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package main
import (
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"bufio"
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"context"
"encoding/json"
"fmt"
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"io"
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"io/ioutil"
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"math"
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"net/http"
_ "net/http/pprof"
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"os"
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"runtime"
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"runtime/pprof"
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"sort"
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"time"
"github.com/filecoin-project/lotus/api"
"github.com/filecoin-project/lotus/chain/stmgr"
"github.com/filecoin-project/lotus/chain/store"
"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/chain/vm"
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_ "github.com/filecoin-project/lotus/lib/sigs/bls"
_ "github.com/filecoin-project/lotus/lib/sigs/secp"
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"github.com/filecoin-project/sector-storage/ffiwrapper"
"github.com/filecoin-project/specs-actors/actors/abi"
"golang.org/x/xerrors"
"github.com/ipfs/go-datastore"
badger "github.com/ipfs/go-ds-badger2"
blockstore "github.com/ipfs/go-ipfs-blockstore"
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"github.com/urfave/cli/v2"
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)
type TipSetExec struct {
TipSet types . TipSetKey
Trace [ ] * api . InvocResult
Duration time . Duration
}
var importBenchCmd = & cli . Command {
Name : "import" ,
Usage : "benchmark chain import and validation" ,
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Subcommands : [ ] * cli . Command {
importAnalyzeCmd ,
} ,
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Flags : [ ] cli . Flag {
& cli . Int64Flag {
Name : "height" ,
Usage : "halt validation after given height" ,
} ,
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& cli . IntFlag {
Name : "batch-seal-verify-threads" ,
Usage : "set the parallelism factor for batch seal verification" ,
Value : runtime . NumCPU ( ) ,
} ,
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} ,
Action : func ( cctx * cli . Context ) error {
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vm . BatchSealVerifyParallelism = cctx . Int ( "batch-seal-verify-threads" )
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if ! cctx . Args ( ) . Present ( ) {
fmt . Println ( "must pass car file of chain to benchmark importing" )
return nil
}
cfi , err := os . Open ( cctx . Args ( ) . First ( ) )
if err != nil {
return err
}
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defer cfi . Close ( ) //nolint:errcheck // read only file
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tdir , err := ioutil . TempDir ( "" , "lotus-import-bench" )
if err != nil {
return err
}
bds , err := badger . NewDatastore ( tdir , nil )
if err != nil {
return err
}
bs := blockstore . NewBlockstore ( bds )
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cbs , err := blockstore . CachedBlockstore ( context . TODO ( ) , bs , blockstore . DefaultCacheOpts ( ) )
if err != nil {
return err
}
bs = cbs
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ds := datastore . NewMapDatastore ( )
cs := store . NewChainStore ( bs , ds , vm . Syscalls ( ffiwrapper . ProofVerifier ) )
stm := stmgr . NewStateManager ( cs )
prof , err := os . Create ( "import-bench.prof" )
if err != nil {
return err
}
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defer prof . Close ( ) //nolint:errcheck
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if err := pprof . StartCPUProfile ( prof ) ; err != nil {
return err
}
head , err := cs . Import ( cfi )
if err != nil {
return err
}
if h := cctx . Int64 ( "height" ) ; h != 0 {
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tsh , err := cs . GetTipsetByHeight ( context . TODO ( ) , abi . ChainEpoch ( h ) , head , true )
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if err != nil {
return err
}
head = tsh
}
ts := head
tschain := [ ] * types . TipSet { ts }
for ts . Height ( ) != 0 {
next , err := cs . LoadTipSet ( ts . Parents ( ) )
if err != nil {
return err
}
tschain = append ( tschain , next )
ts = next
}
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ibj , err := os . Create ( "import-bench.json" )
if err != nil {
return err
}
defer ibj . Close ( ) //nolint:errcheck
enc := json . NewEncoder ( ibj )
var lastTse * TipSetExec
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lastState := tschain [ len ( tschain ) - 1 ] . ParentState ( )
for i := len ( tschain ) - 2 ; i >= 0 ; i -- {
cur := tschain [ i ]
log . Infof ( "computing state (height: %d, ts=%s)" , cur . Height ( ) , cur . Cids ( ) )
if cur . ParentState ( ) != lastState {
