telegraf/plugins/inputs/mongodb/mongostat.go

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2015-07-07 01:20:11 +00:00
/***
The code contained here came from https://github.com/mongodb/mongo-tools/blob/master/mongostat/stat_types.go
and contains modifications so that no other dependency from that project is needed. Other modifications included
removing uneccessary code specific to formatting the output and determine the current state of the database. It
is licensed under Apache Version 2.0, http://www.apache.org/licenses/LICENSE-2.0.html
***/
package mongodb
import (
"sort"
"strings"
"time"
"gopkg.in/mgo.v2/bson"
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)
const (
MongosProcess = "mongos"
)
// Flags to determine cases when to activate/deactivate columns for output.
const (
Always = 1 << iota // always activate the column
Discover // only active when mongostat is in discover mode
Repl // only active if one of the nodes being monitored is in a replset
Locks // only active if node is capable of calculating lock info
AllOnly // only active if mongostat was run with --all option
MMAPOnly // only active if node has mmap-specific fields
WTOnly // only active if node has wiredtiger-specific fields
)
type MongoStatus struct {
SampleTime time.Time
ServerStatus *ServerStatus
ReplSetStatus *ReplSetStatus
ClusterStatus *ClusterStatus
DbStats *DbStats
}
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type ServerStatus struct {
Host string `bson:"host"`
Version string `bson:"version"`
Process string `bson:"process"`
Pid int64 `bson:"pid"`
Uptime int64 `bson:"uptime"`
UptimeMillis int64 `bson:"uptimeMillis"`
UptimeEstimate int64 `bson:"uptimeEstimate"`
LocalTime time.Time `bson:"localTime"`
Asserts map[string]int64 `bson:"asserts"`
BackgroundFlushing *FlushStats `bson:"backgroundFlushing"`
ExtraInfo *ExtraInfo `bson:"extra_info"`
Connections *ConnectionStats `bson:"connections"`
Dur *DurStats `bson:"dur"`
GlobalLock *GlobalLockStats `bson:"globalLock"`
Locks map[string]LockStats `bson:"locks,omitempty"`
Network *NetworkStats `bson:"network"`
Opcounters *OpcountStats `bson:"opcounters"`
OpcountersRepl *OpcountStats `bson:"opcountersRepl"`
RecordStats *DBRecordStats `bson:"recordStats"`
Mem *MemStats `bson:"mem"`
Repl *ReplStatus `bson:"repl"`
ShardCursorType map[string]interface{} `bson:"shardCursorType"`
StorageEngine map[string]string `bson:"storageEngine"`
WiredTiger *WiredTiger `bson:"wiredTiger"`
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Metrics *MetricsStats `bson:"metrics"`
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}
// DbStats stores stats from all dbs
type DbStats struct {
Dbs []Db
}
// Db represent a single DB
type Db struct {
Name string
DbStatsData *DbStatsData
}
// DbStatsData stores stats from a db
type DbStatsData struct {
Db string `bson:"db"`
Collections int64 `bson:"collections"`
Objects int64 `bson:"objects"`
AvgObjSize float64 `bson:"avgObjSize"`
DataSize int64 `bson:"dataSize"`
StorageSize int64 `bson:"storageSize"`
NumExtents int64 `bson:"numExtents"`
Indexes int64 `bson:"indexes"`
IndexSize int64 `bson:"indexSize"`
Ok int64 `bson:"ok"`
GleStats interface{} `bson:"gleStats"`
}
// ClusterStatus stores information related to the whole cluster
type ClusterStatus struct {
JumboChunksCount int64
}
// ReplSetStatus stores information from replSetGetStatus
type ReplSetStatus struct {
Members []ReplSetMember `bson:"members"`
MyState int64 `bson:"myState"`
}
// ReplSetMember stores information related to a replica set member
type ReplSetMember struct {
Name string `bson:"name"`
State int64 `bson:"state"`
OptimeDate *bson.MongoTimestamp `bson:"optimeDate"`
}
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// WiredTiger stores information related to the WiredTiger storage engine.
