mirror of
https://github.com/ceph/ceph-csi.git
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aa698bc3e1
Kubernetes v1.22 version has been released and this update ceph csi dependencies to use the same version. Signed-off-by: Humble Chirammal <hchiramm@redhat.com>
142 lines
6.8 KiB
Go
142 lines
6.8 KiB
Go
// Copyright The OpenTelemetry Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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/*
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Package metric implements the OpenTelemetry metric API.
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This package is currently in a pre-GA phase. Backwards incompatible changes
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may be introduced in subsequent minor version releases as we work to track the
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evolving OpenTelemetry specification and user feedback.
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The Accumulator type supports configurable metrics export behavior through a
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collection of export interfaces that support various export strategies,
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described below.
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The OpenTelemetry metric API consists of methods for constructing synchronous
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and asynchronous instruments. There are two constructors per instrument for
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the two kinds of number (int64, float64).
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Synchronous instruments are managed by a sync.Map containing a *record
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with the current state for each synchronous instrument. A bound
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instrument encapsulates a direct pointer to the record, allowing
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bound metric events to bypass a sync.Map lookup. A lock-free
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algorithm is used to protect against races when adding and removing
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items from the sync.Map.
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Asynchronous instruments are managed by an internal
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AsyncInstrumentState, which coordinates calling batch and single
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instrument callbacks.
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Internal Structure
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Each observer also has its own kind of record stored in the SDK. This
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record contains a set of recorders for every specific label set used in the
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callback.
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A sync.Map maintains the mapping of current instruments and label sets to
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internal records. To create a new bound instrument, the SDK consults the Map to
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locate an existing record, otherwise it constructs a new record. The SDK
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maintains a count of the number of references to each record, ensuring
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that records are not reclaimed from the Map while they are still active
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from the user's perspective.
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Metric collection is performed via a single-threaded call to Collect that
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sweeps through all records in the SDK, checkpointing their state. When a
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record is discovered that has no references and has not been updated since
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the prior collection pass, it is removed from the Map.
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Both synchronous and asynchronous instruments have an associated
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aggregator, which maintains the current state resulting from all metric
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events since its last checkpoint. Aggregators may be lock-free or they may
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use locking, but they should expect to be called concurrently. Aggregators
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must be capable of merging with another aggregator of the same type.
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Export Pipeline
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While the SDK serves to maintain a current set of records and
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coordinate collection, the behavior of a metrics export pipeline is
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configured through the export types in
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go.opentelemetry.io/otel/sdk/export/metric. It is important to keep
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in mind the context these interfaces are called from. There are two
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contexts, instrumentation context, where a user-level goroutine that
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enters the SDK resulting in a new record, and collection context,
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where a system-level thread performs a collection pass through the
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SDK.
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Descriptor is a struct that describes the metric instrument to the
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export pipeline, containing the name, units, description, metric kind,
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number kind (int64 or float64). A Descriptor accompanies metric data
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as it passes through the export pipeline.
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The AggregatorSelector interface supports choosing the method of
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aggregation to apply to a particular instrument, by delegating the
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construction of an Aggregator to this interface. Given the Descriptor,
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the AggregatorFor method returns an implementation of Aggregator. If this
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interface returns nil, the metric will be disabled. The aggregator should
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be matched to the capabilities of the exporter. Selecting the aggregator
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for Adding instruments is relatively straightforward, but many options
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are available for aggregating distributions from Grouping instruments.
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Aggregator is an interface which implements a concrete strategy for
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aggregating metric updates. Several Aggregator implementations are
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provided by the SDK. Aggregators may be lock-free or use locking,
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depending on their structure and semantics. Aggregators implement an
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Update method, called in instrumentation context, to receive a single
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metric event. Aggregators implement a Checkpoint method, called in
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collection context, to save a checkpoint of the current state.
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Aggregators implement a Merge method, also called in collection
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context, that combines state from two aggregators into one. Each SDK
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record has an associated aggregator.
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Processor is an interface which sits between the SDK and an exporter.
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The Processor embeds an AggregatorSelector, used by the SDK to assign
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new Aggregators. The Processor supports a Process() API for submitting
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checkpointed aggregators to the processor, and a CheckpointSet() API
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for producing a complete checkpoint for the exporter. Two default
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Processor implementations are provided, the "defaultkeys" Processor groups
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aggregate metrics by their recommended Descriptor.Keys(), the
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"simple" Processor aggregates metrics at full dimensionality.
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LabelEncoder is an optional optimization that allows an exporter to
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provide the serialization logic for labels. This allows avoiding
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duplicate serialization of labels, once as a unique key in the SDK (or
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Processor) and once in the exporter.
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CheckpointSet is an interface between the Processor and the Exporter.
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After completing a collection pass, the Processor.CheckpointSet() method
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returns a CheckpointSet, which the Exporter uses to iterate over all
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the updated metrics.
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Record is a struct containing the state of an individual exported
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metric. This is the result of one collection interface for one
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instrument and one label set.
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Labels is a struct containing an ordered set of labels, the
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corresponding unique encoding, and the encoder that produced it.
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Exporter is the final stage of an export pipeline. It is called with
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a CheckpointSet capable of enumerating all the updated metrics.
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Controller is not an export interface per se, but it orchestrates the
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export pipeline. For example, a "push" controller will establish a
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periodic timer to regularly collect and export metrics. A "pull"
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controller will await a pull request before initiating metric
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collection. Either way, the job of the controller is to call the SDK
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Collect() method, then read the checkpoint, then invoke the exporter.
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Controllers are expected to implement the public metric.MeterProvider
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API, meaning they can be installed as the global Meter provider.
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*/
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package metric // import "go.opentelemetry.io/otel/sdk/metric"
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