package torrent
import (
- "strings"
+ "github.com/RoaringBitmap/roaring"
+ "github.com/anacrolix/missinggo/v2/bitmap"
"github.com/anacrolix/torrent/metainfo"
)
// Provides access to regions of torrent data that correspond to its files.
type File struct {
- t clientTorrent
- path string
- offset int64
- length int64
- fi metainfo.FileInfo
+ t *Torrent
+ path string
+ offset int64
+ length int64
+ fi metainfo.FileInfo
+ displayPath string
+ prio piecePriority
}
-func (f *File) Torrent() Torrent {
+func (f *File) Torrent() *Torrent {
return f.t
}
-// Data for this file begins this far into the torrent.
+// Data for this file begins this many bytes into the Torrent.
func (f *File) Offset() int64 {
return f.offset
}
+// The FileInfo from the metainfo.Info to which this file corresponds.
func (f File) FileInfo() metainfo.FileInfo {
return f.fi
}
+// The file's path components joined by '/'.
func (f File) Path() string {
return f.path
}
+// The file's length in bytes.
func (f *File) Length() int64 {
return f.length
}
-// The relative file path for a multi-file torrent, and the torrent name for a
-// single-file torrent.
-func (f *File) DisplayPath() string {
- fip := f.FileInfo().Path
- if len(fip) == 0 {
- return f.t.Info().Name
+// Number of bytes of the entire file we have completed. This is the sum of
+// completed pieces, and dirtied chunks of incomplete pieces.
+func (f *File) BytesCompleted() (n int64) {
+ f.t.cl.rLock()
+ n = f.bytesCompletedLocked()
+ f.t.cl.rUnlock()
+ return
+}
+
+func (f *File) bytesCompletedLocked() int64 {
+ return f.length - f.bytesLeft()
+}
+
+func fileBytesLeft(
+ torrentUsualPieceSize int64,
+ fileFirstPieceIndex int,
+ fileEndPieceIndex int,
+ fileTorrentOffset int64,
+ fileLength int64,
+ torrentCompletedPieces *roaring.Bitmap,
+) (left int64) {
+ numPiecesSpanned := fileEndPieceIndex - fileFirstPieceIndex
+ switch numPiecesSpanned {
+ case 0:
+ case 1:
+ if !torrentCompletedPieces.Contains(bitmap.BitIndex(fileFirstPieceIndex)) {
+ left += fileLength
+ }
+ default:
+ if !torrentCompletedPieces.Contains(bitmap.BitIndex(fileFirstPieceIndex)) {
+ left += torrentUsualPieceSize - (fileTorrentOffset % torrentUsualPieceSize)
+ }
+ if !torrentCompletedPieces.Contains(bitmap.BitIndex(fileEndPieceIndex - 1)) {
+ left += fileTorrentOffset + fileLength - int64(fileEndPieceIndex-1)*torrentUsualPieceSize
+ }
+ completedMiddlePieces := torrentCompletedPieces.Clone()
+ completedMiddlePieces.RemoveRange(0, bitmap.BitRange(fileFirstPieceIndex+1))
+ completedMiddlePieces.RemoveRange(bitmap.BitRange(fileEndPieceIndex-1), bitmap.ToEnd)
+ left += int64(numPiecesSpanned-2-pieceIndex(completedMiddlePieces.GetCardinality())) * torrentUsualPieceSize
}
- return strings.Join(fip, "/")
+ return
+}
+
+func (f *File) bytesLeft() (left int64) {
+ return fileBytesLeft(int64(f.t.usualPieceSize()), f.BeginPieceIndex(), f.EndPieceIndex(), f.offset, f.length, &f.t._completedPieces)
+}
+// The relative file path for a multi-file torrent, and the torrent name for a
+// single-file torrent. Dir separators are '/'.
+func (f *File) DisplayPath() string {
+ return f.displayPath
}
+// The download status of a piece that comprises part of a File.
type FilePieceState struct {
Bytes int64 // Bytes within the piece that are part of this File.
PieceState
// Returns the state of pieces in this file.
func (f *File) State() (ret []FilePieceState) {
+ f.t.cl.rLock()
+ defer f.t.cl.rUnlock()
pieceSize := int64(f.t.usualPieceSize())
off := f.offset % pieceSize
remaining := f.length
- for i := int(f.offset / pieceSize); ; i++ {
+ for i := pieceIndex(f.offset / pieceSize); ; i++ {
if remaining == 0 {
break
}
if len1 > remaining {
len1 = remaining
}
- f.t.cl.mu.RLock()
ps := f.t.pieceState(i)
- f.t.cl.mu.RUnlock()
ret = append(ret, FilePieceState{len1, ps})
off = 0
remaining -= len1
return
}
-// Marks pieces in the region of the file for download. This is a helper
-// wrapping Torrent.SetRegionPriority.
-func (f *File) PrioritizeRegion(off, len int64) {
- if off < 0 || off >= f.length {
- return
+// Requests that all pieces containing data in the file be downloaded.
+func (f *File) Download() {
+ f.SetPriority(PiecePriorityNormal)
+}
+
+func byteRegionExclusivePieces(off, size, pieceSize int64) (begin, end int) {
+ begin = int((off + pieceSize - 1) / pieceSize)
+ end = int((off + size) / pieceSize)
+ return
+}
+
+// Deprecated: Use File.SetPriority.
+func (f *File) Cancel() {
+ f.SetPriority(PiecePriorityNone)
+}
+
+func (f *File) NewReader() Reader {
+ return f.t.newReader(f.Offset(), f.Length())
+}
+
+// Sets the minimum priority for pieces in the File.
+func (f *File) SetPriority(prio piecePriority) {
+ f.t.cl.lock()
+ if prio != f.prio {
+ f.prio = prio
+ f.t.updatePiecePriorities(f.BeginPieceIndex(), f.EndPieceIndex(), "File.SetPriority")
}
- if off+len > f.length {
- len = f.length - off
+ f.t.cl.unlock()
+}
+
+// Returns the priority per File.SetPriority.
+func (f *File) Priority() (prio piecePriority) {
+ f.t.cl.rLock()
+ prio = f.prio
+ f.t.cl.rUnlock()
+ return
+}
+
+// Returns the index of the first piece containing data for the file.
+func (f *File) BeginPieceIndex() int {
+ if f.t.usualPieceSize() == 0 {
+ return 0
+ }
+ return pieceIndex(f.offset / int64(f.t.usualPieceSize()))
+}
+
+// Returns the index of the piece after the last one containing data for the file.
+func (f *File) EndPieceIndex() int {
+ if f.t.usualPieceSize() == 0 {
+ return 0
}
- off += f.offset
- f.t.SetRegionPriority(off, len)
+ return pieceIndex((f.offset + f.length + int64(f.t.usualPieceSize()) - 1) / int64(f.t.usualPieceSize()))
}