type WiredTiger struct {
Transaction TransactionStats `bson:"transaction"`
Concurrent ConcurrentTransactions `bson:"concurrentTransactions"`
Cache CacheStats `bson:"cache"`
}
type ConcurrentTransactions struct {
Write ConcurrentTransStats `bson:"write"`
Read ConcurrentTransStats `bson:"read"`
}
type ConcurrentTransStats struct {
Out int64 `bson:"out"`
}
// CacheStats stores cache statistics for WiredTiger.
type CacheStats struct {
TrackedDirtyBytes int64 `bson:"tracked dirty bytes in the cache"`
CurrentCachedBytes int64 `bson:"bytes currently in the cache"`
MaxBytesConfigured int64 `bson:"maximum bytes configured"`
}
// TransactionStats stores transaction checkpoints in WiredTiger.
type TransactionStats struct {
TransCheckpoints int64 `bson:"transaction checkpoints"`
}
// ReplStatus stores data related to replica sets.
type ReplStatus struct {
SetName interface{} `bson:"setName"`
IsMaster interface{} `bson:"ismaster"`
Secondary interface{} `bson:"secondary"`
IsReplicaSet interface{} `bson:"isreplicaset"`
ArbiterOnly interface{} `bson:"arbiterOnly"`
Hosts []string `bson:"hosts"`
Passives []string `bson:"passives"`
Me string `bson:"me"`
}
// DBRecordStats stores data related to memory operations across databases.
type DBRecordStats struct {
AccessesNotInMemory int64 `bson:"accessesNotInMemory"`
PageFaultExceptionsThrown int64 `bson:"pageFaultExceptionsThrown"`
DBRecordAccesses map[string]RecordAccesses `bson:",inline"`
}
// RecordAccesses stores data related to memory operations scoped to a database.
type RecordAccesses struct {
AccessesNotInMemory int64 `bson:"accessesNotInMemory"`
PageFaultExceptionsThrown int64 `bson:"pageFaultExceptionsThrown"`
}
// MemStats stores data related to memory statistics.
type MemStats struct {
Bits int64 `bson:"bits"`
Resident int64 `bson:"resident"`
Virtual int64 `bson:"virtual"`
Supported interface{} `bson:"supported"`
Mapped int64 `bson:"mapped"`
MappedWithJournal int64 `bson:"mappedWithJournal"`
}
// FlushStats stores information about memory flushes.
type FlushStats struct {
Flushes int64 `bson:"flushes"`
TotalMs int64 `bson:"total_ms"`
AverageMs float64 `bson:"average_ms"`
LastMs int64 `bson:"last_ms"`
LastFinished time.Time `bson:"last_finished"`
}
// ConnectionStats stores information related to incoming database connections.
type ConnectionStats struct {
Current int64 `bson:"current"`
Available int64 `bson:"available"`
TotalCreated int64 `bson:"totalCreated"`
}
// DurTiming stores information related to journaling.
type DurTiming struct {
Dt int64 `bson:"dt"`
PrepLogBuffer int64 `bson:"prepLogBuffer"`
WriteToJournal int64 `bson:"writeToJournal"`
WriteToDataFiles int64 `bson:"writeToDataFiles"`
RemapPrivateView int64 `bson:"remapPrivateView"`
}
// DurStats stores information related to journaling statistics.
type DurStats struct {
Commits int64 `bson:"commits"`
JournaledMB int64 `bson:"journaledMB"`
WriteToDataFilesMB int64 `bson:"writeToDataFilesMB"`
Compression int64 `bson:"compression"`
CommitsInWriteLock int64 `bson:"commitsInWriteLock"`
EarlyCommits int64 `bson:"earlyCommits"`
TimeMs DurTiming
}
// QueueStats stores the number of queued read/write operations.
type QueueStats struct {
Total int64 `bson:"total"`
Readers int64 `bson:"readers"`
Writers int64 `bson:"writers"`
}
// ClientStats stores the number of active read/write operations.
