flatfs.go 27.8 KB
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// Package flatfs is a Datastore implementation that stores all
// objects in a two-level directory structure in the local file
// system, regardless of the hierarchy of the keys.
package flatfs

import (
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	"encoding/json"
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	"errors"
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	"fmt"
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	"math"
	"math/rand"
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	"os"
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	"path/filepath"
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	"strings"
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	"sync"
	"sync/atomic"
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	"syscall"
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	"time"
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	"github.com/ipfs/go-datastore"
	"github.com/ipfs/go-datastore/query"
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	"github.com/jbenet/goprocess"
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	logging "github.com/ipfs/go-log"
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)

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var log = logging.Logger("flatfs")

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const (
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	extension                  = ".data"
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	diskUsageMessageTimeout    = 5 * time.Second
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	diskUsageCheckpointPercent = 1.0
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	diskUsageCheckpointTimeout = 2 * time.Second
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)

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var (
	// DiskUsageFile is the name of the file to cache the size of the
	// datastore in disk
	DiskUsageFile = "diskUsage.cache"
	// DiskUsageFilesAverage is the maximum number of files per folder
	// to stat in order to calculate the size of the datastore.
	// The size of the rest of the files in a folder will be assumed
	// to be the average of the values obtained. This includes
	// regular files and directories.
	DiskUsageFilesAverage = 2000
	// DiskUsageCalcTimeout is the maximum time to spend
	// calculating the DiskUsage upon a start when no
	// DiskUsageFile is present.
	// If this period did not suffice to read the size of the datastore,
	// the remaining sizes will be stimated.
	DiskUsageCalcTimeout = 5 * time.Minute
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	// RetryDelay is a timeout for a backoff on retrying operations
	// that fail due to transient errors like too many file descriptors open.
	RetryDelay = time.Millisecond * 200
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	// RetryAttempts is the maximum number of retries that will be attempted
	// before giving up.
	RetryAttempts = 6
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)

const (
	opPut = iota
	opDelete
	opRename
)

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type initAccuracy string

const (
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	unknownA  initAccuracy = "unknown"
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	exactA    initAccuracy = "initial-exact"
	approxA   initAccuracy = "initial-approximate"
	timedoutA initAccuracy = "initial-timed-out"
)

func combineAccuracy(a, b initAccuracy) initAccuracy {
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	if a == unknownA || b == unknownA {
		return unknownA
	}
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	if a == timedoutA || b == timedoutA {
		return timedoutA
	}
	if a == approxA || b == approxA {
		return approxA
	}
	if a == exactA && b == exactA {
		return exactA
	}
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	if a == "" {
		return b
	}
	if b == "" {
		return a
	}
	return unknownA
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}

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var _ datastore.Datastore = (*Datastore)(nil)

var (
	ErrDatastoreExists       = errors.New("datastore already exists")
	ErrDatastoreDoesNotExist = errors.New("datastore directory does not exist")
	ErrShardingFileMissing   = fmt.Errorf("%s file not found in datastore", SHARDING_FN)
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	ErrClosed                = errors.New("datastore closed")
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	ErrInvalidKey            = errors.New("key not supported by flatfs")
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)

func init() {
	rand.Seed(time.Now().UTC().UnixNano())
}

// Datastore implements the go-datastore Interface.
// Note this datastore cannot guarantee order of concurrent
// write operations to the same key. See the explanation in
// Put().
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type Datastore struct {
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	// atmoic operations should always be used with diskUsage.
	// Must be first in struct to ensure correct alignment
	// (see https://golang.org/pkg/sync/atomic/#pkg-note-BUG)
	diskUsage int64

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	path     string
	tempPath string
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	shardStr string
	getDir   ShardFunc
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	// sychronize all writes and directory changes for added safety
	sync bool
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	// these values should only be used during internalization or
	// inside the checkpoint loop
	dirty       bool
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	storedValue diskUsageValue
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	// Used to trigger a checkpoint.
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	checkpointCh chan struct{}
	done         chan struct{}
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	shutdownLock sync.RWMutex
	shutdown     bool

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	// opMap handles concurrent write operations (put/delete)
	// to the same key
	opMap *opMap
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}

