apache-skywalking-apm-10.1.0使用

apache-skywalking-apm-10.1.0使用

本文主要介绍如何使用apache-skywalking-apm-10.1.0，同时配合elasticsearch-8.17.0-windows-x86_64来作为存储 es持久化数据使用。

步骤如下：

一、下载elasticsearch-8.17.0-windows-x86_64

1、下载ES(elasticsearch 简称 ES 下载链接：https://www.elastic.co/downloads/elasticsearch)

ES 下载链接：https://artifacts.elastic.co/downloads/elasticsearch/elasticsearch-8.17.0-windows-x86_64.zip))，需要在修改ES配置，进入ES解压以后的文件下的config目录，找到elasticsearch.yml，打开后修改自己需要的配置，可以参考ES elasticsearch-8.17.0-windows-x86_64使用 - 龙骑科技 - 博客园

二、下载skywalking

下载地址：https://skywalking.apache.org/downloads/，之后再解压，如下：

下载之后解压

三、安装jdk21

elasticsearch-8.17.0自带的jdk23版本过高，skywalking-v10.1.0无法使用。需要skywalking-v10.1.0最高支持jdk21，所以需要下载对应版本的jdk，即下载jdk21，下载地址：Archived OpenJDK GA Releases，java环境配置参考：自学[vue+SpringCloud]-002-配置本机java环境_springcloud vue搭建-CSDN博客

可以从 Oracle 的 JDK 下载页面 或者使用 AdoptOpenJDK 等其他来源下载和安装。如果是安装包，则安装完成后，你可以使用以下命令 java -version，在命令提示符中确认 JDK 是否安装成功，

如果绿色版本的https://download.java.net/java/GA/jdk21.0.2/f2283984656d49d69e91c558476027ac/13/GPL/openjdk-21.0.2_windows-x64_bin.zip，只需要解压道指定目录即可，

本文采用的是绿色版本的，https://download.java.net/java/GA/jdk21.0.2/f2283984656d49d69e91c558476027ac/13/GPL/openjdk-21.0.2_windows-x64_bin.zip下载的。

1、配置 JAVA_HOME 环境变量
1.1 设置 JAVA_HOME
        打开系统属性：

       右键点击桌面的“此电脑”图标，选择“属性”。
       在打开的窗口左侧，点击“高级系统设置”。
1.2 打开环境变量设置：

      在“系统属性”窗口中，点击“高级”选项卡下的“环境变量”按钮。
      添加 JAVA_HOME：

     在环境变量窗口中，在“系统变量”下点击“新建”按钮。
      在“变量名”中输入 JAVA_HOME，在“变量值”中输入 JDK 的安装路径，例如 C:\Program Files\Java\jdk-17。本文采用绿色版本，解压目录为D:\soft\java\openjdk-21.0.2_windows-x64_bin\jdk-21.0.2

2、 配置 PATH 变量
编辑 PATH 变量：
在“系统变量”下找到 Path，选择并点击“编辑”按钮。
在“编辑环境变量”窗口中，点击“新建”，然后添加 %JAVA_HOME%\bin。

3、 验证配置
配置完成后，打开新的命令提示符窗口，运行以下命令验证：

echo %JAVA_HOME%
它应该输出你设置的 JDK 路径。你还可以运行 java -version 和 javac -version 以确保 Java 和 Java 编译器的版本正确。

多 JDK 版本切换（可选）

如果你有多个 JDK 版本安装并需要切换，可以通过修改 JAVA_HOME 变量的值来实现。你可以手动更改，或者编写一个批处理脚本来快速切换。

例如，创建一个批处理文件 switchJDK.bat，内容如下：

@echo off
setlocal
set JDK8="C:\Program Files\Java\jdk1.8.0_271"
set JDK11="C:\Program Files\Java\jdk-11.0.9"
set JDK17="C:\Program Files\Java\jdk-17"

if "%1"=="8" (
    set JAVA_HOME=%JDK8%
) else if "%1"=="11" (
    set JAVA_HOME=%JDK11%
) else if "%1"=="17" (
    set JAVA_HOME=%JDK17%
) else (
    echo Invalid JDK version
    exit /b 1
)

setx JAVA_HOME "%JAVA_HOME%"
echo JAVA_HOME set to %JAVA_HOME%

endlocal

使用此脚本切换 JDK 版本时，只需在命令提示符中运行：

switchJDK 8  // 切换到 JDK 8
switchJDK 11 // 切换到 JDK 11
switchJDK 17 // 切换到 JDK 17

这样可以方便地在不同版本的 JDK 之间切换。

四、修改配置apache-skywalking-apm-10.1.0

修改collector收集器 配置文件D:\Temp\1\apache-skywalking-apm-bin\config

1、修改application.yml

# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements.  See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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.

