package sync import ( "context" "fmt" "math/bits" "strconv" "strings" "sync" "github.com/aalpar/deheap" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/fs/fserrors" ) // compare two items for order by type lessFn func(a, b fs.ObjectPair) bool // pipe provides an unbounded channel like experience // // Note unlike channels these aren't strictly ordered. type pipe struct { mu sync.Mutex c chan struct{} queue []fs.ObjectPair closed bool totalSize int64 stats func(items int, totalSize int64) less lessFn fraction int } func newPipe(orderBy string, stats func(items int, totalSize int64), maxBacklog int) (*pipe, error) { if maxBacklog < 0 { maxBacklog = (1 << (bits.UintSize - 1)) - 1 // largest positive int } less, fraction, err := newLess(orderBy) if err != nil { return nil, fserrors.FatalError(err) } p := &pipe{ c: make(chan struct{}, maxBacklog), stats: stats, less: less, fraction: fraction, } if p.less != nil { deheap.Init(p) } return p, nil } // Len satisfy heap.Interface - must be called with lock held func (p *pipe) Len() int { return len(p.queue) } // Len satisfy heap.Interface - must be called with lock held func (p *pipe) Less(i, j int) bool { return p.less(p.queue[i], p.queue[j]) } // Swap satisfy heap.Interface - must be called with lock held func (p *pipe) Swap(i, j int) { p.queue[i], p.queue[j] = p.queue[j], p.queue[i] } // Push satisfy heap.Interface - must be called with lock held func (p *pipe) Push(item interface{}) { p.queue = append(p.queue, item.(fs.ObjectPair)) } // Pop satisfy heap.Interface - must be called with lock held func (p *pipe) Pop() interface{} { old := p.queue n := len(old) item := old[n-1] old[n-1] = fs.ObjectPair{} // avoid memory leak p.queue = old[0 : n-1] return item } // Put a pair into the pipe // // It returns ok = false if the context was cancelled // // It will panic if you call it after Close() func (p *pipe) Put(ctx context.Context, pair fs.ObjectPair) (ok bool) { if ctx.Err() != nil { return false } p.mu.Lock() if p.less == nil { // no order-by p.queue = append(p.queue, pair) } else { deheap.Push(p, pair) } size := pair.Src.Size() if size > 0 { p.totalSize += size } p.stats(len(p.queue), p.totalSize) p.mu.Unlock() select { case <-ctx.Done(): return false case p.c <- struct{}{}: } return true } // Get a pair from the pipe // // If fraction is > the mixed fraction set in the pipe then it gets it // from the other end of the heap if order-by is in effect // // It returns ok = false if the context was cancelled or Close() has // been called. func (p *pipe) GetMax(ctx context.Context, fraction int) (pair fs.ObjectPair, ok bool) { if ctx.Err() != nil { return } select { case <-ctx.Done(): return case _, ok = <-p.c: if !ok { return } } p.mu.Lock() if p.less == nil { // no order-by pair = p.queue[0] p.queue[0] = fs.ObjectPair{} // avoid memory leak p.queue = p.queue[1:] } else if p.fraction < 0 || fraction < p.fraction { pair = deheap.Pop(p).(fs.ObjectPair) } else { pair = deheap.PopMax(p).(fs.ObjectPair) } size := pair.Src.Size() if size > 0 { p.totalSize -= size } if p.totalSize < 0 { p.totalSize = 0 } p.stats(len(p.queue), p.totalSize) p.mu.Unlock() return pair, true } // Get a pair from the pipe // // It returns ok = false if the context was cancelled or Close() has // been called. func (p *pipe) Get(ctx context.Context) (pair fs.ObjectPair, ok bool) { return p.GetMax(ctx, -1) } // Stats reads the number of items in the queue and the totalSize func (p *pipe) Stats() (items int, totalSize int64) { p.mu.Lock() items, totalSize = len(p.queue), p.totalSize p.mu.Unlock() return items, totalSize } // Close the pipe // // Writes to a closed pipe will panic as will double closing a pipe func (p *pipe) Close() { p.mu.Lock() close(p.c) p.closed = true p.mu.Unlock() } // newLess returns a less function for the heap comparison or nil if // one is not required func newLess(orderBy string) (less lessFn, fraction int, err error) { fraction = -1 if orderBy == "" { return nil, fraction, nil } parts := strings.Split(strings.ToLower(orderBy), ",") switch parts[0] { case "name": less = func(a, b fs.ObjectPair) bool { return a.Src.Remote() < b.Src.Remote() } case "size": less = func(a, b fs.ObjectPair) bool { return a.Src.Size() < b.Src.Size() } case "modtime": less = func(a, b fs.ObjectPair) bool { ctx := context.Background() return a.Src.ModTime(ctx).Before(b.Src.ModTime(ctx)) } default: return nil, fraction, fmt.Errorf("unknown --order-by comparison %q", parts[0]) } descending := false if len(parts) > 1 { switch parts[1] { case "ascending", "asc": case "descending", "desc": descending = true case "mixed": fraction = 50 if len(parts) > 2 { fraction, err = strconv.Atoi(parts[2]) if err != nil { return nil, fraction, fmt.Errorf("bad mixed fraction --order-by %q", parts[2]) } } default: return nil, fraction, fmt.Errorf("unknown --order-by sort direction %q", parts[1]) } } if (fraction >= 0 && len(parts) > 3) || (fraction < 0 && len(parts) > 2) { return nil, fraction, fmt.Errorf("bad --order-by string %q", orderBy) } if descending { oldLess := less less = func(a, b fs.ObjectPair) bool { return !oldLess(a, b) } } return less, fraction, nil }