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lastTrace := lastTse . Trace
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d , err := json . MarshalIndent ( lastTrace , "" , " " )
if err != nil {
panic ( err )
}
fmt . Println ( "TRACE" )
fmt . Println ( string ( d ) )
return xerrors . Errorf ( "tipset chain had state mismatch at height %d (%s != %s)" , cur . Height ( ) , cur . ParentState ( ) , lastState )
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}
start := time . Now ( )
st , trace , err := stm . ExecutionTrace ( context . TODO ( ) , cur )
if err != nil {
return err
}
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stripCallers ( trace )
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lastTse = & TipSetExec {
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TipSet : cur . Key ( ) ,
Trace : trace ,
Duration : time . Since ( start ) ,
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}
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lastState = st
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if err := enc . Encode ( lastTse ) ; err != nil {
return xerrors . Errorf ( "failed to write out tipsetexec: %w" , err )
}
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}
pprof . StopCPUProfile ( )
return nil
} ,
}
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func walkExecutionTrace ( et * types . ExecutionTrace ) {
for _ , gc := range et . GasCharges {
gc . Callers = nil
}
for _ , sub := range et . Subcalls {
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walkExecutionTrace ( & sub ) //nolint:scopelint,gosec
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}
}
func stripCallers ( trace [ ] * api . InvocResult ) {
for _ , t := range trace {
walkExecutionTrace ( & t . ExecutionTrace )
}
}
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type Invocation struct {
TipSet types . TipSetKey
Invoc * api . InvocResult
}
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const GasPerNs = 10
func countGasCosts ( et * types . ExecutionTrace ) ( int64 , int64 ) {
var cgas , vgas int64
for _ , gc := range et . GasCharges {
cgas += gc . ComputeGas
vgas += gc . VirtualComputeGas
}
for _ , sub := range et . Subcalls {
c , v := countGasCosts ( & sub )
cgas += c
vgas += v
}
return cgas , vgas
}
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func compStats ( vals [ ] float64 ) ( float64 , float64 ) {
var sum float64
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for _ , v := range vals {
sum += v
}
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av := sum / float64 ( len ( vals ) )
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var varsum float64
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for _ , v := range vals {
delta := av - v
varsum += delta * delta
}
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return av , math . Sqrt ( varsum / float64 ( len ( vals ) ) )
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}
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type stats struct {
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timeTaken meanVar
gasRatio meanVar
extraCovar * covar
}
type covar struct {
meanX float64
meanY float64
c float64
n float64
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m2x float64
m2y float64
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}
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func ( cov1 * covar ) Covariance ( ) float64 {
return cov1 . c / ( cov1 . n - 1 )
}
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func ( cov1 * covar ) VarianceX ( ) float64 {
return cov1 . m2x / ( cov1 . n - 1 )
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}
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func ( v1 * covar ) StddevX ( ) float64 {
return math . Sqrt ( v1 . VarianceX ( ) )
}
func ( cov1 * covar ) VarianceY ( ) float64 {
return cov1 . m2y / ( cov1 . n - 1 )
}
func ( v1 * covar ) StddevY ( ) float64 {
return math . Sqrt ( v1 . VarianceY ( ) )
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}
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func ( cov1 * covar ) AddPoint ( x , y float64 ) {
cov1 . n += 1
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dx := x - cov1 . meanX
cov1 . meanX += dx / cov1 . n
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dx2 := x - cov1 . meanX
cov1 . m2x += dx * dx2
dy := y - cov1 . meanY
cov1 . meanY += dy / cov1 . n
dy2 := y - cov1 . meanY
cov1 . m2y += dy * dy2
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cov1 . c += dx * dy
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}
func ( cov1 * covar ) Combine ( cov2 * covar ) {
if cov1 . n == 0 {
* cov1 = * cov2
return
}
if cov2 . n == 0 {
return
}
if cov1 . n == 1 {
cpy := * cov2
cpy . AddPoint ( cov2 . meanX , cov2 . meanY )
* cov1 = cpy
return
}
if cov2 . n == 1 {
cov1 . AddPoint ( cov2 . meanX , cov2 . meanY )
}
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out := covar { }
out . n = cov1 . n + cov2 . n
