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prometheus/storage/interface.go

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// Copyright 2014 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 (
"context"
"errors"
"fmt"
"github.com/prometheus/prometheus/model/exemplar"
"github.com/prometheus/prometheus/model/histogram"
"github.com/prometheus/prometheus/model/labels"
"github.com/prometheus/prometheus/model/metadata"
"github.com/prometheus/prometheus/tsdb/chunkenc"
"github.com/prometheus/prometheus/tsdb/chunks"
"github.com/prometheus/prometheus/util/annotations"
)
// The errors exposed.
var (
ErrNotFound = errors.New("not found")
// ErrOutOfOrderSample is when out of order support is disabled and the sample is out of order.
ErrOutOfOrderSample = errors.New("out of order sample")
// ErrOutOfBounds is when out of order support is disabled and the sample is older than the min valid time for the append.
ErrOutOfBounds = errors.New("out of bounds")
// ErrTooOldSample is when out of order support is enabled but the sample is outside the time window allowed.
ErrTooOldSample = errors.New("too old sample")
// ErrDuplicateSampleForTimestamp is when the sample has same timestamp but different value.
ErrDuplicateSampleForTimestamp = errDuplicateSampleForTimestamp{}
ErrOutOfOrderExemplar = errors.New("out of order exemplar")
ErrDuplicateExemplar = errors.New("duplicate exemplar")
ErrExemplarLabelLength = fmt.Errorf("label length for exemplar exceeds maximum of %d UTF-8 characters", exemplar.ExemplarMaxLabelSetLength)
ErrExemplarsDisabled = fmt.Errorf("exemplar storage is disabled or max exemplars is less than or equal to 0")
ErrNativeHistogramsDisabled = fmt.Errorf("native histograms are disabled")
ErrOOONativeHistogramsDisabled = fmt.Errorf("out-of-order native histogram ingestion is disabled")
// ErrOutOfOrderCT indicates failed append of CT to the storage
// due to CT being older the then newer sample.
// NOTE(bwplotka): This can be both an instrumentation failure or commonly expected
// behaviour, and we currently don't have a way to determine this. As a result
// it's recommended to ignore this error for now.
ErrOutOfOrderCT = fmt.Errorf("created timestamp out of order, ignoring")
ErrCTNewerThanSample = fmt.Errorf("CT is newer or the same as sample's timestamp, ignoring")
)
// SeriesRef is a generic series reference. In prometheus it is either a
// HeadSeriesRef or BlockSeriesRef, though other implementations may have
// their own reference types.
type SeriesRef uint64
// Appendable allows creating appenders.
type Appendable interface {
// Appender returns a new appender for the storage. The implementation
// can choose whether or not to use the context, for deadlines or to check
// for errors.
Appender(ctx context.Context) Appender
}
// SampleAndChunkQueryable allows retrieving samples as well as encoded samples in form of chunks.
type SampleAndChunkQueryable interface {
Queryable
ChunkQueryable
}
// Storage ingests and manages samples, along with various indexes. All methods
// are goroutine-safe. Storage implements storage.Appender.
type Storage interface {
SampleAndChunkQueryable
Appendable
// StartTime returns the oldest timestamp stored in the storage.
StartTime() (int64, error)
// Close closes the storage and all its underlying resources.
Close() error
}
// ExemplarStorage ingests and manages exemplars, along with various indexes. All methods are
// goroutine-safe. ExemplarStorage implements storage.ExemplarAppender and storage.ExemplarQuerier.
type ExemplarStorage interface {
ExemplarQueryable
ExemplarAppender
}
// A Queryable handles queries against a storage.
// Use it when you need to have access to all samples without chunk encoding abstraction e.g promQL.
type Queryable interface {
// Querier returns a new Querier on the storage.
Querier(mint, maxt int64) (Querier, error)
}
// A MockQueryable is used for testing purposes so that a mock Querier can be used.
type MockQueryable struct {
MockQuerier Querier
}
func (q *MockQueryable) Querier(int64, int64) (Querier, error) {
return q.MockQuerier, nil
}
// Querier provides querying access over time series data of a fixed time range.
type Querier interface {
LabelQuerier
// Select returns a set of series that matches the given label matchers.
// Caller can specify if it requires returned series to be sorted. Prefer not requiring sorting for better performance.
// It allows passing hints that can help in optimising select, but it's up to implementation how this is used if used at all.
