我使用的是侦探2.0.x,我想添加自己的跟踪ID。
我想修改跟踪代码如下: - public static final String TAG_NAME =" X-B3-CONVID&#34 ;;
@Bean
@Order(TraceWebServletAutoConfiguration.TRACING_FILTER_ORDER + 1)
public GenericFilterBean customTraceFilter(final Tracer tracer) {
return new GenericFilterBean() {
@Override
public void doFilter(ServletRequest servletRequest, ServletResponse servletResponse,
FilterChain filterChain) throws IOException, ServletException {
Span span = tracer.currentSpan();
String existingConversationId = span.getBaggage().get(TAG_NAME.toLowerCase());
if(existingConversationId == null){
existingConversationId = UUID.randomUUID().toString();
span. setBaggageItem(TAG_NAME, existingConversationId);
}
tracer.addTag(TAG_NAME, existingConversationId);
MDC.put(TAG_NAME, existingConversationId);
tracer.continueSpan(span);
filterChain.doFilter(servletRequest, servletResponse);
}
};
}
但是从Sleuth 2.0.x中删除了一些函数,例如 continueSpan,addTag,getBaggage 。
X-B3-CONVID的任何例子?
答案 0 :(得分:2)
这里有一个AWS with Brave的示例,它使用不同的跟踪标识符 - https://github.com/openzipkin/zipkin-aws/blob/release-0.11.2/brave-propagation-aws/src/main/java/brave/propagation/aws/AWSPropagation.java
我正在复制代码,因为发生了指向链接的答案未被接受
/*
* Copyright 2016-2018 The OpenZipkin 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 brave.propagation.aws;
import brave.Tracing;
import brave.internal.Nullable;
import brave.propagation.ExtraFieldPropagation;
import brave.propagation.Propagation;
import brave.propagation.SamplingFlags;
import brave.propagation.TraceContext;
import brave.propagation.TraceContextOrSamplingFlags;
import brave.propagation.TraceIdContext;
import java.util.Collections;
import java.util.List;
import static brave.internal.HexCodec.writeHexByte;
import static brave.internal.HexCodec.writeHexLong;
/**
* Utility for working with Amazon Web Services Trace IDs, for example reading from headers or
* environment variables. {@code x-amzn-trace-id} is primarily for Amazon's X-Ray service, but it is
* also integrated with AWS ALB, API Gateway and Lambda.
*
* <p>For example, if you are in a lambda environment, you can read the incoming context like this:
*
* <pre>{@code
* span = tracer.nextSpan(AWSPropagation.extractLambda());
* }</pre>
*
* <h3>Details</h3>
*
* {@code x-amzn-trace-id} (and the lambda equivalent {@code _X_AMZN_TRACE_ID}) follows RFC 6265
* style syntax (https://tools.ietf.org/html/rfc6265#section-2.2): fields are split on semicolon and
* optional whitespace.