type ClientStats struct {
Total int64 `bson:"total"`
Readers int64 `bson:"readers"`
Writers int64 `bson:"writers"`
}
// GlobalLockStats stores information related locks in the MMAP storage engine.
type GlobalLockStats struct {
TotalTime int64 `bson:"totalTime"`
LockTime int64 `bson:"lockTime"`
CurrentQueue *QueueStats `bson:"currentQueue"`
ActiveClients *ClientStats `bson:"activeClients"`
}
// NetworkStats stores information related to network traffic.
type NetworkStats struct {
BytesIn int64 `bson:"bytesIn"`
BytesOut int64 `bson:"bytesOut"`
NumRequests int64 `bson:"numRequests"`
}
// OpcountStats stores information related to comamnds and basic CRUD operations.
type OpcountStats struct {
Insert int64 `bson:"insert"`
Query int64 `bson:"query"`
Update int64 `bson:"update"`
Delete int64 `bson:"delete"`
GetMore int64 `bson:"getmore"`
Command int64 `bson:"command"`
}
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// MetricsStats stores information related to metrics
type MetricsStats struct {
TTL *TTLStats `bson:"ttl"`
}
// TTLStats stores information related to documents with a ttl index.
type TTLStats struct {
DeletedDocuments int64 `bson:"deletedDocuments"`
Passes int64 `bson:"passes"`
}
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// ReadWriteLockTimes stores time spent holding read/write locks.
type ReadWriteLockTimes struct {
Read int64 `bson:"R"`
Write int64 `bson:"W"`
ReadLower int64 `bson:"r"`
WriteLower int64 `bson:"w"`
}
// LockStats stores information related to time spent acquiring/holding locks
// for a given database.
type LockStats struct {
TimeLockedMicros ReadWriteLockTimes `bson:"timeLockedMicros"`
TimeAcquiringMicros ReadWriteLockTimes `bson:"timeAcquiringMicros"`
// AcquireCount and AcquireWaitCount are new fields of the lock stats only populated on 3.0 or newer.
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// Typed as a pointer so that if it is nil, mongostat can assume the field is not populated
// with real namespace data.
AcquireCount *ReadWriteLockTimes `bson:"acquireCount,omitempty"`
AcquireWaitCount *ReadWriteLockTimes `bson:"acquireWaitCount,omitempty"`
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}
// ExtraInfo stores additional platform specific information.
type ExtraInfo struct {
PageFaults *int64 `bson:"page_faults"`
}
// StatHeader describes a single column for mongostat's terminal output,
// its formatting, and in which modes it should be displayed.
type StatHeader struct {
// The text to appear in the column's header cell
HeaderText string
// Bitmask containing flags to determine if this header is active or not
ActivateFlags int
}
// StatHeaders are the complete set of data metrics supported by mongostat.
var StatHeaders = []StatHeader{
{"", Always}, // placeholder for hostname column (blank header text)
{"insert", Always},
{"query", Always},
{"update", Always},
{"delete", Always},
{"getmore", Always},
{"command", Always},
{"% dirty", WTOnly},
{"% used", WTOnly},
{"flushes", Always},
{"mapped", MMAPOnly},
{"vsize", Always},
{"res", Always},
{"non-mapped", MMAPOnly | AllOnly},
{"faults", MMAPOnly},
{"lr|lw %", MMAPOnly | AllOnly},
{"lrt|lwt", MMAPOnly | AllOnly},
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{" locked db", Locks},
{"qr|qw", Always},
{"ar|aw", Always},
{"netIn", Always},
{"netOut", Always},
{"conn", Always},
{"set", Repl},
{"repl", Repl},
{"time", Always},
}
// NamespacedLocks stores information on the LockStatus of namespaces.
type NamespacedLocks map[string]LockStatus
// LockUsage stores information related to a namespace's lock usage.
