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worker.go
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worker.go
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package core
import (
"context"
"crypto/tls"
"io"
"log"
"net/http"
"os"
"strconv"
"sync"
"sync/atomic"
"time"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/aws/endpoints"
"github.com/aws/aws-sdk-go/aws/session"
"github.com/aws/aws-sdk-go/service/s3"
"github.com/aws/aws-sdk-go/service/s3/s3manager"
"github.com/cenkalti/backoff"
"github.com/peak/s5cmd/stats"
)
// WorkerPoolParams is the common parameters of all worker pools.
type WorkerPoolParams struct {
NumWorkers int
UploadChunkSizeBytes int64
UploadConcurrency int
DownloadChunkSizeBytes int64
DownloadConcurrency int
Retries int
EndpointURL string
NoVerifySSL bool
}
// WorkerPool is the state of our worker pool.
type WorkerPool struct {
ctx context.Context
params *WorkerPoolParams
jobQueue chan *Job
subJobQueue chan *Job
wg *sync.WaitGroup
awsSession *session.Session
cancelFunc context.CancelFunc
st *stats.Stats
idlingCounter int32
}
// WorkerParams is the params/state of a single worker.
type WorkerParams struct {
s3svc *s3.S3
s3dl *s3manager.Downloader
s3ul *s3manager.Uploader
ctx context.Context
poolParams *WorkerPoolParams
st *stats.Stats
subJobQueue *chan *Job
idlingCounter *int32
}
// NewAwsSession initializes a new AWS session with region fallback and custom options
func NewAwsSession(maxRetries int, endpointURL string, region string, noVerifySSL bool) (*session.Session, error) {
newSession := func(c *aws.Config) (*session.Session, error) {
useSharedConfig := session.SharedConfigEnable
// Reverse of what the SDK does: if AWS_SDK_LOAD_CONFIG is 0 (or a falsy value) disable shared configs
loadCfg := os.Getenv("AWS_SDK_LOAD_CONFIG")
if loadCfg != "" {
if enable, _ := strconv.ParseBool(loadCfg); !enable {
useSharedConfig = session.SharedConfigDisable
}
}
return session.NewSessionWithOptions(session.Options{Config: *c, SharedConfigState: useSharedConfig})
}
awsCfg := aws.NewConfig().WithMaxRetries(maxRetries) //.WithLogLevel(aws.LogDebug))
if endpointURL != "" {
awsCfg = awsCfg.WithEndpoint(endpointURL).WithS3ForcePathStyle(true)
verboseLog("Setting Endpoint to %s on AWS Config", endpointURL)
}
if noVerifySSL {
awsCfg = awsCfg.WithHTTPClient(&http.Client{Transport: &http.Transport{
TLSClientConfig: &tls.Config{InsecureSkipVerify: true},
}})
}
if region != "" {
awsCfg = awsCfg.WithRegion(region)
return newSession(awsCfg)
}
ses, err := newSession(awsCfg)
if err != nil {
return nil, err
}
if (*ses).Config.Region == nil || *(*ses).Config.Region == "" { // No region specified in env or config, fallback to us-east-1
awsCfg = awsCfg.WithRegion(endpoints.UsEast1RegionID)
ses, err = newSession(awsCfg)
}
return ses, err
}
// NewWorkerPool creates a new worker pool and start the workers.
func NewWorkerPool(ctx context.Context, params *WorkerPoolParams, st *stats.Stats) *WorkerPool {
ses, err := NewAwsSession(params.Retries, params.EndpointURL, "", params.NoVerifySSL)
if err != nil {
log.Fatal(err)
}
cancelFunc := ctx.Value(CancelFuncKey).(context.CancelFunc)
p := &WorkerPool{
ctx: ctx,
params: params,
jobQueue: make(chan *Job),
subJobQueue: make(chan *Job),
wg: &sync.WaitGroup{},
awsSession: ses,
cancelFunc: cancelFunc,
st: st,
}
for i := 0; i < params.NumWorkers; i++ {
p.wg.Add(1)
go p.runWorker(st, &p.idlingCounter, i)
}
return p
}
// runWorker is the main function of a single worker.