dx := cov1 . meanX - cov2 . meanX
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out . meanX = cov1 . meanX - dx * cov2 . n / out . n
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out . m2x = cov1 . m2x + cov2 . m2x + dx * dx * cov1 . n * cov2 . n / out . n
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dy := cov1 . meanY - cov2 . meanY
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out . meanY = cov1 . meanY - dy * cov2 . n / out . n
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out . m2y = cov1 . m2y + cov2 . m2y + dy * dy * cov1 . n * cov2 . n / out . n
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out . c = cov1 . c + cov2 . c + dx * dy * cov1 . n * cov2 . n / out . n
* cov1 = out
}
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func ( cov1 * covar ) A ( ) float64 {
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return cov1 . Covariance ( ) / cov1 . VarianceX ( )
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}
func ( cov1 * covar ) B ( ) float64 {
return cov1 . meanY - cov1 . meanX * cov1 . A ( )
}
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func ( cov1 * covar ) Correl ( ) float64 {
return cov1 . Covariance ( ) / cov1 . StddevX ( ) / cov1 . StddevY ( )
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}
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type meanVar struct {
n float64
mean float64
m2 float64
}
func ( v1 * meanVar ) AddPoint ( value float64 ) {
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// based on https://en.wikipedia.org/wiki/Algorithms_for_calculating_variance#Welford's_online_algorithm
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v1 . n += 1
delta := value - v1 . mean
v1 . mean += delta / v1 . n
delta2 := value - v1 . mean
v1 . m2 += delta * delta2
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}
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func ( v1 * meanVar ) Variance ( ) float64 {
return v1 . m2 / ( v1 . n - 1 )
}
func ( v1 * meanVar ) Mean ( ) float64 {
return v1 . mean
}
func ( v1 * meanVar ) Stddev ( ) float64 {
return math . Sqrt ( v1 . Variance ( ) )
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}
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func ( v1 * meanVar ) Combine ( v2 * meanVar ) {
if v1 . n == 0 {
* v1 = * v2
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return
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}
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if v2 . n == 0 {
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return
}
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if v1 . n == 1 {
cpy := * v2
cpy . AddPoint ( v1 . mean )
* v1 = cpy
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return
}
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if v2 . n == 1 {
v1 . AddPoint ( v2 . mean )
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return
}
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newCount := v1 . n + v2 . n
delta := v2 . mean - v1 . mean
meanDelta := delta * v2 . n / newCount
m2 := v1 . m2 + v2 . m2 + delta * meanDelta * v1 . n
v1 . n = newCount
v1 . mean += meanDelta
v1 . m2 = m2
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}
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func getExtras ( ex interface { } ) ( * string , * float64 ) {
if t , ok := ex . ( string ) ; ok {
return & t , nil
}
if size , ok := ex . ( float64 ) ; ok {
return nil , & size
}
if exMap , ok := ex . ( map [ string ] interface { } ) ; ok {
t , tok := exMap [ "type" ] . ( string )
size , sok := exMap [ "size" ] . ( float64 )
if tok && sok {
return & t , & size
}
if tok {
return & t , nil
}
if sok {
return nil , & size
}
return nil , nil
}
return nil , nil
}
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func tallyGasCharges ( charges map [ string ] * stats , et types . ExecutionTrace ) {
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for i , gc := range et . GasCharges {
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name := gc . Name
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if name == "OnIpldGetEnd" {
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continue
}
tt := float64 ( gc . TimeTaken . Nanoseconds ( ) )
if name == "OnIpldGet" {
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next := & types . GasTrace { }
if i + 1 < len ( et . GasCharges ) {
next = et . GasCharges [ i + 1 ]
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}
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if next . Name != "OnIpldGetEnd" {
log . Warn ( "OnIpldGet without OnIpldGetEnd" )
}
tt += float64 ( next . TimeTaken . Nanoseconds ( ) )
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}
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eType , eSize := getExtras ( gc . Extra )
if eType != nil {
name += "-" + * eType
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}
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compGas := gc . VirtualComputeGas