type LockUsage struct {
Namespace string
Reads int64
Writes int64
}
type lockUsages []LockUsage
func percentageInt64(value, outOf int64) float64 {
if value == 0 || outOf == 0 {
return 0
}
return 100 * (float64(value) / float64(outOf))
}
func averageInt64(value, outOf int64) int64 {
if value == 0 || outOf == 0 {
return 0
}
return value / outOf
}
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func (slice lockUsages) Len() int {
return len(slice)
}
func (slice lockUsages) Less(i, j int) bool {
return slice[i].Reads+slice[i].Writes < slice[j].Reads+slice[j].Writes
}
func (slice lockUsages) Swap(i, j int) {
slice[i], slice[j] = slice[j], slice[i]
}
// CollectionLockStatus stores a collection's lock statistics.
type CollectionLockStatus struct {
ReadAcquireWaitsPercentage float64
WriteAcquireWaitsPercentage float64
ReadAcquireTimeMicros int64
WriteAcquireTimeMicros int64
}
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// LockStatus stores a database's lock statistics.
type LockStatus struct {
DBName string
Percentage float64
Global bool
}
// StatLine is a wrapper for all metrics reported by mongostat for monitored hosts.
type StatLine struct {
Key string
// What storage engine is being used for the node with this stat line
StorageEngine string
Error error
IsMongos bool
Host string
// The time at which this StatLine was generated.
Time time.Time
// The last time at which this StatLine was printed to output.
LastPrinted time.Time
// Opcounter fields
Insert, Query, Update, Delete, GetMore, Command int64
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// TTL fields
Passes, DeletedDocuments int64
// Collection locks (3.0 mmap only)
CollectionLocks *CollectionLockStatus
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// Cache utilization (wiredtiger only)
CacheDirtyPercent float64
CacheUsedPercent float64
// Replicated Opcounter fields
InsertR, QueryR, UpdateR, DeleteR, GetMoreR, CommandR int64
ReplLag int64
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Flushes int64
Mapped, Virtual, Resident, NonMapped int64
Faults int64
HighestLocked *LockStatus
QueuedReaders, QueuedWriters int64
ActiveReaders, ActiveWriters int64
NetIn, NetOut int64
NumConnections int64
ReplSetName string
NodeType string
// Cluster fields
JumboChunksCount int64
// DB stats field
DbStatsLines []DbStatLine
}
type DbStatLine struct {
Name string
Collections int64
Objects int64
AvgObjSize float64
DataSize int64
StorageSize int64
NumExtents int64
Indexes int64
IndexSize int64
Ok int64
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}
func parseLocks(stat ServerStatus) map[string]LockUsage {
returnVal := map[string]LockUsage{}
for namespace, lockInfo := range stat.Locks {
returnVal[namespace] = LockUsage{
namespace,
lockInfo.TimeLockedMicros.Read + lockInfo.TimeLockedMicros.ReadLower,
lockInfo.TimeLockedMicros.Write + lockInfo.TimeLockedMicros.WriteLower,
}
}
return returnVal
}
func computeLockDiffs(prevLocks, curLocks map[string]LockUsage) []LockUsage {
lockUsages := lockUsages(make([]LockUsage, 0, len(curLocks)))
for namespace, curUsage := range curLocks {
prevUsage, hasKey := prevLocks[namespace]
if !hasKey {
// This namespace didn't appear in the previous batch of lock info,
// so we can't compute a diff for it - skip it.
continue
}
// Calculate diff of lock usage for this namespace and add to the list
lockUsages = append(lockUsages,
LockUsage{
namespace,
curUsage.Reads - prevUsage.Reads,
curUsage.Writes - prevUsage.Writes,
})
}
// Sort the array in order of least to most locked
sort.Sort(lockUsages)
return lockUsages
}
func diff(newVal, oldVal, sampleTime int64) int64 {
d := newVal - oldVal
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if d < 0 {
d = newVal
}
return d / sampleTime
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}
// NewStatLine constructs a StatLine object from two MongoStatus objects.