func (p *WorkerPool) runWorker(st *stats.Stats, idlingCounter *int32, id int) {
defer p.wg.Done()
defer verboseLog("Exiting goroutine %d", id)
wp := WorkerParams{
s3.New(p.awsSession),
// Give each worker its own s3manager
s3manager.NewDownloader(p.awsSession),
s3manager.NewUploader(p.awsSession),
p.ctx,
p.params,
st,
&p.subJobQueue,
idlingCounter,
}
bkf := backoff.NewExponentialBackOff()
bkf.InitialInterval = time.Second
bkf.MaxInterval = time.Minute
bkf.Multiplier = 2
bkf.MaxElapsedTime = 0
bkf.Reset()
run := true
lastSetIdle := false
setIdle := func() {
if !lastSetIdle {
atomic.AddInt32(idlingCounter, 1)
lastSetIdle = true
}
}
setWorking := func() {
if lastSetIdle {
atomic.AddInt32(idlingCounter, ^int32(0))
lastSetIdle = false
}
}
defer setIdle()
for run {
select {
case <-time.After(100 * time.Millisecond):
setIdle()
case job, ok := <-p.jobQueue:
if !ok {
verboseLog("Channel closed %d", id)
return
}
setWorking()
tries := 0
for job != nil {
err := job.Run(&wp)
var acceptableErr AcceptableError
if err != nil {
acceptableErr = IsAcceptableError(err)
if acceptableErr != nil {
err = nil
}
}
if err != nil {
errCode, doRetry := IsRetryableError(err)
if doRetry && p.params.Retries > 0 && tries < p.params.Retries {
tries++
sleepTime := bkf.NextBackOff()
log.Printf(`?%s "%s", sleep for %v`, errCode, job, sleepTime)
select {
case <-time.After(sleepTime):
wp.st.Increment(stats.RetryOp)
continue
case <-p.ctx.Done():
run = false // if Canceled during sleep, report ERR and immediately process failCommand
}
}
job.PrintErr(err)
wp.st.Increment(stats.Fail)
job.Notify(false)
job = job.failCommand
} else {
if acceptableErr != ErrDisplayedHelp {
job.PrintOK(acceptableErr)
}
job.Notify(true)
job = job.successCommand
}
tries = 0
bkf.Reset()
}
case <-p.ctx.Done():
return
}
}
}
func (p *WorkerPool) parseJob(line string) *Job {
job, err := ParseJob(line)
if err != nil {
log.Print(`-ERR "`, line, `": `, err)
p.st.Increment(stats.Fail)
return nil
}
return job
}
func (p *WorkerPool) queueJob(job *Job) bool {
select {
case <-p.ctx.Done():
return false
case p.jobQueue <- job:
return true
}
}
func (p *WorkerPool) pumpJobQueues() {
verboseLog("Start pumping...")
var idc int32
for {
select {
case <-time.After(500 * time.Millisecond):
idc = atomic.LoadInt32(&p.idlingCounter)
verboseLog("idlingCounter is %d, expected to be %d", idc, p.params.NumWorkers)
if idc == int32(p.params.NumWorkers) {
log.Print("# All workers idle, finishing up...")
return
}
case <-p.ctx.Done():
return
case j, ok := <-p.subJobQueue:
if ok {
select {
case p.jobQueue <- j:
case <-p.ctx.Done():
return
}
}
}
}
}
// RunCmd will run a single command (and subsequent sub-commands) in the worker pool, wait for it to finish, clean up and return.
func (p *WorkerPool) RunCmd(commandLine string) {
j := p.parseJob(commandLine)
if j != nil {
p.queueJob(j)
if j.operation.IsBatch() {
p.pumpJobQueues()
}
}
close(p.jobQueue)
p.wg.Wait()
}
// Run runs the commands in filename in the worker pool, on EOF it will wait for all commands to finish, clean up and return.
func (p *WorkerPool) Run(filename string) {
var r io.ReadCloser
var err error
if filename == "-" {
r = os.Stdin
} else {
r, err = os.Open(filename)
if err != nil {
log.Fatal(err)
}
defer r.Close()
}
s := NewCancelableScanner(p.ctx, r).Start()
var j *Job
isAnyBatch := false
for {
line, err := s.ReadOne(p.subJobQueue, p.jobQueue)
if err != nil {
if err == context.Canceled || err == io.EOF {
break
}
log.Printf("-ERR Error reading: %v", err)
break
}
j = p.parseJob(line)
if j != nil {
isAnyBatch = isAnyBatch || j.operation.IsBatch()
p.queueJob(j)
}
}
if isAnyBatch {
p.pumpJobQueues()
}
close(p.jobQueue)
//log.Print("# Waiting...")
p.wg.Wait()
}