listObjects: Simplify channel based changes.

master
Harshavardhana 9 years ago
parent 682020ef2f
commit f5d6be158e
  1. 18
      pkg/fs/definitions.go
  2. 183
      pkg/fs/fs-bucket-listobjects.go
  3. 5
      pkg/fs/fs.go

@ -126,24 +126,6 @@ type ListObjectsResult struct {
Prefixes []string
}
type listObjectsReq struct {
Bucket string
Prefix string
Marker string
Delimiter string
MaxKeys int
}
type listServiceReq struct {
req listObjectsReq
respCh chan ListObjectsResult
}
type listWorkerReq struct {
req listObjectsReq
respCh chan ListObjectsResult
}
// CompletePart - completed part container
type CompletePart struct {
PartNumber int

@ -18,6 +18,7 @@ package fs
import (
"errors"
"hash/fnv"
"os"
"path/filepath"
"strings"
@ -26,38 +27,59 @@ import (
"github.com/minio/minio-xl/pkg/probe"
)
func (fs Filesystem) listWorker(startReq listObjectsReq) (chan<- listWorkerReq, *probe.Error) {
bucket := startReq.Bucket
prefix := startReq.Prefix
marker := startReq.Marker
delimiter := startReq.Delimiter
type listObjectsParams struct {
Bucket string
Prefix string
Marker string
Delimiter string
MaxKeys int
}
type listServiceReq struct {
reqParams listObjectsParams
respCh chan ListObjectsResult
}
type listWorkerReq struct {
respCh chan ListObjectsResult
}
// listObjects - list objects lists objects upto maxKeys for a given
// prefix.
func (fs Filesystem) listObjects(bucket, prefix, marker, delimiter string, maxKeys int) (chan<- listWorkerReq, *probe.Error) {
quitWalker := make(chan bool)
reqCh := make(chan listWorkerReq)
walkerCh := make(chan ObjectMetadata)
go func() {
var rootPath string
defer close(walkerCh)
var walkPath string
bucketPath := filepath.Join(fs.path, bucket)
trimBucketPathPrefix := bucketPath + string(os.PathSeparator)
prefixPath := trimBucketPathPrefix + prefix
// Bucket path prefix should always end with a separator.
bucketPathPrefix := bucketPath + string(os.PathSeparator)
prefixPath := bucketPathPrefix + prefix
st, err := os.Stat(prefixPath)
if err != nil && os.IsNotExist(err) {
rootPath = bucketPath
walkPath = bucketPath
} else {
if st.IsDir() && !strings.HasSuffix(prefix, delimiter) {
rootPath = bucketPath
walkPath = bucketPath
} else {
rootPath = prefixPath
walkPath = prefixPath
}
}
filepath.Walk(rootPath, func(path string, info os.FileInfo, err error) error {
if path == rootPath {
filepath.Walk(walkPath, func(path string, info os.FileInfo, err error) error {
// We don't need to list the walk path.
if path == walkPath {
return nil
}
// For all incoming directories add a ending separator.
if info.IsDir() {
path = path + string(os.PathSeparator)
}
objectName := strings.TrimPrefix(path, trimBucketPathPrefix)
// Extract object name.
objectName := strings.TrimPrefix(path, bucketPathPrefix)
if strings.HasPrefix(objectName, prefix) {
// For objectName lesser than marker, ignore.
if marker >= objectName {
return nil
}
@ -68,52 +90,56 @@ func (fs Filesystem) listWorker(startReq listObjectsReq) (chan<- listWorkerReq,
Size: info.Size(),
}
select {
// Send object on walker channel.
case walkerCh <- object:
// Do nothing
case <-quitWalker:
// Returning error ends the Walk()
return errors.New("Ending")
// Returning error ends the file tree Walk().
return errors.New("Quit list worker.")
}
// If delimiter is set, we stop if current path is a
// directory.
if delimiter != "" && info.IsDir() {
return filepath.SkipDir
}
}
return nil
})
close(walkerCh)
}()
go func() {
resp := ListObjectsResult{}
for {
select {