func NewStatLine(oldMongo, newMongo MongoStatus, key string, all bool, sampleSecs int64) *StatLine {
oldStat := *oldMongo.ServerStatus
newStat := *newMongo.ServerStatus
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returnVal := &StatLine{
Key: key,
Host: newStat.Host,
Mapped: -1,
Virtual: -1,
Resident: -1,
NonMapped: -1,
Faults: -1,
}
// set the storage engine appropriately
if newStat.StorageEngine != nil && newStat.StorageEngine["name"] != "" {
returnVal.StorageEngine = newStat.StorageEngine["name"]
} else {
returnVal.StorageEngine = "mmapv1"
}
if newStat.Opcounters != nil && oldStat.Opcounters != nil {
returnVal.Insert = diff(newStat.Opcounters.Insert, oldStat.Opcounters.Insert, sampleSecs)
returnVal.Query = diff(newStat.Opcounters.Query, oldStat.Opcounters.Query, sampleSecs)
returnVal.Update = diff(newStat.Opcounters.Update, oldStat.Opcounters.Update, sampleSecs)
returnVal.Delete = diff(newStat.Opcounters.Delete, oldStat.Opcounters.Delete, sampleSecs)
returnVal.GetMore = diff(newStat.Opcounters.GetMore, oldStat.Opcounters.GetMore, sampleSecs)
returnVal.Command = diff(newStat.Opcounters.Command, oldStat.Opcounters.Command, sampleSecs)
}
if newStat.Metrics != nil && newStat.Metrics.TTL != nil && oldStat.Metrics.TTL != nil {
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returnVal.Passes = diff(newStat.Metrics.TTL.Passes, oldStat.Metrics.TTL.Passes, sampleSecs)
returnVal.DeletedDocuments = diff(newStat.Metrics.TTL.DeletedDocuments, oldStat.Metrics.TTL.DeletedDocuments, sampleSecs)
}
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if newStat.OpcountersRepl != nil && oldStat.OpcountersRepl != nil {
returnVal.InsertR = diff(newStat.OpcountersRepl.Insert, oldStat.OpcountersRepl.Insert, sampleSecs)
returnVal.QueryR = diff(newStat.OpcountersRepl.Query, oldStat.OpcountersRepl.Query, sampleSecs)
returnVal.UpdateR = diff(newStat.OpcountersRepl.Update, oldStat.OpcountersRepl.Update, sampleSecs)
returnVal.DeleteR = diff(newStat.OpcountersRepl.Delete, oldStat.OpcountersRepl.Delete, sampleSecs)
returnVal.GetMoreR = diff(newStat.OpcountersRepl.GetMore, oldStat.OpcountersRepl.GetMore, sampleSecs)
returnVal.CommandR = diff(newStat.OpcountersRepl.Command, oldStat.OpcountersRepl.Command, sampleSecs)
}
returnVal.CacheDirtyPercent = -1
returnVal.CacheUsedPercent = -1
if newStat.WiredTiger != nil && oldStat.WiredTiger != nil {
returnVal.Flushes = newStat.WiredTiger.Transaction.TransCheckpoints - oldStat.WiredTiger.Transaction.TransCheckpoints
returnVal.CacheDirtyPercent = float64(newStat.WiredTiger.Cache.TrackedDirtyBytes) / float64(newStat.WiredTiger.Cache.MaxBytesConfigured)
returnVal.CacheUsedPercent = float64(newStat.WiredTiger.Cache.CurrentCachedBytes) / float64(newStat.WiredTiger.Cache.MaxBytesConfigured)
} else if newStat.BackgroundFlushing != nil && oldStat.BackgroundFlushing != nil {
returnVal.Flushes = newStat.BackgroundFlushing.Flushes - oldStat.BackgroundFlushing.Flushes
}
returnVal.Time = newMongo.SampleTime
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returnVal.IsMongos =
(newStat.ShardCursorType != nil || strings.HasPrefix(newStat.Process, MongosProcess))
// BEGIN code modification
if oldStat.Mem.Supported.(bool) {
// END code modification
if !returnVal.IsMongos {