*
* <p>Description of the {@code Root} (or {@code Self}) field from AWS CLI help:
*
* <p>A trace_id consists of three numbers separated by hyphens. For example, {@code
* 1-58406520-a006649127e371903a2de979}. This includes:
*
* <pre>
* <ul>
* <li>The version number, i.e. 1</li>
* <li>The time of the original request, in Unix epoch time, in 8 hexadecimal digits. For example,
* 10:00AM December 2nd, 2016 PST in epoch timeis 1480615200 seconds, or 58406520 in
* hexadecimal.</li>
* <li>A 96-bit identifier for the trace, globally unique, in 24 hexadecimal digits.</li>
* </ul>
* </pre>
*/
public final class AWSPropagation<K> implements Propagation<K> {
public static final Propagation.Factory FACTORY =
new Propagation.Factory() {
@Override
public <K> Propagation<K> create(KeyFactory<K> keyFactory) {
return new AWSPropagation<>(keyFactory);
}
@Override
public boolean requires128BitTraceId() {
return true;
}
@Override
public String toString() {
return "AWSPropagationFactory";
}
};
// Using lowercase field name as http is case-insensitive, but http/2 transport downcases */
static final String TRACE_ID_NAME = "x-amzn-trace-id";
static final char[] ROOT = "Root=".toCharArray();
static final char[] PARENT = ";Parent=".toCharArray();
static final char[] SAMPLED = ";Sampled=".toCharArray();
public static final int ROOT_LENGTH = 35;
final K traceIdKey;
final List<K> fields;
AWSPropagation(KeyFactory<K> keyFactory) {
this.traceIdKey = keyFactory.create(TRACE_ID_NAME);
this.fields = Collections.singletonList(traceIdKey);
}
/** returns the name of the header field: "x-amzn-trace-id" */
@Override
public List<K> keys() {
return fields;
}
@Override
public <C> TraceContext.Injector<C> injector(Setter<C, K> setter) {
if (setter == null) throw new NullPointerException("setter == null");
return new AWSInjector<>(this, setter);
}
static final class AWSInjector<C, K> implements TraceContext.Injector<C> {
final AWSPropagation<K> propagation;
final Setter<C, K> setter;
AWSInjector(AWSPropagation<K> propagation, Setter<C, K> setter) {
this.propagation = propagation;
this.setter = setter;
}
/**
* This version of propagation contains at least 74 characters corresponding to identifiers and
* the sampling bit. It will also include extra fields where present.
*
* <p>Ex 74 characters: {@code
* Root=1-67891233-abcdef012345678912345678;Parent=463ac35c9f6413ad;Sampled=1}
*
* <p>{@inheritDoc}
*/
@Override
public void inject(TraceContext traceContext, C carrier) {
CharSequence extra = null;
for (int i = 0, length = traceContext.extra().size(); i < length; i++) {
Object next = traceContext.extra().get(i);
if (next instanceof Extra) {
extra = ((Extra) next).fields;
break;
}
}
int extraLength = extra == null ? 0 : extra.length();
// Root=1-67891233-abcdef012345678912345678;Parent=463ac35c9f6413ad;Sampled=1
char[] result = new char[74 + extraLength];
System.arraycopy(ROOT, 0, result, 0, 5);
writeRoot(traceContext, result, 5);
System.arraycopy(PARENT, 0, result, 40, 8);
writeHexLong(result, 48, traceContext.spanId());
System.arraycopy(SAMPLED, 0, result, 64, 9);
Boolean sampled = traceContext.sampled();
// Sampled status is same as B3, but ? means downstream decides (like omitting X-B3-Sampled)
// https://github.com/aws/aws-xray-sdk-go/blob/391885218b556c43ed05a1e736a766d70fc416f1/header/header.go#L50
result[73] = sampled == null ? '?' : sampled ? '1' : '0';
for (int i = 0; i < extraLength; i++) {
result[i + 74] = extra.charAt(i);
}
setter.put(carrier, propagation.traceIdKey, new String(result));
}
}
/** Returns the current {@link #traceId(TraceContext)} or null if not available */
@Nullable
public static String currentTraceId() {
Tracing tracing = Tracing.current();
if (tracing == null) return null;
TraceContext context = tracing.currentTraceContext().get();
if (context == null) return null;
return traceId(context);
}
/**
* Used for log correlation or {@link brave.Span#tag(String, String) tag values}
*
* @return a formatted Root field like "1-58406520-a006649127e371903a2de979" or null if the
* context was not created from an instance of {@link AWSPropagation}.