Select(ctx context.Context, sortSeries bool, hints *SelectHints, matchers ...*labels.Matcher) SeriesSet
}
// MockQuerier is used for test purposes to mock the selected series that is returned.
type MockQuerier struct {
SelectMockFunction func(sortSeries bool, hints *SelectHints, matchers ...*labels.Matcher) SeriesSet
}
func (q *MockQuerier) LabelValues(context.Context, string, *LabelHints, ...*labels.Matcher) ([]string, annotations.Annotations, error) {
return nil, nil, nil
}
func (q *MockQuerier) LabelNames(context.Context, *LabelHints, ...*labels.Matcher) ([]string, annotations.Annotations, error) {
return nil, nil, nil
}
func (q *MockQuerier) Close() error {
return nil
}
func (q *MockQuerier) Select(_ context.Context, sortSeries bool, hints *SelectHints, matchers ...*labels.Matcher) SeriesSet {
return q.SelectMockFunction(sortSeries, hints, matchers...)
}
// A ChunkQueryable handles queries against a storage.
// Use it when you need to have access to samples in encoded format.
type ChunkQueryable interface {
// ChunkQuerier returns a new ChunkQuerier on the storage.
ChunkQuerier(mint, maxt int64) (ChunkQuerier, error)
}
// ChunkQuerier provides querying access over time series data of a fixed time range.
type ChunkQuerier interface {
LabelQuerier
// Select returns a set of series that matches the given label matchers.
// Caller can specify if it requires returned series to be sorted. Prefer not requiring sorting for better performance.
// It allows passing hints that can help in optimising select, but it's up to implementation how this is used if used at all.
Select(ctx context.Context, sortSeries bool, hints *SelectHints, matchers ...*labels.Matcher) ChunkSeriesSet
}
// LabelQuerier provides querying access over labels.
type LabelQuerier interface {
// LabelValues returns all potential values for a label name in sorted order.
// It is not safe to use the strings beyond the lifetime of the querier.
// If matchers are specified the returned result set is reduced
// to label values of metrics matching the matchers.
LabelValues(ctx context.Context, name string, hints *LabelHints, matchers ...*labels.Matcher) ([]string, annotations.Annotations, error)
// LabelNames returns all the unique label names present in the block in sorted order.
// If matchers are specified the returned result set is reduced
// to label names of metrics matching the matchers.
LabelNames(ctx context.Context, hints *LabelHints, matchers ...*labels.Matcher) ([]string, annotations.Annotations, error)
// Close releases the resources of the Querier.
Close() error
}
type ExemplarQueryable interface {
// ExemplarQuerier returns a new ExemplarQuerier on the storage.
ExemplarQuerier(ctx context.Context) (ExemplarQuerier, error)
}
// ExemplarQuerier provides reading access to time series data.
type ExemplarQuerier interface {
// Select all the exemplars that match the matchers.
// Within a single slice of matchers, it is an intersection. Between the slices, it is a union.
Select(start, end int64, matchers ...[]*labels.Matcher) ([]exemplar.QueryResult, error)
}
// SelectHints specifies hints passed for data selections.
// This is used only as an option for implementation to use.
type SelectHints struct {
Start int64 // Start time in milliseconds for this select.
End int64 // End time in milliseconds for this select.
// Maximum number of results returned. Use a value of 0 to disable.
Limit int
Step int64 // Query step size in milliseconds.
Func string // String representation of surrounding function or aggregation.
Grouping []string // List of label names used in aggregation.
By bool // Indicate whether it is without or by.
Range int64 // Range vector selector range in milliseconds.
// ShardCount is the total number of shards that series should be split into
// at query time. Then, only series in the ShardIndex shard will be returned
// by the query.
//
// ShardCount equal to 0 means that sharding is disabled.
ShardCount uint64
// ShardIndex is the series shard index to query. The index must be between 0 and ShardCount-1.
// When ShardCount is set to a value > 0, then a query will only process series within the
// ShardIndex's shard.
//
// Series are sharded by "labels stable hash" mod "ShardCount".
ShardIndex uint64
// DisableTrimming allows to disable trimming of matching series chunks based on query Start and End time.
// When disabled, the result may contain samples outside the queried time range but Select() performances
// may be improved.
DisableTrimming bool
}
// LabelHints specifies hints passed for label reads.
// This is used only as an option for implementation to use.
type LabelHints struct {
// Maximum number of results returned. Use a value of 0 to disable.
Limit int
}
// QueryableFunc is an adapter to allow the use of ordinary functions as
// Queryables. It follows the idea of http.HandlerFunc.
// TODO(bwplotka): Move to promql/engine_test.go?
type QueryableFunc func(mint, maxt int64) (Querier, error)
// Querier calls f() with the given parameters.
func (f QueryableFunc) Querier(mint, maxt int64) (Querier, error) {
return f(mint, maxt)
}
// Appender provides batched appends against a storage.
// It must be completed with a call to Commit or Rollback and must not be reused afterwards.
//
// Operations on the Appender interface are not goroutine-safe.
//
// The type of samples (float64, histogram, etc) appended for a given series must remain same within an Appender.