returnVal.Mapped = newStat.Mem.Mapped
}
returnVal.Virtual = newStat.Mem.Virtual
returnVal.Resident = newStat.Mem.Resident
if !returnVal.IsMongos && all {
returnVal.NonMapped = newStat.Mem.Virtual - newStat.Mem.Mapped
}
}
if newStat.Repl != nil {
setName, isReplSet := newStat.Repl.SetName.(string)
if isReplSet {
returnVal.ReplSetName = setName
}
// BEGIN code modification
if newStat.Repl.IsMaster.(bool) {
returnVal.NodeType = "PRI"
} else if newStat.Repl.Secondary.(bool) {
returnVal.NodeType = "SEC"
} else {
returnVal.NodeType = "UNK"
}
// END code modification
} else if returnVal.IsMongos {
returnVal.NodeType = "RTR"
}
if oldStat.ExtraInfo != nil && newStat.ExtraInfo != nil &&
oldStat.ExtraInfo.PageFaults != nil && newStat.ExtraInfo.PageFaults != nil {
returnVal.Faults = diff(*(newStat.ExtraInfo.PageFaults), *(oldStat.ExtraInfo.PageFaults), sampleSecs)
}
if !returnVal.IsMongos && oldStat.Locks != nil {
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globalCheck, hasGlobal := oldStat.Locks["Global"]
if hasGlobal && globalCheck.AcquireCount != nil {
// This appears to be a 3.0+ server so the data in these fields do *not* refer to
// actual namespaces and thus we can't compute lock %.
returnVal.HighestLocked = nil
// Check if it's a 3.0+ MMAP server so we can still compute collection locks
collectionCheck, hasCollection := oldStat.Locks["Collection"]
if hasCollection && collectionCheck.AcquireWaitCount != nil {
readWaitCountDiff := newStat.Locks["Collection"].AcquireWaitCount.Read - oldStat.Locks["Collection"].AcquireWaitCount.Read
readTotalCountDiff := newStat.Locks["Collection"].AcquireCount.Read - oldStat.Locks["Collection"].AcquireCount.Read
writeWaitCountDiff := newStat.Locks["Collection"].AcquireWaitCount.Write - oldStat.Locks["Collection"].AcquireWaitCount.Write
writeTotalCountDiff := newStat.Locks["Collection"].AcquireCount.Write - oldStat.Locks["Collection"].AcquireCount.Write
readAcquireTimeDiff := newStat.Locks["Collection"].TimeAcquiringMicros.Read - oldStat.Locks["Collection"].TimeAcquiringMicros.Read
writeAcquireTimeDiff := newStat.Locks["Collection"].TimeAcquiringMicros.Write - oldStat.Locks["Collection"].TimeAcquiringMicros.Write
returnVal.CollectionLocks = &CollectionLockStatus{
ReadAcquireWaitsPercentage: percentageInt64(readWaitCountDiff, readTotalCountDiff),
WriteAcquireWaitsPercentage: percentageInt64(writeWaitCountDiff, writeTotalCountDiff),
ReadAcquireTimeMicros: averageInt64(readAcquireTimeDiff, readWaitCountDiff),
WriteAcquireTimeMicros: averageInt64(writeAcquireTimeDiff, writeWaitCountDiff),
}
}
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} else {
prevLocks := parseLocks(oldStat)
curLocks := parseLocks(newStat)
lockdiffs := computeLockDiffs(prevLocks, curLocks)
if len(lockdiffs) == 0 {
if newStat.GlobalLock != nil {
returnVal.HighestLocked = &LockStatus{
DBName: "",
Percentage: percentageInt64(newStat.GlobalLock.LockTime, newStat.GlobalLock.TotalTime),
Global: true,
}
}
} else {
// Get the entry with the highest lock
highestLocked := lockdiffs[len(lockdiffs)-1]
var timeDiffMillis int64
timeDiffMillis = newStat.UptimeMillis - oldStat.UptimeMillis
lockToReport := highestLocked.Writes
// if the highest locked namespace is not '.'