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type diskUsageValue struct {
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	DiskUsage int64        `json:"diskUsage"`
	Accuracy  initAccuracy `json:"accuracy"`
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}

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type ShardFunc func(string) string

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type opT int
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// op wraps useful arguments of write operations
type op struct {
	typ  opT           // operation type
	key  datastore.Key // datastore key. Mandatory.
	tmp  string        // temp file path
	path string        // file path
	v    []byte        // value
}

type opMap struct {
	ops sync.Map
}

type opResult struct {
	mu      sync.RWMutex
	success bool

	opMap *opMap
	name  string
}

// Returns nil if there's nothing to do.
func (m *opMap) Begin(name string) *opResult {
	for {
		myOp := &opResult{opMap: m, name: name}
		myOp.mu.Lock()
		opIface, loaded := m.ops.LoadOrStore(name, myOp)
		if !loaded { // no one else doing ops with this key
			return myOp
		}

		op := opIface.(*opResult)
		// someone else doing ops with this key, wait for
		// the result
		op.mu.RLock()
		if op.success {
			return nil
		}

		// if we are here, we will retry the operation
	}
}

func (o *opResult) Finish(ok bool) {
	o.success = ok
	o.opMap.ops.Delete(o.name)
	o.mu.Unlock()
}
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func Create(path string, fun *ShardIdV1) error {
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	err := os.Mkdir(path, 0755)
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	if err != nil && !os.IsExist(err) {
		return err
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	}

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	dsFun, err := ReadShardFunc(path)
	switch err {
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	case ErrShardingFileMissing:
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		isEmpty, err := DirIsEmpty(path)
		if err != nil {
			return err
		}
		if !isEmpty {
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			return fmt.Errorf("directory missing %s file: %s", SHARDING_FN, path)
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		}

		err = WriteShardFunc(path, fun)
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		if err != nil {
			return err
		}
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		err = WriteReadme(path, fun)
		return err
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	case nil:
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		if fun.String() != dsFun.String() {
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			return fmt.Errorf("specified shard func '%s' does not match repo shard func '%s'",
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				fun.String(), dsFun.String())
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		}
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		return ErrDatastoreExists
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	default:
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		return err
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	}
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}

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func Open(path string, syncFiles bool) (*Datastore, error) {
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	_, err := os.Stat(path)
	if os.IsNotExist(err) {
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		return nil, ErrDatastoreDoesNotExist
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	} else if err != nil {
		return nil, err
	}

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	tempPath := filepath.Join(path, ".temp")
	err = os.RemoveAll(tempPath)
	if err != nil && !os.IsNotExist(err) {
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		return nil, fmt.Errorf("failed to remove temporary directory: %v", err)
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	}

	err = os.Mkdir(tempPath, 0755)
	if err != nil {
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		return nil, fmt.Errorf("failed to create temporary directory: %v", err)
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	}

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	shardId, err := ReadShardFunc(path)
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	if err != nil {
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		return nil, err
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	}

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	fs := &Datastore{
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		path:         path,
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		tempPath:     tempPath,
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		shardStr:     shardId.String(),
		getDir:       shardId.Func(),
		sync:         syncFiles,
		checkpointCh: make(chan struct{}, 1),
		done:         make(chan struct{}),
		diskUsage:    0,
		opMap:        new(opMap),
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	}

	// This sets diskUsage to the correct value
	// It might be slow, but allowing it to happen
	// while the datastore is usable might
	// cause diskUsage to not be accurate.
	err = fs.calculateDiskUsage()
	if err != nil {
		// Cannot stat() all
		// elements in the datastore.
		return nil, err
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	}
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	go fs.checkpointLoop()
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	return fs, nil
}

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// convenience method
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func CreateOrOpen(path string, fun *ShardIdV1, sync bool) (*Datastore, error) {
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	err := Create(path, fun)
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	if err != nil && err != ErrDatastoreExists {
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		return nil, err
	}
	return Open(path, sync)
}

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func (fs *Datastore) ShardStr() string {
	return fs.shardStr
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}

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func (fs *Datastore) encode(key datastore.Key) (dir, file string) {
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	noslash := key.String()[1:]
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	dir = filepath.Join(fs.path, fs.getDir(noslash))
	file = filepath.Join(dir, noslash+extension)
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	return dir, file
}

