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/*
 * Copyright The OpenZipkin Authors
 * SPDX-License-Identifier: Apache-2.0
 */
package zipkin2.collector;

import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.Executor;
import java.util.function.Supplier;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import zipkin2.Callback;
import zipkin2.Span;
import zipkin2.SpanBytesDecoderDetector;
import zipkin2.codec.BytesDecoder;
import zipkin2.codec.SpanBytesDecoder;
import zipkin2.storage.StorageComponent;

import static zipkin2.Call.propagateIfFatal;

/**
 * This component takes action on spans received from a transport. This includes deserializing,
 * sampling and scheduling for storage.
 *
 * 

Callbacks passed do not propagate to the storage layer. They only return success or failures * before storage is attempted. This ensures that calling threads are disconnected from storage * threads. */ public class Collector { // not final for mock static final Callback NOOP_CALLBACK = new Callback() { @Override public void onSuccess(Void value) { } @Override public void onError(Throwable t) { } }; /** Needed to scope this to the correct logging category */ public static Builder newBuilder(Class loggingClass) { if (loggingClass == null) throw new NullPointerException("loggingClass == null"); return new Builder(LoggerFactory.getLogger(loggingClass.getName())); } public static final class Builder { final Logger logger; StorageComponent storage; CollectorSampler sampler; CollectorMetrics metrics; Builder(Logger logger) { this.logger = logger; } /** Sets {@link {@link CollectorComponent.Builder#storage(StorageComponent)}} */ public Builder storage(StorageComponent storage) { if (storage == null) throw new NullPointerException("storage == null"); this.storage = storage; return this; } /** Sets {@link {@link CollectorComponent.Builder#metrics(CollectorMetrics)}} */ public Builder metrics(CollectorMetrics metrics) { if (metrics == null) throw new NullPointerException("metrics == null"); this.metrics = metrics; return this; } /** Sets {@link {@link CollectorComponent.Builder#sampler(CollectorSampler)}} */ public Builder sampler(CollectorSampler sampler) { if (sampler == null) throw new NullPointerException("sampler == null"); this.sampler = sampler; return this; } public Collector build() { return new Collector(this); } } final Logger logger; final CollectorMetrics metrics; final CollectorSampler sampler; final StorageComponent storage; Collector(Builder builder) { if (builder.logger == null) throw new NullPointerException("logger == null"); this.logger = builder.logger; this.metrics = builder.metrics == null ? CollectorMetrics.NOOP_METRICS : builder.metrics; if (builder.storage == null) throw new NullPointerException("storage == null"); this.storage = builder.storage; this.sampler = builder.sampler == null ? CollectorSampler.ALWAYS_SAMPLE : builder.sampler; } public void accept(List spans, Callback callback) { accept(spans, callback, Runnable::run); } /** * Calls to get the storage component could be blocking. This ensures requests that block * callers (such as http or gRPC) do not add additional load during such events. * * @param executor the executor used to enqueue the storage request. */ public void accept(List spans, Callback callback, Executor executor) { if (spans.isEmpty()) { callback.onSuccess(null); return; } metrics.incrementSpans(spans.size()); List sampledSpans = sample(spans); if (sampledSpans.isEmpty()) { callback.onSuccess(null); return; } // In order to ensure callers are not blocked, we swap callbacks when we get to the storage // phase of this process. Here, we create a callback whose sole purpose is classifying later // errors on this bundle of spans in the same log category. This allows people to only turn on // debug logging in one place. try { executor.execute(new StoreSpans(sampledSpans)); callback.onSuccess(null); } catch (Throwable unexpected) { // ensure if a future is supplied we always set value or error callback.onError(unexpected); throw unexpected; } } /** Like {@link #acceptSpans(byte[], BytesDecoder, Callback)}, except using a byte buffer. */ public void acceptSpans(ByteBuffer encoded, SpanBytesDecoder decoder, Callback callback, Executor executor) { List spans; try { spans = decoder.decodeList(encoded); } catch (RuntimeException | Error e) { handleDecodeError(e, callback); return; } accept(spans, callback, executor); } /** * Before calling this, call {@link CollectorMetrics#incrementMessages()}, and {@link * CollectorMetrics#incrementBytes(int)}. Do not call any other metrics callbacks as those are * handled internal to this method. * * @param serialized not empty message */ public void acceptSpans(byte[] serialized, Callback callback) { BytesDecoder decoder; try { decoder = SpanBytesDecoderDetector.decoderForListMessage(serialized); } catch (RuntimeException | Error e) { handleDecodeError(e, callback); return; } acceptSpans(serialized, decoder, callback); } /** * Before calling this, call {@link CollectorMetrics#incrementMessages()}, and {@link * CollectorMetrics#incrementBytes(int)}. Do not call any other metrics callbacks as those are * handled internal to this method. * * @param serializedSpans not empty message */ public void acceptSpans( byte[] serializedSpans, BytesDecoder decoder, Callback callback) { List spans; try { spans = decodeList(decoder, serializedSpans); } catch (RuntimeException | Error e) { handleDecodeError(e, callback); return; } accept(spans, callback); } List decodeList(BytesDecoder decoder, byte[] serialized) { List out = new ArrayList<>(); decoder.decodeList(serialized, out); return out; } void store(List sampledSpans, Callback callback) { storage.spanConsumer().accept(sampledSpans).enqueue(callback); } String idString(Span span) { return span.traceId() + "/" + span.id(); } List sample(List input) { List sampled = new ArrayList<>(input.size()); for (int i = 0, length = input.size(); i < length; i++) { Span s = input.get(i); if (sampler.isSampled(s.traceId(), Boolean.TRUE.equals(s.debug()))) { sampled.add(s); } } int dropped = input.size() - sampled.size(); if (dropped > 0) metrics.incrementSpansDropped(dropped); return sampled; } class StoreSpans implements Callback, Runnable { final List spans; StoreSpans(List spans) { this.spans = spans; } @Override public void run() { try { store(spans, this); } catch (RuntimeException | Error e) { // While unexpected, invoking the storage command could raise an error synchronously. When // that's the case, we wouldn't have invoked callback.onSuccess, so we need to handle the // error here. onError(e); } } @Override public void onSuccess(Void value) { } @Override public void onError(Throwable t) { handleStorageError(spans, t, NOOP_CALLBACK); } @Override public String toString() { return appendSpanIds(spans, new StringBuilder("StoreSpans(")) + ")"; } } void handleDecodeError(Throwable e, Callback callback) { metrics.incrementMessagesDropped(); handleError(e, "Cannot decode spans"::toString, callback); } /** * When storing spans, an exception can be raised before or after the fact. This adds context of * span ids to give logs more relevance. */ void handleStorageError(List spans, Throwable e, Callback callback) { metrics.incrementSpansDropped(spans.size()); // The exception could be related to a span being huge. Instead of filling logs, // print trace id, span id pairs handleError(e, () -> appendSpanIds(spans, new StringBuilder("Cannot store spans ")), callback); } void handleError(Throwable e, Supplier defaultLogMessage, Callback callback) { propagateIfFatal(e); callback.onError(e); if (!logger.isDebugEnabled()) return; String error = e.getMessage() != null ? e.getMessage() : ""; // We have specific code that customizes log messages. Use this when the case. if (error.startsWith("Malformed") || error.startsWith("Truncated")) { logger.debug(error, e); } else { // otherwise, beautify the message String message = "%s due to %s(%s)".formatted(defaultLogMessage.get(), e.getClass().getSimpleName(), error); logger.debug(message, e); } } // TODO: this logic needs to be redone as service names are more important than span IDs. Also, // span IDs repeat between client and server! String appendSpanIds(List spans, StringBuilder message) { message.append("["); int i = 0; Iterator iterator = spans.iterator(); while (iterator.hasNext() && i++ < 3) { message.append(idString(iterator.next())); if (iterator.hasNext()) message.append(", "); } if (iterator.hasNext()) message.append("..."); return message.append("]").toString(); } }





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