// Timeout after 10 seconds if request did not arrive for
// the given list parameters.
case <-time.After(10 * time.Second):
quitWalker <- true
timeoutReq := listObjectsReq{bucket, prefix, marker, delimiter, 0}
fs.timeoutReqCh <- timeoutReq
// FIXME: can there be a race such that sender on reqCh panics?
quitWalker <- true // Quit file path walk if running.
// Send back the hash for this request.
fs.timeoutReqCh <- fnvSum(bucket, prefix, marker, delimiter)
return
case req, ok := <-reqCh:
if !ok {
// If the request channel is closed, no more
// requests return here.
return
}
resp = ListObjectsResult{}
resp.Objects = make([]ObjectMetadata, 0)
resp.Prefixes = make([]string, 0)
count := 0
resp := ListObjectsResult{}
var count int
for object := range walkerCh {
if count == req.req.MaxKeys {
if count == maxKeys {
resp.IsTruncated = true
break
}
// If object is a directory.
if object.Mode.IsDir() {
if delimiter == "" {
// Skip directories for recursive list
// Skip directories for recursive listing.
continue
}
resp.Prefixes = append(resp.Prefixes, object.Object)
} else {
resp.Objects = append(resp.Objects, object)
}
// Set the next marker for the next request.
resp.NextMarker = object.Object
count++
}
@ -124,59 +150,88 @@ func (fs Filesystem) listWorker(startReq listObjectsReq) (chan<- listWorkerReq,
return reqCh, nil
}
func (fs *Filesystem) startListService() *probe.Error {
listServiceReqCh := make(chan listServiceReq)
timeoutReqCh := make(chan listObjectsReq)
reqToListWorkerReqCh := make(map[string](chan<- listWorkerReq))
reqToStr := func(bucket string, prefix string, marker string, delimiter string) string {
return strings.Join([]string{bucket, prefix, marker, delimiter}, ":")
// fnvSum calculates a hash for concatenation of all input strings.
func fnvSum(elements ...string) uint32 {
fnvHash := fnv.New32a()
for _, element := range elements {
fnvHash.Write([]byte(element))
}
return fnvHash.Sum32()
}
// listObjectsService - list objects service manages various incoming
// list object requests by delegating them to an existing listObjects
// routine or initializes a new listObjects routine.
func (fs *Filesystem) listObjectsService() *probe.Error {
// Initialize list service request channel.
listServiceReqCh := make(chan listServiceReq)
fs.listServiceReqCh = listServiceReqCh
// Initialize timeout request channel to receive request hashes of
// timed-out requests.
timeoutReqCh := make(chan uint32)
fs.timeoutReqCh = timeoutReqCh
// Initialize request hash to list worker map.
reqToListWorkerReqCh := make(map[uint32]chan<- listWorkerReq)
// Start service in a go routine.
go func() {
for {
select {
case timeoutReq := <-timeoutReqCh:
reqStr := reqToStr(timeoutReq.Bucket, timeoutReq.Prefix, timeoutReq.Marker, timeoutReq.Delimiter)
listWorkerReqCh, ok := reqToListWorkerReqCh[reqStr]
case reqHash := <-timeoutReqCh:
// For requests which have timed-out, close the worker
// channels proactively, this may happen for idle
// workers once in 10seconds.
listWorkerReqCh, ok := reqToListWorkerReqCh[reqHash]
if ok {
close(listWorkerReqCh)
}
delete(reqToListWorkerReqCh, reqStr)
case serviceReq := <-listServiceReqCh:
reqStr := reqToStr(serviceReq.req.Bucket, serviceReq.req.Prefix, serviceReq.req.Marker, serviceReq.req.Delimiter)
listWorkerReqCh, ok := reqToListWorkerReqCh[reqStr]
delete(reqToListWorkerReqCh, reqHash)
case srvReq := <-listServiceReqCh:
// Save the params for readability.
bucket := srvReq.reqParams.Bucket
prefix := srvReq.reqParams.Prefix