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func (fs *Datastore) decode(file string) (key datastore.Key, ok bool) {
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	if !strings.HasSuffix(file, extension) {
		// We expect random files like "put-". Log when we encounter
		// others.
		if !strings.HasPrefix(file, "put-") {
			log.Warnw("failed to decode flatfs filename", "file", file)
		}
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		return datastore.Key{}, false
	}
	name := file[:len(file)-len(extension)]
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	return datastore.NewKey(name), true
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}

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func (fs *Datastore) makeDir(dir string) error {
	if err := fs.makeDirNoSync(dir); err != nil {
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		return err
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	}

	// In theory, if we create a new prefix dir and add a file to
	// it, the creation of the prefix dir itself might not be
	// durable yet. Sync the root dir after a successful mkdir of
	// a prefix dir, just to be paranoid.
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	if fs.sync {
		if err := syncDir(fs.path); err != nil {
			return err
		}
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	}
	return nil
}

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func (fs *Datastore) makeDirNoSync(dir string) error {
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	if err := os.Mkdir(dir, 0755); err != nil {
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		// EEXIST is safe to ignore here, that just means the prefix
		// directory already existed.
		if !os.IsExist(err) {
			return err
		}
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		return nil
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	}
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	// Track DiskUsage of this NEW folder
	fs.updateDiskUsage(dir, true)
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	return nil
}

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// This function always runs under an opLock. Therefore, only one thread is
// touching the affected files.
func (fs *Datastore) renameAndUpdateDiskUsage(tmpPath, path string) error {
	fi, err := os.Stat(path)

	// Destination exists, we need to discount it from diskUsage
	if fs != nil && err == nil {
		atomic.AddInt64(&fs.diskUsage, -fi.Size())
	} else if !os.IsNotExist(err) {
		return err
	}

	// Rename and add new file's diskUsage. If the rename fails,
	// it will either a) Re-add the size of an existing file, which
	// was sustracted before b) Add 0 if there is no existing file.
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	for i := 0; i < RetryAttempts; i++ {
		err = os.Rename(tmpPath, path)
		// if there's no error, or the source file doesn't exist, abort.
		if err == nil || os.IsNotExist(err) {
			break
		}
		// Otherwise, this could be a transient error due to some other
		// process holding open one of the files. Wait a bit and then
		// retry.
		time.Sleep(time.Duration(i+1) * RetryDelay)
	}
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	fs.updateDiskUsage(path, true)
	return err
}

// Put stores a key/value in the datastore.
//
// Note, that we do not guarantee order of write operations (Put or Delete)
// to the same key in this datastore.
//
// For example. i.e. in the case of two concurrent Put, we only guarantee
// that one of them will come through, but cannot assure which one even if
// one arrived slightly later than the other. In the case of a
// concurrent Put and a Delete operation, we cannot guarantee which one
// will win.
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func (fs *Datastore) Put(key datastore.Key, value []byte) error {
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	if !keyIsValid(key) {
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		return fmt.Errorf("when putting '%q': %v", key, ErrInvalidKey)
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	}

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	fs.shutdownLock.RLock()
	defer fs.shutdownLock.RUnlock()
	if fs.shutdown {
		return ErrClosed
	}

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	_, err := fs.doWriteOp(&op{
		typ: opPut,
		key: key,
		v:   value,
	})
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	return err
}

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func (fs *Datastore) Sync(prefix datastore.Key) error {
	fs.shutdownLock.RLock()
	defer fs.shutdownLock.RUnlock()
	if fs.shutdown {
		return ErrClosed
	}

	return nil
}

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func (fs *Datastore) doOp(oper *op) error {
	switch oper.typ {
	case opPut:
		return fs.doPut(oper.key, oper.v)
	case opDelete:
		return fs.doDelete(oper.key)
	case opRename:
		return fs.renameAndUpdateDiskUsage(oper.tmp, oper.path)
	default:
		panic("bad operation, this is a bug")
	}
}