*/
@Nullable
public static String traceId(TraceContext context) {
for (int i = 0, length = context.extra().size(); i < length; i++) {
Object next = context.extra().get(i);
if (next instanceof Extra) {
char[] result = new char[ROOT_LENGTH];
writeRoot(context, result, 0);
return new String(result);
}
}
// See if we have the field as a pass-through
String maybeHeader = ExtraFieldPropagation.get(context, TRACE_ID_NAME);
if (maybeHeader == null) return null;
int i = maybeHeader.indexOf("Root=");
if (i == -1) return null;
i += 5; // Root=
if (maybeHeader.length() < i + ROOT_LENGTH) return null;
return maybeHeader.substring(i, i + ROOT_LENGTH);
}
/** Writes 35 characters representing the input trace ID to the buffer at the given offset */
static void writeRoot(TraceContext context, char[] result, int offset) {
result[offset] = '1'; // version
result[offset + 1] = '-'; // delimiter
long high = context.traceIdHigh();
writeHexByte(result, offset + 2, (byte) ((high >>> 56L) & 0xff));
writeHexByte(result, offset + 4, (byte) ((high >>> 48L) & 0xff));
writeHexByte(result, offset + 6, (byte) ((high >>> 40L) & 0xff));
writeHexByte(result, offset + 8, (byte) ((high >>> 32L) & 0xff));
result[offset + 10] = '-';
writeHexByte(result, offset + 11, (byte) ((high >>> 24L) & 0xff));
writeHexByte(result, offset + 13, (byte) ((high >>> 16L) & 0xff));
writeHexByte(result, offset + 15, (byte) ((high >>> 8L) & 0xff));
writeHexByte(result, offset + 17, (byte) (high & 0xff));
writeHexLong(result, offset + 19, context.traceId());
}
@Override
public <C> TraceContext.Extractor<C> extractor(Getter<C, K> getter) {
if (getter == null) throw new NullPointerException("getter == null");
return new AWSExtractor<>(this, getter);
}
static final AWSExtractor<String, String> STRING_EXTRACTOR =
new AWSExtractor<>(
new AWSPropagation<>(KeyFactory.STRING),
new Getter<String, String>() {
@Override
public String get(String carrier, String key) {
return carrier;
}
});
/**
* This is used for extracting from the AWS lambda environment variable {@code _X_AMZN_TRACE_ID}.
*
* @see #extract(String)
*/
public static TraceContextOrSamplingFlags extractLambda() {
return STRING_EXTRACTOR.extract(System.getenv("_X_AMZN_TRACE_ID"));
}
/** Like {@link TraceContext.Extractor#extract(Object)} except reading from a single field. */
public static TraceContextOrSamplingFlags extract(String amznTraceId) {
if (amznTraceId == null) return EMPTY;
return STRING_EXTRACTOR.extract(amznTraceId);
}
static final class AWSExtractor<C, K> implements TraceContext.Extractor<C> {
final AWSPropagation<K> propagation;
final Getter<C, K> getter;
AWSExtractor(AWSPropagation<K> propagation, Getter<C, K> getter) {
this.propagation = propagation;
this.getter = getter;
}
enum Op {
SKIP,
ROOT,
PARENT,
SAMPLED,
EXTRA
}
@Override
public TraceContextOrSamplingFlags extract(C carrier) {
if (carrier == null) throw new NullPointerException("carrier == null");
String traceIdString = getter.get(carrier, propagation.traceIdKey);
if (traceIdString == null) return EMPTY;
Boolean sampled = null;
long traceIdHigh = 0L, traceId = 0L;
Long parent = null;
StringBuilder currentString = new StringBuilder(7 /* Sampled.length */), extraFields = null;
Op op = null;
OUTER:
for (int i = 0, length = traceIdString.length(); i < length; i++) {
char c = traceIdString.charAt(i);
if (c == ' ') continue; // trim whitespace
if (c == '=') { // we reached a field name
if (++i == length) break; // skip '=' character
if (currentString.indexOf("Root") == 0) {
op = Op.ROOT;