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if compGas == 0 {
compGas = 1
}
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s := charges [ name ]
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if s == nil {
s = new ( stats )
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charges [ name ] = s
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}
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if eSize != nil {
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if s . extraCovar == nil {
s . extraCovar = & covar { }
}
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s . extraCovar . AddPoint ( * eSize , tt )
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}
s . timeTaken . AddPoint ( tt )
ratio := tt / float64 ( compGas ) * GasPerNs
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s . gasRatio . AddPoint ( ratio )
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}
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for _ , sub := range et . Subcalls {
tallyGasCharges ( charges , sub )
}
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}
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var importAnalyzeCmd = & cli . Command {
Name : "analyze" ,
Action : func ( cctx * cli . Context ) error {
if ! cctx . Args ( ) . Present ( ) {
fmt . Println ( "must pass bench file to analyze" )
return nil
}
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go func ( ) {
http . ListenAndServe ( "localhost:6060" , nil )
} ( )
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fi , err := os . Open ( cctx . Args ( ) . First ( ) )
if err != nil {
return err
}
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const nWorkers = 16
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jsonIn := make ( chan [ ] byte , 2 * nWorkers )
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type result struct {
totalTime time . Duration
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chargeStats map [ string ] * stats
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expensiveInvocs [ ] Invocation
}
results := make ( chan result , nWorkers )
for i := 0 ; i < nWorkers ; i ++ {
go func ( ) {
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chargeStats := make ( map [ string ] * stats )
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var totalTime time . Duration
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const invocsKeep = 32
var expensiveInvocs = make ( [ ] Invocation , 0 , 8 * invocsKeep )
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var leastExpensiveInvoc = time . Duration ( 0 )
for {
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b , ok := <- jsonIn
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if ! ok {
results <- result {
totalTime : totalTime ,
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chargeStats : chargeStats ,
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expensiveInvocs : expensiveInvocs ,
}
return
}
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var tse TipSetExec
err := json . Unmarshal ( b , & tse )
if err != nil {
log . Warnf ( "error unmarshaling tipset: %+v" , err )
continue
}
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totalTime += tse . Duration
for _ , inv := range tse . Trace {
if inv . Duration > leastExpensiveInvoc {
expensiveInvocs = append ( expensiveInvocs , Invocation {
TipSet : tse . TipSet ,
Invoc : inv ,
} )
}
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tallyGasCharges ( chargeStats , inv . ExecutionTrace )
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}
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if len ( expensiveInvocs ) > 4 * invocsKeep {
sort . Slice ( expensiveInvocs , func ( i , j int ) bool {
return expensiveInvocs [ i ] . Invoc . Duration > expensiveInvocs [ j ] . Invoc . Duration
} )
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leastExpensiveInvoc = expensiveInvocs [ len ( expensiveInvocs ) - 1 ] . Invoc . Duration
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n := 30
if len ( expensiveInvocs ) < n {
n = len ( expensiveInvocs )
}
expensiveInvocs = expensiveInvocs [ : n ]
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}
}
} ( )
}
var totalTipsets int64
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reader := bufio . NewReader ( fi )
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for {
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b , err := reader . ReadBytes ( '\n' )
if err != nil && err != io . EOF {
if e , ok := err . ( * json . SyntaxError ) ; ok {
log . Warnf ( "syntax error at byte offset %d" , e . Offset )
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}
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return err
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}
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totalTipsets ++
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jsonIn <- b