cluster:
  selector: ${SW_CLUSTER:standalone}
  standalone:
  # Please check your ZooKeeper is 3.5+, However, it is also compatible with ZooKeeper 3.4.x. Replace the ZooKeeper 3.5+
  # library the oap-libs folder with your ZooKeeper 3.4.x library.
  zookeeper:
    namespace: ${SW_NAMESPACE:""}
    hostPort: ${SW_CLUSTER_ZK_HOST_PORT:localhost:2181}
    # Retry Policy
    baseSleepTimeMs: ${SW_CLUSTER_ZK_SLEEP_TIME:1000} # initial amount of time to wait between retries
    maxRetries: ${SW_CLUSTER_ZK_MAX_RETRIES:3} # max number of times to retry
    # Enable ACL
    enableACL: ${SW_ZK_ENABLE_ACL:false} # disable ACL in default
    schema: ${SW_ZK_SCHEMA:digest} # only support digest schema
    expression: ${SW_ZK_EXPRESSION:skywalking:skywalking}
    internalComHost: ${SW_CLUSTER_INTERNAL_COM_HOST:""}
    internalComPort: ${SW_CLUSTER_INTERNAL_COM_PORT:-1}
  kubernetes:
    namespace: ${SW_CLUSTER_K8S_NAMESPACE:default}
    labelSelector: ${SW_CLUSTER_K8S_LABEL:app=collector,release=skywalking}
    uidEnvName: ${SW_CLUSTER_K8S_UID:SKYWALKING_COLLECTOR_UID}
  consul:
    serviceName: ${SW_SERVICE_NAME:"SkyWalking_OAP_Cluster"}
    # Consul cluster nodes, example: 10.0.0.1:8500,10.0.0.2:8500,10.0.0.3:8500
    hostPort: ${SW_CLUSTER_CONSUL_HOST_PORT:localhost:8500}
    aclToken: ${SW_CLUSTER_CONSUL_ACLTOKEN:""}
    internalComHost: ${SW_CLUSTER_INTERNAL_COM_HOST:""}
    internalComPort: ${SW_CLUSTER_INTERNAL_COM_PORT:-1}
  etcd:
    # etcd cluster nodes, example: 10.0.0.1:2379,10.0.0.2:2379,10.0.0.3:2379
    endpoints: ${SW_CLUSTER_ETCD_ENDPOINTS:localhost:2379}
    namespace: ${SW_CLUSTER_ETCD_NAMESPACE:/skywalking}
    serviceName: ${SW_CLUSTER_ETCD_SERVICE_NAME:"SkyWalking_OAP_Cluster"}
    authentication: ${SW_CLUSTER_ETCD_AUTHENTICATION:false}
    user: ${SW_CLUSTER_ETCD_USER:}
    password: ${SW_CLUSTER_ETCD_PASSWORD:}
    internalComHost: ${SW_CLUSTER_INTERNAL_COM_HOST:""}
    internalComPort: ${SW_CLUSTER_INTERNAL_COM_PORT:-1}
  nacos:
    serviceName: ${SW_SERVICE_NAME:"SkyWalking_OAP_Cluster"}
    hostPort: ${SW_CLUSTER_NACOS_HOST_PORT:localhost:8848}
    # Nacos Naming namespace
    namespace: ${SW_CLUSTER_NACOS_NAMESPACE:"public"}
    contextPath: ${SW_CLUSTER_NACOS_CONTEXT_PATH:""}
    # Nacos auth username
    username: ${SW_CLUSTER_NACOS_USERNAME:""}
    password: ${SW_CLUSTER_NACOS_PASSWORD:""}
    # Nacos auth accessKey
    accessKey: ${SW_CLUSTER_NACOS_ACCESSKEY:""}
    secretKey: ${SW_CLUSTER_NACOS_SECRETKEY:""}
    internalComHost: ${SW_CLUSTER_INTERNAL_COM_HOST:""}
    internalComPort: ${SW_CLUSTER_INTERNAL_COM_PORT:-1}
core:
  selector: ${SW_CORE:default}
  default:
    # Mixed: Receive agent data, Level 1 aggregate, Level 2 aggregate
    # Receiver: Receive agent data, Level 1 aggregate
    # Aggregator: Level 2 aggregate
    role: ${SW_CORE_ROLE:Mixed} # Mixed/Receiver/Aggregator
    restHost: ${SW_CORE_REST_HOST:0.0.0.0}
    restPort: ${SW_CORE_REST_PORT:12800}
    restContextPath: ${SW_CORE_REST_CONTEXT_PATH:/}
    restMaxThreads: ${SW_CORE_REST_MAX_THREADS:200}
    restIdleTimeOut: ${SW_CORE_REST_IDLE_TIMEOUT:30000}
    restAcceptQueueSize: ${SW_CORE_REST_QUEUE_SIZE:0}
    httpMaxRequestHeaderSize: ${SW_CORE_HTTP_MAX_REQUEST_HEADER_SIZE:8192}
    gRPCHost: ${SW_CORE_GRPC_HOST:0.0.0.0}
    gRPCPort: ${SW_CORE_GRPC_PORT:11800}
    maxConcurrentCallsPerConnection: ${SW_CORE_GRPC_MAX_CONCURRENT_CALL:0}
    maxMessageSize: ${SW_CORE_GRPC_MAX_MESSAGE_SIZE:52428800} #50MB
    gRPCThreadPoolSize: ${SW_CORE_GRPC_THREAD_POOL_SIZE:-1}
    gRPCSslEnabled: ${SW_CORE_GRPC_SSL_ENABLED:false}
    gRPCSslKeyPath: ${SW_CORE_GRPC_SSL_KEY_PATH:""}
    gRPCSslCertChainPath: ${SW_CORE_GRPC_SSL_CERT_CHAIN_PATH:""}
    gRPCSslTrustedCAPath: ${SW_CORE_GRPC_SSL_TRUSTED_CA_PATH:""}
    downsampling:
      - Hour
      - Day
    # Set a timeout on metrics data. After the timeout has expired, the metrics data will automatically be deleted.
    enableDataKeeperExecutor: ${SW_CORE_ENABLE_DATA_KEEPER_EXECUTOR:true} # Turn it off then automatically metrics data delete will be close.
    dataKeeperExecutePeriod: ${SW_CORE_DATA_KEEPER_EXECUTE_PERIOD:5} # How often the data keeper executor runs periodically, unit is minute
    recordDataTTL: ${SW_CORE_RECORD_DATA_TTL:3} # Unit is day
    metricsDataTTL: ${SW_CORE_METRICS_DATA_TTL:7} # Unit is day
    # The period of L1 aggregation flush to L2 aggregation. Unit is ms.