// The behaviour is undefined if samples of different types are appended to the same series in a single Commit().
type Appender interface {
// Append adds a sample pair for the given series.
// An optional series reference can be provided to accelerate calls.
// A series reference number is returned which can be used to add further
// samples to the given series in the same or later transactions.
// Returned reference numbers are ephemeral and may be rejected in calls
// to Append() at any point. Adding the sample via Append() returns a new
// reference number.
// If the reference is 0 it must not be used for caching.
Append(ref SeriesRef, l labels.Labels, t int64, v float64) (SeriesRef, error)
// Commit submits the collected samples and purges the batch. If Commit
// returns a non-nil error, it also rolls back all modifications made in
// the appender so far, as Rollback would do. In any case, an Appender
// must not be used anymore after Commit has been called.
Commit() error
// Rollback rolls back all modifications made in the appender so far.
// Appender has to be discarded after rollback.
Rollback() error
ExemplarAppender
HistogramAppender
MetadataUpdater
CreatedTimestampAppender
}
// GetRef is an extra interface on Appenders used by downstream projects
// (e.g. Cortex) to avoid maintaining a parallel set of references.
type GetRef interface {
// Returns reference number that can be used to pass to Appender.Append(),
// and a set of labels that will not cause another copy when passed to Appender.Append().
// 0 means the appender does not have a reference to this series.
// hash should be a hash of lset.
GetRef(lset labels.Labels, hash uint64) (SeriesRef, labels.Labels)
}
// ExemplarAppender provides an interface for adding samples to exemplar storage, which
// within Prometheus is in-memory only.
type ExemplarAppender interface {
// AppendExemplar adds an exemplar for the given series labels.
// An optional reference number can be provided to accelerate calls.
// A reference number is returned which can be used to add further
// exemplars in the same or later transactions.
// Returned reference numbers are ephemeral and may be rejected in calls
// to Append() at any point. Adding the sample via Append() returns a new
// reference number.
// If the reference is 0 it must not be used for caching.
// Note that in our current implementation of Prometheus' exemplar storage
// calls to Append should generate the reference numbers, AppendExemplar
// generating a new reference number should be considered possible erroneous behaviour and be logged.
AppendExemplar(ref SeriesRef, l labels.Labels, e exemplar.Exemplar) (SeriesRef, error)
}
// HistogramAppender provides an interface for appending histograms to the storage.
type HistogramAppender interface {
// AppendHistogram adds a histogram for the given series labels. An
// optional reference number can be provided to accelerate calls. A
// reference number is returned which can be used to add further
// histograms in the same or later transactions. Returned reference
// numbers are ephemeral and may be rejected in calls to Append() at any
// point. Adding the sample via Append() returns a new reference number.
// If the reference is 0, it must not be used for caching.
//
// For efficiency reasons, the histogram is passed as a
// pointer. AppendHistogram won't mutate the histogram, but in turn
// depends on the caller to not mutate it either.
AppendHistogram(ref SeriesRef, l labels.Labels, t int64, h *histogram.Histogram, fh *histogram.FloatHistogram) (SeriesRef, error)
// AppendHistogramCTZeroSample adds synthetic zero sample for the given ct timestamp,
// which will be associated with given series, labels and the incoming
// sample's t (timestamp). AppendHistogramCTZeroSample returns error if zero sample can't be
// appended, for example when ct is too old, or when it would collide with
// incoming sample (sample has priority).
//
// AppendHistogramCTZeroSample has to be called before the corresponding histogram AppendHistogram.
// A series reference number is returned which can be used to modify the
// CT for the given series in the same or later transactions.
// Returned reference numbers are ephemeral and may be rejected in calls
// to AppendHistogramCTZeroSample() at any point.
//
// If the reference is 0 it must not be used for caching.
AppendHistogramCTZeroSample(ref SeriesRef, l labels.Labels, t, ct int64, h *histogram.Histogram, fh *histogram.FloatHistogram) (SeriesRef, error)
}
// MetadataUpdater provides an interface for associating metadata to stored series.
type MetadataUpdater interface {
// UpdateMetadata updates a metadata entry for the given series and labels.
// A series reference number is returned which can be used to modify the
// metadata of the given series in the same or later transactions.
// Returned reference numbers are ephemeral and may be rejected in calls
// to UpdateMetadata() at any point. If the series does not exist,
// UpdateMetadata returns an error.
// If the reference is 0 it must not be used for caching.
UpdateMetadata(ref SeriesRef, l labels.Labels, m metadata.Metadata) (SeriesRef, error)
}
// CreatedTimestampAppender provides an interface for appending CT to storage.
type CreatedTimestampAppender interface {
// AppendCTZeroSample adds synthetic zero sample for the given ct timestamp,
// which will be associated with given series, labels and the incoming
// sample's t (timestamp). AppendCTZeroSample returns error if zero sample can't be
// appended, for example when ct is too old, or when it would collide with
// incoming sample (sample has priority).
