finish_count"`
    RequeueCount      int64         `json:"requeue_count"`
    MessageCount      int64         `json:"message_count"`
    SampleRate        int32         `json:"sample_rate"`
    Deflate           bool          `json:"deflate"`
    Snappy            bool          `json:"snappy"`
    Authed            bool          `json:"authed"`
    AuthIdentity      string        `json:"auth_identity"`
    AuthIdentityURL   string        `json:"auth_identity_url"`

    TLS                           bool   `json:"tls"`
    CipherSuite                   string `json:"tls_cipher_suite"`
    TLSVersion                    string `json:"tls_version"`
    TLSNegotiatedProtocol         string `json:"tls_negotiated_protocol"`
    TLSNegotiatedProtocolIsMutual bool   `json:"tls_negotiated_protocol_is_mutual"`
}

// UnmarshalJSON implements json.Unmarshaler and postprocesses ConnectedDuration
func (s *ClientStats) UnmarshalJSON(b []byte) error {
    type locaClientStats ClientStats // re-typed to prevent recursion from json.Unmarshal
    var ss locaClientStats
    if err := json.Unmarshal(b, &ss); err != nil {
        return err
    }
    *s = ClientStats(ss)
    s.ConnectedDuration = time.Now().Truncate(time.Second).Sub(time.Unix(s.ConnectTs, 0))

    if s.ClientID == "" {
        // TODO: deprecated, remove in 1.0
        remoteAddressParts := strings.Split(s.RemoteAddress, ":")
        port := remoteAddressParts[len(remoteAddressParts)-1]
        if len(remoteAddressParts) < 2 {
            port = "NA"
        }
        s.ClientID = fmt.Sprintf("%s:%s", s.Name, port)
    }
    return nil
}

func (c *ClientStats) HasUserAgent() bool {
    return c.UserAgent != ""
}

func (c *ClientStats) HasSampleRate() bool {
    return c.SampleRate > 0
}

type ChannelStatsList []*ChannelStats

func (c ChannelStatsList) Len() int      { return len(c) }
func (c ChannelStatsList) Swap(i, j int) { c[i], c[j] = c[j], c[i] }

type ChannelStatsByHost struct {
    ChannelStatsList
}

func (c ChannelStatsByHost) Less(i, j int) bool {
    return c.ChannelStatsList[i].Hostname < c.ChannelStatsList[j].Hostname
}

type ClientStatsList []*ClientStats

func (c ClientStatsList) Len() int      { return len(c) }
func (c ClientStatsList) Swap(i, j int) { c[i], c[j] = c[j], c[i] }

type ClientsByHost struct {
    ClientStatsList
}

func (c ClientsByHost) Less(i, j int) bool {
    return c.ClientStatsList[i].Hostname < c.ClientStatsList[j].Hostname
}

type TopicStatsList []*TopicStats

func (t TopicStatsList) Len() int      { return len(t) }
func (t TopicStatsList) Swap(i, j int) { t[i], t[j] = t[j], t[i] }

type TopicStatsByHost struct {
    TopicStatsList
}

func (c TopicStatsByHost) Less(i, j int) bool {
    return c.TopicStatsList[i].Hostname < c.TopicStatsList[j].Hostname
}

type Producers []*Producer

func (t Producers) Len() int      { return len(t) }
func (t Producers) Swap(i, j int) { t[i], t[j] = t[j], t[i] }

func (t Producers) HTTPAddrs() []string {
    var addrs []string
    for _, p := range t {
        addrs = append(addrs, p.HTTPAddress())
    }
    return addrs
}

func (t Producers) Search(needle string) *Producer {
    for _, producer := range t {
        if needle == producer.HTTPAddress() {
            return producer
        }
    }
    return nil
}

type ProducersByHost struct {
    Producers
}

func (c ProducersByHost) Less(i, j int) bool {
    return c.Producers[i].Hostname < c.Producers[j].Hostname
}

types.go

标签:shc   info   string   return   form   count   package   app   expect   

原文地址:http://www.cnblogs.com/zhangboyu/p/7457409.html

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