} else if (currentString.indexOf("Parent") == 0) {
op = Op.PARENT;
} else if (currentString.indexOf("Sampled") == 0) {
op = Op.SAMPLED;
} else if (currentString.indexOf("Self") == 0) {
// ALB implements Trace ID chaining using self so that customers not using X-Ray
// (I.e. request logs) can do the correlation themselves. We drop these
op = Op.SKIP;
} else {
op = Op.EXTRA;
if (extraFields == null) extraFields = new StringBuilder();
extraFields.append(';').append(currentString);
}
currentString.setLength(0);
} else if (op == null) {
currentString.append(c);
continue;
}
// no longer whitespace
switch (op) {
case EXTRA:
extraFields.append(c);
while (i < length && (c = traceIdString.charAt(i)) != ';') {
extraFields.append(c);
i++;
}
break;
case SKIP:
while (++i < length && traceIdString.charAt(i) != ';') {
// skip until we hit a delimiter
}
break;
case ROOT:
if (i + ROOT_LENGTH > length // 35 = length of 1-67891233-abcdef012345678912345678
|| traceIdString.charAt(i++) != '1'
|| traceIdString.charAt(i++) != '-') {
break OUTER; // invalid version or format
}
// Parse the epoch seconds and high 32 of the 96 bit trace ID into traceID high
for (int hyphenIndex = i + 8, endIndex = hyphenIndex + 1 + 8; i < endIndex; i++) {
c = traceIdString.charAt(i);
if (c == '-' && i == hyphenIndex) continue; // skip delimiter between epoch and random
traceIdHigh <<= 4;
if (c >= '0' && c <= '9') {
traceIdHigh |= c - '0';
} else if (c >= 'a' && c <= 'f') {
traceIdHigh |= c - 'a' + 10;
} else {
break OUTER; // invalid format
}
}
// Parse the low 64 of the 96 bit trace ID into traceId
for (int endIndex = i + 16; i < endIndex; i++) {
c = traceIdString.charAt(i);
traceId <<= 4;
if (c >= '0' && c <= '9') {
traceId |= c - '0';
} else if (c >= 'a' && c <= 'f') {
traceId |= c - 'a' + 10;
} else {
break OUTER; // invalid format
}
}
break;
case PARENT:
long parentId = 0L;
for (int endIndex = i + 16; i < endIndex; i++) {
c = traceIdString.charAt(i);
parentId <<= 4;
if (c >= '0' && c <= '9') {
parentId |= c - '0';
} else if (c >= 'a' && c <= 'f') {
parentId |= c - 'a' + 10;
} else {
break OUTER; // invalid format
}
}
parent = parentId;
break;
case SAMPLED:
c = traceIdString.charAt(i++);
if (c == '1') {
sampled = true;
} else if (c == '0') {
sampled = false;
}
break;
}
op = null;
}
List<Object> extra;
if (extraFields == null) {
extra = DEFAULT_EXTRA;
} else {
Extra e = new Extra();
e.fields = extraFields;
extra = Collections.singletonList(e);
}
if (traceIdHigh == 0L) { // traceIdHigh cannot be null, so just return sampled
return TraceContextOrSamplingFlags.newBuilder()
.extra(extra)
.samplingFlags(SamplingFlags.Builder.build(sampled))
.build();
} else if (parent == null) {
return TraceContextOrSamplingFlags.newBuilder()
.extra(extra)
.traceIdContext(
TraceIdContext.newBuilder()
.traceIdHigh(traceIdHigh)
.traceId(traceId)
.sampled(sampled)
.build())
.build();
}
return TraceContextOrSamplingFlags.create(
TraceContext.newBuilder()
.traceIdHigh(traceIdHigh)
.traceId(traceId)
.spanId(parent)
.sampled(sampled)
.extra(extra)
.build());
}
}
/** When present, this context was created with AWSPropagation */
static final Extra MARKER = new Extra();
static final List<Object> DEFAULT_EXTRA = Collections.singletonList(MARKER);
static final TraceContextOrSamplingFlags EMPTY =
TraceContextOrSamplingFlags.EMPTY.toBuilder().extra(DEFAULT_EXTRA).build();
static final class Extra { // hidden intentionally
CharSequence fields;
@Override
public String toString() {
return "AWSPropagation{" + (fields != null ? ("fields=" + fields.toString()) : "") + "}";
}
}
}