    l1FlushPeriod: ${SW_CORE_L1_AGGREGATION_FLUSH_PERIOD:500}
    # The threshold of session time. Unit is ms. Default value is 70s.
    storageSessionTimeout: ${SW_CORE_STORAGE_SESSION_TIMEOUT:70000}
    # The period of doing data persistence. Unit is second.Default value is 25s
    persistentPeriod: ${SW_CORE_PERSISTENT_PERIOD:25}
    topNReportPeriod: ${SW_CORE_TOPN_REPORT_PERIOD:10} # top_n record worker report cycle, unit is minute
    # Extra model column are the column defined by in the codes, These columns of model are not required logically in aggregation or further query,
    # and it will cause more load for memory, network of OAP and storage.
    # But, being activated, user could see the name in the storage entities, which make users easier to use 3rd party tool, such as Kibana->ES, to query the data by themselves.
    activeExtraModelColumns: ${SW_CORE_ACTIVE_EXTRA_MODEL_COLUMNS:false}
    # The max length of service + instance names should be less than 200
    serviceNameMaxLength: ${SW_SERVICE_NAME_MAX_LENGTH:70}
    # The period(in seconds) of refreshing the service cache. Default value is 10s.
    serviceCacheRefreshInterval: ${SW_SERVICE_CACHE_REFRESH_INTERVAL:10}
    instanceNameMaxLength: ${SW_INSTANCE_NAME_MAX_LENGTH:70}
    # The max length of service + endpoint names should be less than 240
    endpointNameMaxLength: ${SW_ENDPOINT_NAME_MAX_LENGTH:150}
    # Define the set of span tag keys, which should be searchable through the GraphQL.
    # The max length of key=value should be less than 256 or will be dropped.
    searchableTracesTags: ${SW_SEARCHABLE_TAG_KEYS:http.method,http.status_code,rpc.status_code,db.type,db.instance,mq.queue,mq.topic,mq.broker}
    # Define the set of log tag keys, which should be searchable through the GraphQL.
    # The max length of key=value should be less than 256 or will be dropped.
    searchableLogsTags: ${SW_SEARCHABLE_LOGS_TAG_KEYS:level,http.status_code}
    # Define the set of alarm tag keys, which should be searchable through the GraphQL.
    # The max length of key=value should be less than 256 or will be dropped.
    searchableAlarmTags: ${SW_SEARCHABLE_ALARM_TAG_KEYS:level}
    # The max size of tags keys for autocomplete select.
    autocompleteTagKeysQueryMaxSize: ${SW_AUTOCOMPLETE_TAG_KEYS_QUERY_MAX_SIZE:100}
    # The max size of tags values for autocomplete select.
    autocompleteTagValuesQueryMaxSize: ${SW_AUTOCOMPLETE_TAG_VALUES_QUERY_MAX_SIZE:100}
    # The number of threads used to prepare metrics data to the storage.
    prepareThreads: ${SW_CORE_PREPARE_THREADS:2}
    # Turn it on then automatically grouping endpoint by the given OpenAPI definitions.
    enableEndpointNameGroupingByOpenapi: ${SW_CORE_ENABLE_ENDPOINT_NAME_GROUPING_BY_OPENAPI:true}
    # The period of HTTP URI pattern recognition. Unit is second.
    syncPeriodHttpUriRecognitionPattern: ${SW_CORE_SYNC_PERIOD_HTTP_URI_RECOGNITION_PATTERN:10}
    # The training period of HTTP URI pattern recognition. Unit is second.
    trainingPeriodHttpUriRecognitionPattern: ${SW_CORE_TRAINING_PERIOD_HTTP_URI_RECOGNITION_PATTERN:60}
    # The max number of HTTP URIs per service for further URI pattern recognition.
    maxHttpUrisNumberPerService: ${SW_CORE_MAX_HTTP_URIS_NUMBER_PER_SVR:3000}
    # If disable the hierarchy, the service and instance hierarchy relation will not be built. And the query of hierarchy will return empty result.
    # All the hierarchy relations are defined in the `hierarchy-definition.yml`.
    # Notice: some of the configurations only available for kubernetes environments.
    enableHierarchy: ${SW_CORE_ENABLE_HIERARCHY:true}
storage:
  selector: ${SW_STORAGE:elasticsearch}
  elasticsearch:
    namespace: ${SW_NAMESPACE:"linjie"}
    clusterNodes: ${SW_STORAGE_ES_CLUSTER_NODES:localhost:9200}
    protocol: ${SW_STORAGE_ES_HTTP_PROTOCOL:"http"}
    connectTimeout: ${SW_STORAGE_ES_CONNECT_TIMEOUT:3000}
    socketTimeout: ${SW_STORAGE_ES_SOCKET_TIMEOUT:30000}
    responseTimeout: ${SW_STORAGE_ES_RESPONSE_TIMEOUT:15000}
    numHttpClientThread: ${SW_STORAGE_ES_NUM_HTTP_CLIENT_THREAD:0}
    user: ${SW_ES_USER:""}
    password: ${SW_ES_PASSWORD:""}
    trustStorePath: ${SW_STORAGE_ES_SSL_JKS_PATH:""}
    trustStorePass: ${SW_STORAGE_ES_SSL_JKS_PASS:""}
