func GetIndexHostNode(indexName, bucketName, serverUserName, serverPassword, hostaddress string) (string, error) {
client := &http.Client{}
address := "http://" + hostaddress + "/indexStatus"
req, _ := http.NewRequest("GET", address, nil)
req.SetBasicAuth(serverUserName, serverPassword)
req.Header.Add("Content-Type", "application/x-www-form-urlencoded; charset=UTF-8")
resp, err := client.Do(req)
if resp.StatusCode != http.StatusOK && resp.StatusCode != http.StatusAccepted {
log.Printf(address)
log.Printf("%v", req)
log.Printf("%v", resp)
log.Printf("Get indexStatus failed")
}
// todo : error out if response is error
tc.HandleError(err, "Get Stats")
defer resp.Body.Close()
response := make(map[string]interface{})
body, _ := ioutil.ReadAll(resp.Body)
err = json.Unmarshal(body, &response)
if err != nil {
tc.HandleError(err, "Get IndexStatus :: Unmarshal of response body")
return "", nil
}
c, e := CreateClient(hostaddress, "2itest")
if e != nil {
return "", e
}
defer c.Close()
defnID, _ := GetDefnID(c, bucketName, indexName)
indexes := response["indexes"].([]interface{})
for _, index := range indexes {
i := index.(map[string]interface{})
if i["id"].(float64) == float64(defnID) {
hosts := i["hosts"].([]interface{})
return hosts[0].(string), nil
}
}
return "", errors.New("Index not found in /indexStatus")
}
func RunCommands(cluster string, cfg *Config, statsW io.Writer) (*Result, error) {
t0 := time.Now()
var result Result
var clients []*qclient.GsiClient
var jobQ chan *Job
var aggrQ chan *JobResult
var wg1, wg2 sync.WaitGroup
if len(cfg.LatencyBuckets) == 0 {
cfg.LatencyBuckets = defaultLatencyBuckets
}
config := c.SystemConfig.SectionConfig("queryport.client.", true)
config.SetValue("settings.poolSize", int(cfg.Concurrency))
client, err := qclient.NewGsiClient(cluster, config)
if err != nil {
return nil, err
}
defer client.Close()
indexes, err := client.Refresh()
if err != nil {
return nil, err
}
clients = make([]*qclient.GsiClient, cfg.Clients)
for i := 0; i < cfg.Clients; i++ {
c, err := qclient.NewGsiClient(cluster, config)
if err != nil {
return nil, err
}
defer c.Close()
clients[i] = c
}
jobQ = make(chan *Job, cfg.Concurrency*1000)
aggrQ = make(chan *JobResult, cfg.Concurrency*1000)
for i := 0; i < cfg.Concurrency; i++ {
wg1.Add(1)
go Worker(jobQ, clients[i%cfg.Clients], aggrQ, &wg1)
}
wg2.Add(1)
go ResultAggregator(aggrQ, statsW, &wg2)
for i, spec := range cfg.ScanSpecs {
if spec.Id == 0 {
spec.Id = uint64(i)
}
for _, index := range indexes {
if index.Definition.Bucket == spec.Bucket &&
index.Definition.Name == spec.Index {
spec.DefnId = uint64(index.Definition.DefnId)
}
}
hFn := func(v int64) string {
if v == math.MinInt64 {
return "0"
} else if v == math.MaxInt64 {
return "inf"
}
return fmt.Sprint(time.Nanosecond * time.Duration(v))
}
res := new(ScanResult)
res.ErrorCount = platform.NewAlignedUint64(0)
res.LatencyHisto.Init(cfg.LatencyBuckets, hFn)
res.Id = spec.Id
result.ScanResults = append(result.ScanResults, res)
}
// warming up GsiClient
for _, client := range clients {
for _, spec := range cfg.ScanSpecs {
job := &Job{spec: spec, result: nil}
RunJob(client, job, nil)
break
}
}
fmt.Println("GsiClients warmed up ...")
result.WarmupDuration = float64(time.Since(t0).Nanoseconds()) / float64(time.Second)
// Round robin scheduling of jobs
var allFinished bool
loop:
for {
allFinished = true
for i, spec := range cfg.ScanSpecs {
if iter := platform.LoadUint32(&spec.iteration); iter < spec.Repeat+1 {
j := &Job{
spec: spec,
result: result.ScanResults[i],
}
jobQ <- j
platform.AddUint32(&spec.iteration, 1)
allFinished = false
}
}
if allFinished {
break loop
}
}
close(jobQ)
wg1.Wait()
close(aggrQ)
wg2.Wait()
return &result, err
}