marker := srvReq.reqParams.Marker
delimiter := srvReq.reqParams.Delimiter
maxKeys := srvReq.reqParams.MaxKeys
// Generate hash.
reqHash := fnvSum(bucket, prefix, marker, delimiter)
listWorkerReqCh, ok := reqToListWorkerReqCh[reqHash]
if !ok {
var err *probe.Error
listWorkerReqCh, err = fs.listWorker(serviceReq.req)
listWorkerReqCh, err = fs.listObjects(bucket, prefix, marker, delimiter, maxKeys)
if err != nil {
serviceReq.respCh <- ListObjectsResult{}
srvReq.respCh <- ListObjectsResult{}
return
}
reqToListWorkerReqCh[reqStr] = listWorkerReqCh
reqToListWorkerReqCh[reqHash] = listWorkerReqCh
}
respCh := make(chan ListObjectsResult)
listWorkerReqCh <- listWorkerReq{serviceReq.req, respCh}
listWorkerReqCh <- listWorkerReq{respCh}
resp, ok := <-respCh
if !ok {
serviceReq.respCh <- ListObjectsResult{}
srvReq.respCh <- ListObjectsResult{}
return
}
delete(reqToListWorkerReqCh, reqStr)
delete(reqToListWorkerReqCh, reqHash)
if !resp.IsTruncated {
close(listWorkerReqCh)
} else {
reqStr = reqToStr(serviceReq.req.Bucket, serviceReq.req.Prefix, resp.NextMarker, serviceReq.req.Delimiter)
reqToListWorkerReqCh[reqStr] = listWorkerReqCh
nextMarker := resp.NextMarker
reqHash = fnvSum(bucket, prefix, nextMarker, delimiter)
reqToListWorkerReqCh[reqHash] = listWorkerReqCh
}
serviceReq.respCh <- resp
srvReq.respCh <- resp
}
}
}()
fs.timeoutReqCh = timeoutReqCh
fs.listServiceReqCh = listServiceReqCh
return nil
}
// ListObjects -
// ListObjects - lists all objects for a given prefix, returns upto
// maxKeys number of objects per call.
func (fs Filesystem) ListObjects(bucket, prefix, marker, delimiter string, maxKeys int) (ListObjectsResult, *probe.Error) {
fs.lock.Lock()
defer fs.lock.Unlock()
@ -195,24 +250,24 @@ func (fs Filesystem) ListObjects(bucket, prefix, marker, delimiter string, maxKe
return ListObjectsResult{}, probe.NewError(e)
}
req := listObjectsReq{}
req.Bucket = bucket
req.Prefix = filepath.FromSlash(prefix)
req.Marker = filepath.FromSlash(marker)
req.Delimiter = filepath.FromSlash(delimiter)
req.MaxKeys = maxKeys
reqParams := listObjectsParams{}
reqParams.Bucket = bucket
reqParams.Prefix = filepath.FromSlash(prefix)
reqParams.Marker = filepath.FromSlash(marker)
reqParams.Delimiter = filepath.FromSlash(delimiter)
reqParams.MaxKeys = maxKeys
respCh := make(chan ListObjectsResult)
fs.listServiceReqCh <- listServiceReq{req, respCh}
fs.listServiceReqCh <- listServiceReq{reqParams, respCh}
resp := <-respCh
for i := 0; i < len(resp.Prefixes); i++ {
for i := range resp.Prefixes {
resp.Prefixes[i] = filepath.ToSlash(resp.Prefixes[i])
}
for i := 0; i < len(resp.Objects); i++ {
for i := range resp.Objects {
resp.Objects[i].Object = filepath.ToSlash(resp.Objects[i].Object)
}
if req.Delimiter == "" {
if reqParams.Delimiter == "" {
// This element is set only if you have delimiter set.
// If response does not include the NextMaker and it is
// truncated, you can use the value of the last Key in the

@ -34,7 +34,7 @@ type Filesystem struct {
multiparts *Multiparts
buckets *Buckets
listServiceReqCh chan<- listServiceReq
timeoutReqCh chan<- listObjectsReq
timeoutReqCh chan<- uint32
}
// Buckets holds acl information
@ -106,8 +106,7 @@ func New(rootPath string) (Filesystem, *probe.Error) {
fs.minFreeDisk = 10
// Start list goroutine.
err = fs.startListService()
if err != nil {
if err = fs.listObjectsService(); err != nil {
return Filesystem{}, err.Trace(rootPath)
}
// Return here.

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