    secretsManagementFile: ${SW_ES_SECRETS_MANAGEMENT_FILE:""} # Secrets management file in the properties format includes the username, password, which are managed by 3rd party tool.
    dayStep: ${SW_STORAGE_DAY_STEP:1} # Represent the number of days in the one minute/hour/day index.
    indexShardsNumber: ${SW_STORAGE_ES_INDEX_SHARDS_NUMBER:1} # Shard number of new indexes
    indexReplicasNumber: ${SW_STORAGE_ES_INDEX_REPLICAS_NUMBER:1} # Replicas number of new indexes
    # Specify the settings for each index individually.
    # If configured, this setting has the highest priority and overrides the generic settings.
    specificIndexSettings: ${SW_STORAGE_ES_SPECIFIC_INDEX_SETTINGS:""}
    # Super data set has been defined in the codes, such as trace segments.The following 3 config would be improve es performance when storage super size data in es.
    superDatasetDayStep: ${SW_STORAGE_ES_SUPER_DATASET_DAY_STEP:-1} # Represent the number of days in the super size dataset record index, the default value is the same as dayStep when the value is less than 0
    superDatasetIndexShardsFactor: ${SW_STORAGE_ES_SUPER_DATASET_INDEX_SHARDS_FACTOR:5} #  This factor provides more shards for the super data set, shards number = indexShardsNumber * superDatasetIndexShardsFactor. Also, this factor effects Zipkin traces.
    superDatasetIndexReplicasNumber: ${SW_STORAGE_ES_SUPER_DATASET_INDEX_REPLICAS_NUMBER:0} # Represent the replicas number in the super size dataset record index, the default value is 0.
    indexTemplateOrder: ${SW_STORAGE_ES_INDEX_TEMPLATE_ORDER:0} # the order of index template
    bulkActions: ${SW_STORAGE_ES_BULK_ACTIONS:5000} # Execute the async bulk record data every ${SW_STORAGE_ES_BULK_ACTIONS} requests
    batchOfBytes: ${SW_STORAGE_ES_BATCH_OF_BYTES:10485760} # A threshold to control the max body size of ElasticSearch Bulk flush.
    # flush the bulk every 5 seconds whatever the number of requests
    flushInterval: ${SW_STORAGE_ES_FLUSH_INTERVAL:5}
    concurrentRequests: ${SW_STORAGE_ES_CONCURRENT_REQUESTS:2} # the number of concurrent requests
    resultWindowMaxSize: ${SW_STORAGE_ES_QUERY_MAX_WINDOW_SIZE:10000}
    metadataQueryMaxSize: ${SW_STORAGE_ES_QUERY_MAX_SIZE:10000}
    scrollingBatchSize: ${SW_STORAGE_ES_SCROLLING_BATCH_SIZE:5000}
    segmentQueryMaxSize: ${SW_STORAGE_ES_QUERY_SEGMENT_SIZE:200}
    profileTaskQueryMaxSize: ${SW_STORAGE_ES_QUERY_PROFILE_TASK_SIZE:200}
    profileDataQueryBatchSize: ${SW_STORAGE_ES_QUERY_PROFILE_DATA_BATCH_SIZE:100}
    oapAnalyzer: ${SW_STORAGE_ES_OAP_ANALYZER:"{\"analyzer\":{\"oap_analyzer\":{\"type\":\"stop\"}}}"} # the oap analyzer.
    oapLogAnalyzer: ${SW_STORAGE_ES_OAP_LOG_ANALYZER:"{\"analyzer\":{\"oap_log_analyzer\":{\"type\":\"standard\"}}}"} # the oap log analyzer. It could be customized by the ES analyzer configuration to support more language log formats, such as Chinese log, Japanese log and etc.
    advanced: ${SW_STORAGE_ES_ADVANCED:""}
    # Enable shard metrics and records indices into multi-physical indices, one index template per metric/meter aggregation function or record.
    logicSharding: ${SW_STORAGE_ES_LOGIC_SHARDING:false}
    # Custom routing can reduce the impact of searches. Instead of having to fan out a search request to all the shards in an index, the request can be sent to just the shard that matches the specific routing value (or values).
    enableCustomRouting: ${SW_STORAGE_ES_ENABLE_CUSTOM_ROUTING:false}
  h2:
    properties:
      jdbcUrl: ${SW_STORAGE_H2_URL:jdbc:h2:mem:skywalking-oap-db;DB_CLOSE_DELAY=-1;DATABASE_TO_UPPER=FALSE}
      dataSource.user: ${SW_STORAGE_H2_USER:sa}
    metadataQueryMaxSize: ${SW_STORAGE_H2_QUERY_MAX_SIZE:5000}
    maxSizeOfBatchSql: ${SW_STORAGE_MAX_SIZE_OF_BATCH_SQL:100}
    asyncBatchPersistentPoolSize: ${SW_STORAGE_ASYNC_BATCH_PERSISTENT_POOL_SIZE:1}
  mysql:
    properties:
      jdbcUrl: ${SW_JDBC_URL:"jdbc:mysql://localhost:3306/swtest?rewriteBatchedStatements=true&allowMultiQueries=true"}
      dataSource.user: ${SW_DATA_SOURCE_USER:root}
      dataSource.password: ${SW_DATA_SOURCE_PASSWORD:root@1234}
      dataSource.cachePrepStmts: ${SW_DATA_SOURCE_CACHE_PREP_STMTS:true}
      dataSource.prepStmtCacheSize: ${SW_DATA_SOURCE_PREP_STMT_CACHE_SQL_SIZE:250}
      dataSource.prepStmtCacheSqlLimit: ${SW_DATA_SOURCE_PREP_STMT_CACHE_SQL_LIMIT:2048}
      dataSource.useServerPrepStmts: ${SW_DATA_SOURCE_USE_SERVER_PREP_STMTS:true}
