// Copyright 2017 The Prometheus Authors // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package storage import ( "math" "github.com/prometheus/prometheus/model/histogram" "github.com/prometheus/prometheus/tsdb/chunkenc" ) // BufferedSeriesIterator wraps an iterator with a look-back buffer. type BufferedSeriesIterator struct { it chunkenc.Iterator buf *sampleRing delta int64 lastTime int64 ok bool } // NewBuffer returns a new iterator that buffers the values within the time range // of the current element and the duration of delta before, initialized with an // empty iterator. Use Reset() to set an actual iterator to be buffered. func NewBuffer(delta int64) *BufferedSeriesIterator { return NewBufferIterator(chunkenc.NewNopIterator(), delta) } // NewBufferIterator returns a new iterator that buffers the values within the // time range of the current element and the duration of delta before. func NewBufferIterator(it chunkenc.Iterator, delta int64) *BufferedSeriesIterator { bit := &BufferedSeriesIterator{ buf: newSampleRing(delta, 16), delta: delta, } bit.Reset(it) return bit } // Reset re-uses the buffer with a new iterator, resetting the buffered time // delta to its original value. func (b *BufferedSeriesIterator) Reset(it chunkenc.Iterator) { b.it = it b.lastTime = math.MinInt64 b.ok = true b.buf.reset() b.buf.delta = b.delta it.Next() } // ReduceDelta lowers the buffered time delta, for the current SeriesIterator only. func (b *BufferedSeriesIterator) ReduceDelta(delta int64) bool { return b.buf.reduceDelta(delta) } // PeekBack returns the nth previous element of the iterator. If there is none buffered, // ok is false. func (b *BufferedSeriesIterator) PeekBack(n int) (t int64, v float64, ok bool) { return b.buf.nthLast(n) } // Buffer returns an iterator over the buffered data. Invalidates previously // returned iterators. func (b *BufferedSeriesIterator) Buffer() chunkenc.Iterator { return b.buf.iterator() } // Seek advances the iterator to the element at time t or greater. func (b *BufferedSeriesIterator) Seek(t int64) bool { t0 := t - b.buf.delta // If the delta would cause us to seek backwards, preserve the buffer // and just continue regular advancement while filling the buffer on the way. if t0 > b.lastTime { b.buf.reset() b.ok = b.it.Seek(t0) if !b.ok { return false } b.lastTime, _ = b.Values() } if b.lastTime >= t { return true } for b.Next() { if b.lastTime >= t { return true } } return false } // Next advances the iterator to the next element. func (b *BufferedSeriesIterator) Next() bool { if !b.ok { return false } // Add current element to buffer before advancing. b.buf.add(b.it.At()) b.ok = b.it.Next() if b.ok { b.lastTime, _ = b.Values() } return b.ok } // Values returns the current element of the iterator. func (b *BufferedSeriesIterator) Values() (int64, float64) { return b.it.At() } // Err returns the last encountered error. func (b *BufferedSeriesIterator) Err() error { return b.it.Err() } type sample struct { t int64 v float64 } func (s sample) T() int64 { return s.t } func (s sample) V() float64 { return s.v } type sampleRing struct { delta int64 buf []sample // lookback buffer i int // position of most recent element in ring buffer f int // position of first element in ring buffer l int // number of elements in buffer it sampleRingIterator } func newSampleRing(delta int64, sz int) *sampleRing { r := &sampleRing{delta: delta, buf: make([]sample, sz)} r.reset() return r } func (r *sampleRing) reset() { r.l = 0 r.i = -1 r.f = 0 } // Returns the current iterator. Invalidates previously returned iterators. func (r *sampleRing) iterator() chunkenc.Iterator { r.it.r = r r.it.i = -1 return &r.it } type sampleRingIterator struct { r *sampleRing i int } func (it *sampleRingIterator) Next() bool { it.i++ return it.i < it.r.l } func (it *sampleRingIterator) Seek(int64) bool { return false } func (it *sampleRingIterator) Err() error { return nil } func (it *sampleRingIterator) At() (int64, float64) { return it.r.at(it.i) } // AtHistogram always returns (0, histogram.Histogram{}) because there is no // support for histogram values yet. // TODO(beorn7): Fix that for histogram support in PromQL. func (it *sampleRingIterator) AtHistogram() (int64, histogram.Histogram) { return 0, histogram.Histogram{} } func (it *sampleRingIterator) ChunkEncoding() chunkenc.Encoding { return chunkenc.EncXOR } func (r *sampleRing) at(i int) (int64, float64) { j := (r.f + i) % len(r.buf) s := r.buf[j] return s.t, s.v } // add adds a sample to the ring buffer and frees all samples that fall // out of the delta range. func (r *sampleRing) add(t int64, v float64) { l := len(r.buf) // Grow the ring buffer if it fits no more elements. if l == r.l { buf := make([]sample, 2*l) copy(buf[l+r.f:], r.buf[r.f:]) copy(buf, r.buf[:r.f]) r.buf = buf r.i = r.f r.f += l l = 2 * l } else { r.i++ if r.i >= l { r.i -= l } } r.buf[r.i] = sample{t: t, v: v} r.l++ // Free head of the buffer of samples that just fell out of the range. tmin := t - r.delta for r.buf[r.f].t < tmin { r.f++ if r.f >= l { r.f -= l } r.l-- } } // reduceDelta lowers the buffered time delta, dropping any samples that are // out of the new delta range. func (r *sampleRing) reduceDelta(delta int64) bool { if delta > r.delta { return false } r.delta = delta if r.l == 0 { return true } // Free head of the buffer of samples that just fell out of the range. l := len(r.buf) tmin := r.buf[r.i].t - delta for r.buf[r.f].t < tmin { r.f++ if r.f >= l { r.f -= l } r.l-- } return true } // nthLast returns the nth most recent element added to the ring. func (r *sampleRing) nthLast(n int) (int64, float64, bool) { if n > r.l { return 0, 0, false } t, v := r.at(r.l - n) return t, v, true } func (r *sampleRing) samples() []sample { res := make([]sample, r.l) var k = r.f + r.l var j int if k > len(r.buf) { k = len(r.buf) j = r.l - k + r.f } n := copy(res, r.buf[r.f:k]) copy(res[n:], r.buf[:j]) return res }