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fmt . Fprintf ( os . Stderr , "\rProcessed %d tipsets" , totalTipsets )
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if err == io . EOF {
break
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}
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}
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close ( jsonIn )
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fmt . Fprintf ( os . Stderr , "\n" )
fmt . Fprintf ( os . Stderr , "Collecting results\n" )
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var invocs [ ] Invocation
var totalTime time . Duration
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var keys [ ] string
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var charges = make ( map [ string ] * stats )
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for i := 0 ; i < nWorkers ; i ++ {
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fmt . Fprintf ( os . Stderr , "\rProcessing results from worker %d/%d" , i + 1 , nWorkers )
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res := <- results
invocs = append ( invocs , res . expensiveInvocs ... )
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for k , v := range res . chargeStats {
s := charges [ k ]
if s == nil {
s = new ( stats )
charges [ k ] = s
}
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s . timeTaken . Combine ( & v . timeTaken )
s . gasRatio . Combine ( & v . gasRatio )
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if v . extraCovar != nil {
if s . extraCovar == nil {
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s . extraCovar = & covar { }
}
s . extraCovar . Combine ( v . extraCovar )
}
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}
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totalTime += res . totalTime
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}
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fmt . Fprintf ( os . Stderr , "\nCollecting gas keys\n" )
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for k := range charges {
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keys = append ( keys , k )
}
fmt . Println ( "Gas Price Deltas" )
sort . Strings ( keys )
for _ , k := range keys {
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s := charges [ k ]
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fmt . Printf ( "%s: incr by %.4f~%.4f; tt %.4f~%.4f\n" , k , s . gasRatio . Mean ( ) , s . gasRatio . Stddev ( ) ,
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s . timeTaken . Mean ( ) , s . timeTaken . Stddev ( ) )
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if s . extraCovar != nil {
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fmt . Printf ( "\t correll: %.2f, tt = %.2f * extra + %.2f\n" , s . extraCovar . Correl ( ) ,
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s . extraCovar . A ( ) , s . extraCovar . B ( ) )
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fmt . Printf ( "\t covar: %.2f, extra: %.2f~%.2f, tt2: %.2f~%.2f, count %.0f\n" ,
s . extraCovar . Covariance ( ) , s . extraCovar . meanX , s . extraCovar . StddevX ( ) ,
s . extraCovar . meanY , s . extraCovar . StddevY ( ) , s . extraCovar . n )
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}
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}
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sort . Slice ( invocs , func ( i , j int ) bool {
return invocs [ i ] . Invoc . Duration > invocs [ j ] . Invoc . Duration
} )
fmt . Println ( "Total time: " , totalTime )
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fmt . Println ( "Average time per epoch: " , totalTime / time . Duration ( totalTipsets ) )
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if actorExec , ok := charges [ "OnActorExec" ] ; ok {
timeInActors := actorExec . timeTaken . Mean ( ) * actorExec . timeTaken . n
fmt . Printf ( "Avarage time per epoch in actors: %s (%.1f%%)\n" , time . Duration ( timeInActors ) / time . Duration ( totalTipsets ) , timeInActors / float64 ( totalTime ) * 100 )
}
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if actorExecDone , ok := charges [ "OnMethodInvocationDone" ] ; ok {
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timeInActors := actorExecDone . timeTaken . Mean ( ) * actorExecDone . timeTaken . n
fmt . Printf ( "Avarage time per epoch in OnActorExecDone %s (%.1f%%)\n" , time . Duration ( timeInActors ) / time . Duration ( totalTipsets ) , timeInActors / float64 ( totalTime ) * 100 )
}
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n := 30
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if len ( invocs ) < n {
n = len ( invocs )
}
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fmt . Printf ( "Top %d most expensive calls:\n" , n )
for i := 0 ; i < n ; i ++ {
inv := invocs [ i ] . Invoc
fmt . Printf ( "%s: %s %s %d %s\n" , inv . Duration , inv . Msg . From , inv . Msg . To , inv . Msg . Method , invocs [ i ] . TipSet )
}
return nil
} ,
}