    metadataQueryMaxSize: ${SW_STORAGE_MYSQL_QUERY_MAX_SIZE:5000}
    maxSizeOfBatchSql: ${SW_STORAGE_MAX_SIZE_OF_BATCH_SQL:2000}
    asyncBatchPersistentPoolSize: ${SW_STORAGE_ASYNC_BATCH_PERSISTENT_POOL_SIZE:4}
  postgresql:
    properties:
      jdbcUrl: ${SW_JDBC_URL:"jdbc:postgresql://localhost:5432/skywalking"}
      dataSource.user: ${SW_DATA_SOURCE_USER:postgres}
      dataSource.password: ${SW_DATA_SOURCE_PASSWORD:123456}
      dataSource.cachePrepStmts: ${SW_DATA_SOURCE_CACHE_PREP_STMTS:true}
      dataSource.prepStmtCacheSize: ${SW_DATA_SOURCE_PREP_STMT_CACHE_SQL_SIZE:250}
      dataSource.prepStmtCacheSqlLimit: ${SW_DATA_SOURCE_PREP_STMT_CACHE_SQL_LIMIT:2048}
      dataSource.useServerPrepStmts: ${SW_DATA_SOURCE_USE_SERVER_PREP_STMTS:true}
    metadataQueryMaxSize: ${SW_STORAGE_MYSQL_QUERY_MAX_SIZE:5000}
    maxSizeOfBatchSql: ${SW_STORAGE_MAX_SIZE_OF_BATCH_SQL:2000}
    asyncBatchPersistentPoolSize: ${SW_STORAGE_ASYNC_BATCH_PERSISTENT_POOL_SIZE:4}
  banyandb:
    # Targets is the list of BanyanDB servers, separated by commas.
    # Each target is a BanyanDB server in the format of `host:port` 
    # The host is the IP address or domain name of the BanyanDB server, and the port is the port number of the BanyanDB server.
    targets: ${SW_STORAGE_BANYANDB_TARGETS:localhost:17912}
    # The max number of records in a bulk write request.
    # Bigger value can improve the write performance, but also increase the OAP and BanyanDB Server memory usage.
    maxBulkSize: ${SW_STORAGE_BANYANDB_MAX_BULK_SIZE:10000}
    # The minimum seconds between two bulk flushes.
    # If the data in a bulk is less than maxBulkSize, the data will be flushed after this period.
    # If the data in a bulk is more than maxBulkSize, the data will be flushed immediately.
    # Bigger value can reduce the write pressure on BanyanDB Server, but also increase the latency of the data.
    flushInterval: ${SW_STORAGE_BANYANDB_FLUSH_INTERVAL:15}
    # The timeout seconds of a bulk flush.
    flushTimeout: ${SW_STORAGE_BANYANDB_FLUSH_TIMEOUT:10}
    # The shard number of `measure` groups that store the metrics data.
    metricsShardsNumber: ${SW_STORAGE_BANYANDB_METRICS_SHARDS_NUMBER:1}
    # The shard number of `stream` groups that store the trace, log and profile data.
    recordShardsNumber: ${SW_STORAGE_BANYANDB_RECORD_SHARDS_NUMBER:1}
    # The multiplier of the number of shards of the super dataset.
    # Super dataset is a special dataset that stores the trace or log data that is too large to be stored in the normal dataset.
    # If the normal dataset has `n` shards, the super dataset will have `n * superDatasetShardsFactor` shards.
    # For example, supposing `recordShardsNumber` is 3, and `superDatasetShardsFactor` is 2,
    # `segment-default` is a normal dataset that has 3 shards, and `segment-minute` is a super dataset that has 6 shards.
    superDatasetShardsFactor: ${SW_STORAGE_BANYANDB_SUPERDATASET_SHARDS_FACTOR:2}
    # The number of threads that write data to BanyanDB concurrently.
    # Bigger value can improve the write performance, but also increase the OAP and BanyanDB Server CPU usage.
    concurrentWriteThreads: ${SW_STORAGE_BANYANDB_CONCURRENT_WRITE_THREADS:15}
    # The max number of profile task query in a request.
    profileTaskQueryMaxSize: ${SW_STORAGE_BANYANDB_PROFILE_TASK_QUERY_MAX_SIZE:200}
    # Data is stored in BanyanDB in segments. A segment is a time range of data.
    # The segment interval is the time range of a segment.
    # The value should be less or equal to data TTL relevant settings.
    segmentIntervalDays: ${SW_STORAGE_BANYANDB_SEGMENT_INTERVAL_DAYS:1}
    # The super dataset segment interval is the time range of a segment in the super dataset.
    superDatasetSegmentIntervalDays: ${SW_STORAGE_BANYANDB_SUPER_DATASET_SEGMENT_INTERVAL_DAYS:1}
    # Specific groups settings.
    # For example, {"group1": {"blockIntervalHours": 4, "segmentIntervalDays": 1}}
    # Please refer to https://github.com/apache/skywalking-banyandb/blob/${BANYANDB_RELEASE}/docs/interacting/bydbctl/schema/group.md#create-operation
    # for group setting details.
    specificGroupSettings: ${SW_STORAGE_BANYANDB_SPECIFIC_GROUP_SETTINGS:""}
    # If the BanyanDB server is configured with TLS, config the TLS cert file path and open tls connection.
    sslTrustCAPath: ${SW_STORAGE_BANYANDB_SSL_TRUST_CA_PATH:""}