if highestLocked.Namespace != "." {
for _, namespaceLockInfo := range lockdiffs {
if namespaceLockInfo.Namespace == "." {
lockToReport += namespaceLockInfo.Writes
}
}
}
// lock data is in microseconds and uptime is in milliseconds - so
// divide by 1000 so that they units match
lockToReport /= 1000
returnVal.HighestLocked = &LockStatus{
DBName: highestLocked.Namespace,
Percentage: percentageInt64(lockToReport, timeDiffMillis),
Global: false,
}
}
}
} else {
returnVal.HighestLocked = nil
}
if newStat.GlobalLock != nil {
hasWT := (newStat.WiredTiger != nil && oldStat.WiredTiger != nil)
//If we have wiredtiger stats, use those instead
if newStat.GlobalLock.CurrentQueue != nil {
if hasWT {
returnVal.QueuedReaders = newStat.GlobalLock.CurrentQueue.Readers + newStat.GlobalLock.ActiveClients.Readers - newStat.WiredTiger.Concurrent.Read.Out
returnVal.QueuedWriters = newStat.GlobalLock.CurrentQueue.Writers + newStat.GlobalLock.ActiveClients.Writers - newStat.WiredTiger.Concurrent.Write.Out
if returnVal.QueuedReaders < 0 {
returnVal.QueuedReaders = 0
}
if returnVal.QueuedWriters < 0 {
returnVal.QueuedWriters = 0
}
} else {
returnVal.QueuedReaders = newStat.GlobalLock.CurrentQueue.Readers
returnVal.QueuedWriters = newStat.GlobalLock.CurrentQueue.Writers
}
}
if hasWT {
returnVal.ActiveReaders = newStat.WiredTiger.Concurrent.Read.Out
returnVal.ActiveWriters = newStat.WiredTiger.Concurrent.Write.Out
} else if newStat.GlobalLock.ActiveClients != nil {
returnVal.ActiveReaders = newStat.GlobalLock.ActiveClients.Readers
returnVal.ActiveWriters = newStat.GlobalLock.ActiveClients.Writers
}
}
if oldStat.Network != nil && newStat.Network != nil {
returnVal.NetIn = diff(newStat.Network.BytesIn, oldStat.Network.BytesIn, sampleSecs)
returnVal.NetOut = diff(newStat.Network.BytesOut, oldStat.Network.BytesOut, sampleSecs)
}
if newStat.Connections != nil {
returnVal.NumConnections = newStat.Connections.Current
}
newReplStat := *newMongo.ReplSetStatus
if newReplStat.Members != nil {
myName := newStat.Repl.Me
// Find the master and myself
master := ReplSetMember{}
me := ReplSetMember{}
for _, member := range newReplStat.Members {
if member.Name == myName {
if member.State == 1 {
// I'm the master
returnVal.ReplLag = 0
break
} else {
// I'm secondary
me = member
}
} else if member.State == 1 {
// Master found
master = member
}
}
if me.OptimeDate != nil && master.OptimeDate != nil && me.State == 2 {
// MongoTimestamp type is int64 where the first 32bits are the unix timestamp
lag := int64(*master.OptimeDate>>32 - *me.OptimeDate>>32)
if lag < 0 {
returnVal.ReplLag = 0
} else {
returnVal.ReplLag = lag
}
}
}
newClusterStat := *newMongo.ClusterStatus
returnVal.JumboChunksCount = newClusterStat.JumboChunksCount
newDbStats := *newMongo.DbStats
for _, db := range newDbStats.Dbs {
dbStatsData := db.DbStatsData
// mongos doesn't have the db key, so setting the db name
if dbStatsData.Db == "" {
dbStatsData.Db = db.Name
}
dbStatLine := &DbStatLine{
Name: dbStatsData.Db,
Collections: dbStatsData.Collections,
Objects: dbStatsData.Objects,
AvgObjSize: dbStatsData.AvgObjSize,
DataSize: dbStatsData.DataSize,
StorageSize: dbStatsData.StorageSize,
NumExtents: dbStatsData.NumExtents,
Indexes: dbStatsData.Indexes,
IndexSize: dbStatsData.IndexSize,
Ok: dbStatsData.Ok,
}
returnVal.DbStatsLines = append(returnVal.DbStatsLines, *dbStatLine)
}
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return returnVal
}