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func isTooManyFDError(err error) bool {
	perr, ok := err.(*os.PathError)
	if ok && perr.Err == syscall.EMFILE {
		return true
	}

	return false
}

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// doWrite optimizes out write operations (put/delete) to the same
// key by queueing them and succeeding all queued
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// operations if one of them does. In such case,
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// we assume that the first succeeding operation
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// on that key was the last one to happen after
// all successful others.
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//
// done is true if we actually performed the operation, false if we skipped or
// failed.
func (fs *Datastore) doWriteOp(oper *op) (done bool, err error) {
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	keyStr := oper.key.String()

	opRes := fs.opMap.Begin(keyStr)
	if opRes == nil { // nothing to do, a concurrent op succeeded
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		return false, nil
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	}

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	err = fs.doOp(oper)
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	// Finish it. If no error, it will signal other operations
	// waiting on this result to succeed. Otherwise, they will
	// retry.
	opRes.Finish(err == nil)
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	return err == nil, err
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}

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func (fs *Datastore) doPut(key datastore.Key, val []byte) error {
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	dir, path := fs.encode(key)
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	if err := fs.makeDir(dir); err != nil {
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		return err
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	}

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	tmp, err := fs.tempFile()
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	if err != nil {
		return err
	}
	closed := false
	removed := false
	defer func() {
		if !closed {
			// silence errcheck
			_ = tmp.Close()
		}
		if !removed {
			// silence errcheck
			_ = os.Remove(tmp.Name())
		}
	}()

	if _, err := tmp.Write(val); err != nil {
		return err
	}
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	if fs.sync {
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		if err := syncFile(tmp); err != nil {
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			return err
		}
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	}
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	if err := tmp.Close(); err != nil {
		return err
	}
	closed = true

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	err = fs.renameAndUpdateDiskUsage(tmp.Name(), path)
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	if err != nil {
		return err
	}
	removed = true

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	if fs.sync {
		if err := syncDir(dir); err != nil {
			return err
		}
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	}
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	return nil
}

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func (fs *Datastore) putMany(data map[datastore.Key][]byte) error {
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	fs.shutdownLock.RLock()
	defer fs.shutdownLock.RUnlock()
	if fs.shutdown {
		return ErrClosed
	}

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	type putManyOp struct {
		key     datastore.Key
		file    *os.File
		dstPath string
		srcPath string
	}
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	var (
		dirsToSync = make(map[string]struct{}, len(data))
		files      = make([]putManyOp, 0, len(data))
		closed     int
		removed    int
	)
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	defer func() {
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		for closed < len(files) {
			files[closed].file.Close()
			closed++
		}
		for removed < len(files) {
			_ = os.Remove(files[removed].srcPath)
			removed++
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		}
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	}()

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	closer := func() error {
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		for closed < len(files) {
			fi := files[closed].file
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			if fs.sync {
				if err := syncFile(fi); err != nil {
					return err
				}
			}
			if err := fi.Close(); err != nil {
				return err
			}
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			closed++
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		}
		return nil
	}

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	for key, value := range data {
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		dir, path := fs.encode(key)
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		if err := fs.makeDirNoSync(dir); err != nil {
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			return err
		}
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		dirsToSync[dir] = struct{}{}
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		tmp, err := fs.tempFileOnce()
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		// If we have too many files open, try closing some, then try
		// again repeatedly.
		if isTooManyFDError(err) {
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			if err = closer(); err != nil {
				return err
			}
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			tmp, err = fs.tempFile()
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		}
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		if err != nil {
			return err
		}

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		// Do this _first_ so we close it if writing fails.
		files = append(files, putManyOp{
			key:     key,
			file:    tmp,
			dstPath: path,
			srcPath: tmp.Name(),
		})

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		if _, err := tmp.Write(value); err != nil {
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			return err
		}
	}

	// Now we sync everything
	// sync and close files
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	err := closer()
	if err != nil {
		return err
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	}

	// move files to their proper places
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	for _, pop := range files {
		done, err := fs.doWriteOp(&op{
			typ:  opRename,
			key:  pop.key,
			tmp:  pop.srcPath,
			path: pop.dstPath,
		})
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		if err != nil {
			return err
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		} else if !done {
			_ = os.Remove(pop.file.Name())
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		}
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		removed++
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	}