agent-analyzer:
  selector: ${SW_AGENT_ANALYZER:default}
  default:
    # The default sampling rate and the default trace latency time configured by the 'traceSamplingPolicySettingsFile' file.
    traceSamplingPolicySettingsFile: ${SW_TRACE_SAMPLING_POLICY_SETTINGS_FILE:trace-sampling-policy-settings.yml}
    slowDBAccessThreshold: ${SW_SLOW_DB_THRESHOLD:default:200,mongodb:100} # The slow database access thresholds. Unit ms.
    forceSampleErrorSegment: ${SW_FORCE_SAMPLE_ERROR_SEGMENT:true} # When sampling mechanism active, this config can open(true) force save some error segment. true is default.
    segmentStatusAnalysisStrategy: ${SW_SEGMENT_STATUS_ANALYSIS_STRATEGY:FROM_SPAN_STATUS} # Determine the final segment status from the status of spans. Available values are `FROM_SPAN_STATUS` , `FROM_ENTRY_SPAN` and `FROM_FIRST_SPAN`. `FROM_SPAN_STATUS` represents the segment status would be error if any span is in error status. `FROM_ENTRY_SPAN` means the segment status would be determined by the status of entry spans only. `FROM_FIRST_SPAN` means the segment status would be determined by the status of the first span only.
    # Nginx and Envoy agents can't get the real remote address.
    # Exit spans with the component in the list would not generate the client-side instance relation metrics.
    noUpstreamRealAddressAgents: ${SW_NO_UPSTREAM_REAL_ADDRESS:6000,9000}
    meterAnalyzerActiveFiles: ${SW_METER_ANALYZER_ACTIVE_FILES:datasource,threadpool,satellite,go-runtime,python-runtime,continuous-profiling,java-agent} # Which files could be meter analyzed, files split by ","
    slowCacheReadThreshold: ${SW_SLOW_CACHE_SLOW_READ_THRESHOLD:default:20,redis:10} # The slow cache read operation thresholds. Unit ms.
    slowCacheWriteThreshold: ${SW_SLOW_CACHE_SLOW_WRITE_THRESHOLD:default:20,redis:10} # The slow cache write operation thresholds. Unit ms.