//
// AppendCTZeroSample has to be called before the corresponding sample Append.
// A series reference number is returned which can be used to modify the
// CT for the given series in the same or later transactions.
// Returned reference numbers are ephemeral and may be rejected in calls
// to AppendCTZeroSample() at any point.
//
// If the reference is 0 it must not be used for caching.
AppendCTZeroSample(ref SeriesRef, l labels.Labels, t, ct int64) (SeriesRef, error)
}
// SeriesSet contains a set of series.
type SeriesSet interface {
Next() bool
// At returns full series. Returned series should be iterable even after Next is called.
At() Series
// The error that iteration as failed with.
// When an error occurs, set cannot continue to iterate.
Err() error
// A collection of warnings for the whole set.
// Warnings could be return even iteration has not failed with error.
Warnings() annotations.Annotations
}
var emptySeriesSet = errSeriesSet{}
// EmptySeriesSet returns a series set that's always empty.
func EmptySeriesSet() SeriesSet {
return emptySeriesSet
}
type testSeriesSet struct {
series Series
}
func (s testSeriesSet) Next() bool { return true }
func (s testSeriesSet) At() Series { return s.series }
func (s testSeriesSet) Err() error { return nil }
func (s testSeriesSet) Warnings() annotations.Annotations { return nil }
// TestSeriesSet returns a mock series set.
func TestSeriesSet(series Series) SeriesSet {
return testSeriesSet{series: series}
}
type errSeriesSet struct {
err error
}
func (s errSeriesSet) Next() bool { return false }
func (s errSeriesSet) At() Series { return nil }
func (s errSeriesSet) Err() error { return s.err }
func (s errSeriesSet) Warnings() annotations.Annotations { return nil }
// ErrSeriesSet returns a series set that wraps an error.
func ErrSeriesSet(err error) SeriesSet {
return errSeriesSet{err: err}
}
var emptyChunkSeriesSet = errChunkSeriesSet{}
// EmptyChunkSeriesSet returns a chunk series set that's always empty.
func EmptyChunkSeriesSet() ChunkSeriesSet {
return emptyChunkSeriesSet
}
type errChunkSeriesSet struct {
err error
}
func (s errChunkSeriesSet) Next() bool { return false }
func (s errChunkSeriesSet) At() ChunkSeries { return nil }
func (s errChunkSeriesSet) Err() error { return s.err }
func (s errChunkSeriesSet) Warnings() annotations.Annotations { return nil }
// ErrChunkSeriesSet returns a chunk series set that wraps an error.
func ErrChunkSeriesSet(err error) ChunkSeriesSet {
return errChunkSeriesSet{err: err}
}
// Series exposes a single time series and allows iterating over samples.
type Series interface {
Labels
SampleIterable
}
type mockSeries struct {
timestamps []int64
values []float64
labelSet []string
}
func (s mockSeries) Labels() labels.Labels {
return labels.FromStrings(s.labelSet...)
}
func (s mockSeries) Iterator(chunkenc.Iterator) chunkenc.Iterator {
return chunkenc.MockSeriesIterator(s.timestamps, s.values)
}
// MockSeries returns a series with custom timestamps, values and labelSet.
func MockSeries(timestamps []int64, values []float64, labelSet []string) Series {
return mockSeries{
timestamps: timestamps,
values: values,
labelSet: labelSet,
}
}
// ChunkSeriesSet contains a set of chunked series.
type ChunkSeriesSet interface {
Next() bool
// At returns full chunk series. Returned series should be iterable even after Next is called.
At() ChunkSeries
// The error that iteration has failed with.
// When an error occurs, set cannot continue to iterate.
Err() error
// A collection of warnings for the whole set.
// Warnings could be return even iteration has not failed with error.
Warnings() annotations.Annotations
}
// ChunkSeries exposes a single time series and allows iterating over chunks.
type ChunkSeries interface {
Labels
ChunkIterable
}
// Labels represents an item that has labels e.g. time series.
type Labels interface {
// Labels returns the complete set of labels. For series it means all labels identifying the series.
Labels() labels.Labels
}
type SampleIterable interface {
// Iterator returns an iterator of the data of the series.
// The iterator passed as argument is for re-use, if not nil.
// Depending on implementation, the iterator can
// be re-used or a new iterator can be allocated.
Iterator(chunkenc.Iterator) chunkenc.Iterator
}
type ChunkIterable interface {
// Iterator returns an iterator that iterates over potentially overlapping
// chunks of the series, sorted by min time.
Iterator(chunks.Iterator) chunks.Iterator
}