	// now sync the dirs for those files
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	if fs.sync {
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		for dir := range dirsToSync {
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			if err := syncDir(dir); err != nil {
				return err
			}
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		}

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		// sync top flatfs dir
		if err := syncDir(fs.path); err != nil {
			return err
		}
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	}

	return nil
}

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func (fs *Datastore) Get(key datastore.Key) (value []byte, err error) {
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	// Can't exist in datastore.
	if !keyIsValid(key) {
		return nil, datastore.ErrNotFound
	}

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	_, path := fs.encode(key)
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	data, err := readFile(path)
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	if err != nil {
		if os.IsNotExist(err) {
			return nil, datastore.ErrNotFound
		}
		// no specific error to return, so just pass it through
		return nil, err
	}
	return data, nil
}

func (fs *Datastore) Has(key datastore.Key) (exists bool, err error) {
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	// Can't exist in datastore.
	if !keyIsValid(key) {
		return false, nil
	}

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	_, path := fs.encode(key)
	switch _, err := os.Stat(path); {
	case err == nil:
		return true, nil
	case os.IsNotExist(err):
		return false, nil
	default:
		return false, err
	}
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}

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func (fs *Datastore) GetSize(key datastore.Key) (size int, err error) {
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	// Can't exist in datastore.
	if !keyIsValid(key) {
		return -1, datastore.ErrNotFound
	}

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	_, path := fs.encode(key)
	switch s, err := os.Stat(path); {
	case err == nil:
		return int(s.Size()), nil
	case os.IsNotExist(err):
		return -1, datastore.ErrNotFound
	default:
		return -1, err
	}
}

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// Delete removes a key/value from the Datastore. Please read
// the Put() explanation about the handling of concurrent write
// operations to the same key.
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func (fs *Datastore) Delete(key datastore.Key) error {
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	// Can't exist in datastore.
	if !keyIsValid(key) {
		return nil
	}

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	fs.shutdownLock.RLock()
	defer fs.shutdownLock.RUnlock()
	if fs.shutdown {
		return ErrClosed
	}

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	_, err := fs.doWriteOp(&op{
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		typ: opDelete,
		key: key,
		v:   nil,
	})
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	return err
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}

// This function always runs within an opLock for the given
// key, and not concurrently.
func (fs *Datastore) doDelete(key datastore.Key) error {
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	_, path := fs.encode(key)
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	fSize := fileSize(path)

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	var err error
	for i := 0; i < RetryAttempts; i++ {
		err = os.Remove(path)
		if err == nil {
			break
		} else if os.IsNotExist(err) {
			return nil
		}
	}

	if err == nil {
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		atomic.AddInt64(&fs.diskUsage, -fSize)
		fs.checkpointDiskUsage()
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	}
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	return err
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}

func (fs *Datastore) Query(q query.Query) (query.Results, error) {
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	prefix := datastore.NewKey(q.Prefix).String()
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	if prefix != "/" {
		// This datastore can't include keys with multiple components.
		// Therefore, it's always correct to return an empty result when
		// the user requests a filter by prefix.
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		log.Warnw(
			"flatfs was queried with a key prefix but flatfs only supports keys at the root",
			"prefix", q.Prefix,
			"query", q,
		)
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		return query.ResultsWithEntries(q, nil), nil
	}
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	// Replicates the logic in ResultsWithChan but actually respects calls
	// to `Close`.
	b := query.NewResultBuilder(q)
	b.Process.Go(func(p goprocess.Process) {
		err := fs.walkTopLevel(fs.path, b)
		if err == nil {
			return
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		}
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		select {
		case b.Output <- query.Result{Error: errors.New("walk failed: " + err.Error())}:
		case <-p.Closing():
		}
	})
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	go b.Process.CloseAfterChildren() //nolint
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	// We don't apply _any_ of the query logic ourselves so we'll leave it
	// all up to the naive query engine.
	return query.NaiveQueryApply(q, b.Results()), nil
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}

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func (fs *Datastore) walkTopLevel(path string, result *query.ResultBuilder) error {
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	dir, err := os.Open(path)
	if err != nil {
		return err
	}
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	defer dir.Close()
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	entries, err := dir.Readdir(-1)
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	if err != nil {
		return err
	}
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	for _, entry := range entries {
		if !entry.IsDir() {
			continue
		}
		dir := entry.Name()
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		if len(dir) == 0 || dir[0] == '.' {
			continue
		}

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		err = fs.walk(filepath.Join(path, dir), result)
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		if err != nil {
			return err
		}
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		// Are we closing?
		select {
		case <-result.Process.Closing():
			return nil
		default:
		}
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	}
	return nil
}

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// folderSize estimates the diskUsage of a folder by reading
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// up to DiskUsageFilesAverage entries in it and assuming any
// other files will have an average size.
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func folderSize(path string, deadline time.Time) (int64, initAccuracy, error) {
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	var du int64

	folder, err := os.Open(path)
	if err != nil {
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		return 0, "", err
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	}
	defer folder.Close()

	stat, err := folder.Stat()
	if err != nil {
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		return 0, "", err
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	}

	files, err := folder.Readdirnames(-1)
	if err != nil {
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		return 0, "", err
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	}

	totalFiles := len(files)
	i := 0
	filesProcessed := 0
	maxFiles := DiskUsageFilesAverage
	if maxFiles <= 0 {
		maxFiles = totalFiles
	}

	// randomize file order
	// https://stackoverflow.com/a/42776696
	for i := len(files) - 1; i > 0; i-- {
		j := rand.Intn(i + 1)
		files[i], files[j] = files[j], files[i]
	}

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	accuracy := exactA
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	for {
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		// Do not process any files after deadline is over
		if time.Now().After(deadline) {
			accuracy = timedoutA
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			break
		}

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		if i >= totalFiles || filesProcessed >= maxFiles {
			if filesProcessed >= maxFiles {
				accuracy = approxA
			}
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			break
		}

		// Stat the file
		fname := files[i]
		subpath := filepath.Join(path, fname)
		st, err := os.Stat(subpath)
		if err != nil {
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			return 0, "", err
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		}

		// Find folder size recursively
		if st.IsDir() {
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			du2, acc, err := folderSize(filepath.Join(subpath), deadline)
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			if err != nil {
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				return 0, "", err
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			}
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			accuracy = combineAccuracy(acc, accuracy)
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			du += du2
			filesProcessed++
		} else { // in any other case, add the file size
			du += st.Size()
			filesProcessed++
		}

		i++
	}

	nonProcessed := totalFiles - filesProcessed

	// Avg is total size in this folder up to now / total files processed
	// it includes folders ant not folders
	avg := 0.0
	if filesProcessed > 0 {
		avg = float64(du) / float64(filesProcessed)
	}
	duEstimation := int64(avg * float64(nonProcessed))
	du += duEstimation
	du += stat.Size()
	//fmt.Println(path, "total:", totalFiles, "totalStat:", i, "totalFile:", filesProcessed, "left:", nonProcessed, "avg:", int(avg), "est:", int(duEstimation), "du:", du)
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	return du, accuracy, nil
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}

// calculateDiskUsage tries to read the DiskUsageFile for a cached
// diskUsage value, otherwise walks the datastore files.
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// it is only safe to call in Open()
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func (fs *Datastore) calculateDiskUsage() error {
	// Try to obtain a previously stored value from disk
	if persDu := fs.readDiskUsageFile(); persDu > 0 {
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		fs.diskUsage = persDu
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		return nil
	}

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	msgDone := make(chan struct{}, 1) // prevent race condition
	msgTimer := time.AfterFunc(diskUsageMessageTimeout, func() {
		fmt.Printf("Calculating datastore size. This might take %s at most and will happen only once\n",
			DiskUsageCalcTimeout.String())
		msgDone <- struct{}{}
	})
	defer msgTimer.Stop()
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	deadline := time.Now().Add(DiskUsageCalcTimeout)
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	du, accuracy, err := folderSize(fs.path, deadline)
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	if err != nil {
		return err
	}
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	if !msgTimer.Stop() {
		<-msgDone
	}
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	if accuracy == timedoutA {
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		fmt.Println("WARN: It took to long to calculate the datastore size")
		fmt.Printf("WARN: The total size (%d) is an estimation. You can fix errors by\n", du)
		fmt.Printf("WARN: replacing the %s file with the right disk usage in bytes and\n",
			filepath.Join(fs.path, DiskUsageFile))
		fmt.Println("WARN: re-opening the datastore")
	}

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	fs.storedValue.Accuracy = accuracy
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	fs.diskUsage = du
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	fs.writeDiskUsageFile(du, true)
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	return nil
}

func fileSize(path string) int64 {
	fi, err := os.Stat(path)
	if err != nil {
		return 0
	}
	return fi.Size()
}

// updateDiskUsage reads the size of path and atomically
// increases or decreases the diskUsage variable.
// setting add to false will subtract from disk usage.
func (fs *Datastore) updateDiskUsage(path string, add bool) {
	fsize := fileSize(path)
	if !add {
		fsize = -fsize
	}

	if fsize != 0 {
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		atomic.AddInt64(&fs.diskUsage, fsize)
		fs.checkpointDiskUsage()
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	}
}

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func (fs *Datastore) checkpointDiskUsage() {
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	select {
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	case fs.checkpointCh <- struct{}{}:
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		// msg sent
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	default:
		// checkpoint request already pending
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	}
}

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func (fs *Datastore) checkpointLoop() {
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	defer close(fs.done)

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	timerActive := true
	timer := time.NewTimer(0)
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	defer timer.Stop()
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	for {
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		select {
		case _, more := <-fs.checkpointCh:
			du := atomic.LoadInt64(&fs.diskUsage)
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			fs.dirty = true
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			if !more { // shutting down
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				fs.writeDiskUsageFile(du, true)
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				if fs.dirty {
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					log.Error("could not store final value of disk usage to file, future estimates may be inaccurate")
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				}
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				return
			}
			// If the difference between the checkpointed disk usage and
			// current one is larger than than `diskUsageCheckpointPercent`
			// of the checkpointed: store it.
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			newDu := float64(du)
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			lastCheckpointDu := float64(fs.storedValue.DiskUsage)
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			diff := math.Abs(newDu - lastCheckpointDu)
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			if lastCheckpointDu*diskUsageCheckpointPercent < diff*100.0 {
				fs.writeDiskUsageFile(du, false)
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			}
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			// Otherwise insure the value will be written to disk after
			// `diskUsageCheckpointTimeout`
			if fs.dirty && !timerActive {
				timer.Reset(diskUsageCheckpointTimeout)
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				timerActive = true
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			}
		case <-timer.C:
			timerActive = false
			if fs.dirty {
				du := atomic.LoadInt64(&fs.diskUsage)
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				fs.writeDiskUsageFile(du, false)
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			}
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		}
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	}
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}

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func (fs *Datastore) writeDiskUsageFile(du int64, doSync bool) {
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	tmp, err := fs.tempFile()
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	if err != nil {
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		log.Warnw("could not write disk usage", "error", err)
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		return
	}

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	removed := false
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	closed := false
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	defer func() {
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		if !closed {
			_ = tmp.Close()
		}
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		if !removed {
			// silence errcheck
			_ = os.Remove(tmp.Name())
		}
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	}()
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	toWrite := fs.storedValue
	toWrite.DiskUsage = du
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	encoder := json.NewEncoder(tmp)
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	if err := encoder.Encode(&toWrite); err != nil {
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		log.Warnw("cound not write disk usage", "error", err)
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		return
	}
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	if doSync {
		if err := tmp.Sync(); err != nil {
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			log.Warnw("cound not sync", "error", err, "file", DiskUsageFile)
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			return
		}
	}

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	if err := tmp.Close(); err != nil {
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		log.Warnw("cound not write disk usage", "error", err)
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		return
	}
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	closed = true
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	if err := os.Rename(tmp.Name(), filepath.Join(fs.path, DiskUsageFile)); err != nil {
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		log.Warnw("cound not write disk usage", "error", err)
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		return
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	}
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	removed = true
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	fs.storedValue = toWrite
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	fs.dirty = false
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}

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// readDiskUsageFile is only safe to call in Open()
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func (fs *Datastore) readDiskUsageFile() int64 {
	fpath := filepath.Join(fs.path, DiskUsageFile)
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	duB, err := readFile(fpath)
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	if err != nil {
		return 0
	}
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	err = json.Unmarshal(duB, &fs.storedValue)
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	if err != nil {
		return 0
	}
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	return fs.storedValue.DiskUsage
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}

// DiskUsage implements the PersistentDatastore interface
// and returns the current disk usage in bytes used by
// this datastore.
//
// The size is approximative and may slightly differ from
// the real disk values.
func (fs *Datastore) DiskUsage() (uint64, error) {
	// it may differ from real disk values if
	// the filesystem has allocated for blocks
	// for a directory because it has many files in it
	// we don't account for "resized" directories.
	// In a large datastore, the differences should be
	// are negligible though.

	du := atomic.LoadInt64(&fs.diskUsage)
	return uint64(du), nil
}

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// Accuracy returns a string representing the accuracy of the
// DiskUsage() result, the value returned is implementation defined
// and for informational purposes only
func (fs *Datastore) Accuracy() string {
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	return string(fs.storedValue.Accuracy)
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}

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func (fs *Datastore) tempFile() (*os.File, error) {
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	file, err := tempFile(fs.tempPath, "temp-")
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	return file, err
}

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func (fs *Datastore) tempFileOnce() (*os.File, error) {
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	return tempFileOnce(fs.tempPath, "temp-")
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}

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// only call this on directories.
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func (fs *Datastore) walk(path string, qrb *query.ResultBuilder) error {
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	dir, err := os.Open(path)
	if err != nil {
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		if os.IsNotExist(err) {
			// not an error if the file disappeared
			return nil
		}
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		return err
	}
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	defer dir.Close()
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	names, err := dir.Readdirnames(-1)
	if err != nil {
		return err
	}
	for _, fn := range names {

		if len(fn) == 0 || fn[0] == '.' {
			continue
		}

		key, ok := fs.decode(fn)
		if !ok {
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			// not a block.
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			continue
		}

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		var result query.Result
		result.Key = key.String()
		if !qrb.Query.KeysOnly {
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			value, err := readFile(filepath.Join(path, fn))
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			if err != nil {
				result.Error = err
			} else {
				// NOTE: Don't set the value/size on error. We
				// don't want to return partial values.
				result.Value = value
				result.Size = len(value)
			}
		} else if qrb.Query.ReturnsSizes {
			var stat os.FileInfo
			stat, err := os.Stat(filepath.Join(path, fn))
			if err != nil {
				result.Error = err
			} else {
				result.Size = int(stat.Size())
			}
		}

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		select {
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		case qrb.Output <- result:
		case <-qrb.Process.Closing():
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			return nil
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		}
	}
	return nil
}

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// Deactivate closes background maintenance threads, most write
// operations will fail but readonly operations will continue to
// function
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func (fs *Datastore) deactivate() {
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	fs.shutdownLock.Lock()
	defer fs.shutdownLock.Unlock()
	if fs.shutdown {
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		return
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	}
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	fs.shutdown = true
	close(fs.checkpointCh)
	<-fs.done
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}

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func (fs *Datastore) Close() error {
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	fs.deactivate()
	return nil
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}

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type flatfsBatch struct {
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	puts    map[datastore.Key][]byte
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	deletes map[datastore.Key]struct{}

	ds *Datastore
}

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func (fs *Datastore) Batch() (datastore.Batch, error) {
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	return &flatfsBatch{
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		puts:    make(map[datastore.Key][]byte),
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		deletes: make(map[datastore.Key]struct{}),
		ds:      fs,
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	}, nil
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}

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func (bt *flatfsBatch) Put(key datastore.Key, val []byte) error {
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	if !keyIsValid(key) {
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		return fmt.Errorf("when putting '%q': %v", key, ErrInvalidKey)
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	}
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	bt.puts[key] = val
	return nil
}

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func (bt *flatfsBatch) Delete(key datastore.Key) error {
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	if keyIsValid(key) {
		bt.deletes[key] = struct{}{}
	} // otherwise, delete is a no-op anyways.
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	return nil
}

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func (bt *flatfsBatch) Commit() error {
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	if err := bt.ds.putMany(bt.puts); err != nil {
		return err
	}

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	for k := range bt.deletes {
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		if err := bt.ds.Delete(k); err != nil {
			return err
		}
	}

	return nil
}