log-analyzer:
  selector: ${SW_LOG_ANALYZER:default}
  default:
    lalFiles: ${SW_LOG_LAL_FILES:envoy-als,mesh-dp,mysql-slowsql,pgsql-slowsql,redis-slowsql,k8s-service,nginx,default}
    malFiles: ${SW_LOG_MAL_FILES:"nginx"}

event-analyzer:
  selector: ${SW_EVENT_ANALYZER:default}
  default:

receiver-sharing-server:
  selector: ${SW_RECEIVER_SHARING_SERVER:default}
  default:
    # For HTTP server
    restHost: ${SW_RECEIVER_SHARING_REST_HOST:0.0.0.0}
    restPort: ${SW_RECEIVER_SHARING_REST_PORT:0}
    restContextPath: ${SW_RECEIVER_SHARING_REST_CONTEXT_PATH:/}
    restMaxThreads: ${SW_RECEIVER_SHARING_REST_MAX_THREADS:200}
    restIdleTimeOut: ${SW_RECEIVER_SHARING_REST_IDLE_TIMEOUT:30000}
    restAcceptQueueSize: ${SW_RECEIVER_SHARING_REST_QUEUE_SIZE:0}
    httpMaxRequestHeaderSize: ${SW_RECEIVER_SHARING_HTTP_MAX_REQUEST_HEADER_SIZE:8192}
    # For gRPC server
    gRPCHost: ${SW_RECEIVER_GRPC_HOST:0.0.0.0}
    gRPCPort: ${SW_RECEIVER_GRPC_PORT:0}
    maxConcurrentCallsPerConnection: ${SW_RECEIVER_GRPC_MAX_CONCURRENT_CALL:0}
    maxMessageSize: ${SW_RECEIVER_GRPC_MAX_MESSAGE_SIZE:52428800} #50MB
    gRPCThreadPoolSize: ${SW_RECEIVER_GRPC_THREAD_POOL_SIZE:0}
    gRPCSslEnabled: ${SW_RECEIVER_GRPC_SSL_ENABLED:false}
    gRPCSslKeyPath: ${SW_RECEIVER_GRPC_SSL_KEY_PATH:""}
    gRPCSslCertChainPath: ${SW_RECEIVER_GRPC_SSL_CERT_CHAIN_PATH:""}
    gRPCSslTrustedCAsPath: ${SW_RECEIVER_GRPC_SSL_TRUSTED_CAS_PATH:""}
    authentication: ${SW_AUTHENTICATION:""}
receiver-register:
  selector: ${SW_RECEIVER_REGISTER:default}
  default:

receiver-trace:
  selector: ${SW_RECEIVER_TRACE:default}
  default:

receiver-jvm:
  selector: ${SW_RECEIVER_JVM:default}
  default:

receiver-clr:
  selector: ${SW_RECEIVER_CLR:default}
  default:

receiver-profile:
  selector: ${SW_RECEIVER_PROFILE:default}
  default:

receiver-zabbix:
  selector: ${SW_RECEIVER_ZABBIX:-}
  default:
    port: ${SW_RECEIVER_ZABBIX_PORT:10051}
    host: ${SW_RECEIVER_ZABBIX_HOST:0.0.0.0}
    activeFiles: ${SW_RECEIVER_ZABBIX_ACTIVE_FILES:agent}

service-mesh:
  selector: ${SW_SERVICE_MESH:default}
  default:

envoy-metric:
  selector: ${SW_ENVOY_METRIC:default}
  default:
    acceptMetricsService: ${SW_ENVOY_METRIC_SERVICE:true}
    alsHTTPAnalysis: ${SW_ENVOY_METRIC_ALS_HTTP_ANALYSIS:""}
    alsTCPAnalysis: ${SW_ENVOY_METRIC_ALS_TCP_ANALYSIS:""}
    # `k8sServiceNameRule` allows you to customize the service name in ALS via Kubernetes metadata,
    # the available variables are `pod`, `service`, f.e., you can use `${service.metadata.name}-${pod.metadata.labels.version}`
    # to append the version number to the service name.
    # Be careful, when using environment variables to pass this configuration, use single quotes(`''`) to avoid it being evaluated by the shell.
    k8sServiceNameRule: ${K8S_SERVICE_NAME_RULE:"${pod.metadata.labels.(service.istio.io/canonical-name)}.${pod.metadata.namespace}"}
    istioServiceNameRule: ${ISTIO_SERVICE_NAME_RULE:"${serviceEntry.metadata.name}.${serviceEntry.metadata.namespace}"}
    # When looking up service informations from the Istio ServiceEntries, some
    # of the ServiceEntries might be created in several namespaces automatically
    # by some components, and OAP will randomly pick one of them to build the
    # service name, users can use this config to exclude ServiceEntries that
    # they don't want to be used. Comma separated.
    istioServiceEntryIgnoredNamespaces: ${SW_ISTIO_SERVICE_ENTRY_IGNORED_NAMESPACES:""}
    gRPCHost: ${SW_ALS_GRPC_HOST:0.0.0.0}
    gRPCPort: ${SW_ALS_GRPC_PORT:0}
    maxConcurrentCallsPerConnection: ${SW_ALS_GRPC_MAX_CONCURRENT_CALL:0}
    maxMessageSize: ${SW_ALS_GRPC_MAX_MESSAGE_SIZE:0}
    gRPCThreadPoolSize: ${SW_ALS_GRPC_THREAD_POOL_SIZE:0}
    gRPCSslEnabled: ${SW_ALS_GRPC_SSL_ENABLED:false}
    gRPCSslKeyPath: ${SW_ALS_GRPC_SSL_KEY_PATH:""}
    gRPCSslCertChainPath: ${SW_ALS_GRPC_SSL_CERT_CHAIN_PATH:""}
    gRPCSslTrustedCAsPath: ${SW_ALS_GRPC_SSL_TRUSTED_CAS_PATH:""}

kafka-fetcher:
  selector: ${SW_KAFKA_FETCHER:-}
  default:
    bootstrapServers: ${SW_KAFKA_FETCHER_SERVERS:localhost:9092}
    namespace: ${SW_NAMESPACE:""}
    partitions: ${SW_KAFKA_FETCHER_PARTITIONS:3}
    replicationFactor: ${SW_KAFKA_FETCHER_PARTITIONS_FACTOR:2}
    enableNativeProtoLog: ${SW_KAFKA_FETCHER_ENABLE_NATIVE_PROTO_LOG:true}
    enableNativeJsonLog: ${SW_KAFKA_FETCHER_ENABLE_NATIVE_JSON_LOG:true}
    consumers: ${SW_KAFKA_FETCHER_CONSUMERS:1}
    kafkaHandlerThreadPoolSize: ${SW_KAFKA_HANDLER_THREAD_POOL_SIZE:-1}
    kafkaHandlerThreadPoolQueueSize: ${SW_KAFKA_HANDLER_THREAD_POOL_QUEUE_SIZE:-1}

cilium-fetcher:
  selector: ${SW_CILIUM_FETCHER:-}
  default:
    peerHost: ${SW_CILIUM_FETCHER_PEER_HOST:hubble-peer.kube-system.svc.cluster.local}
    peerPort: ${SW_CILIUM_FETCHER_PEER_PORT:80}
    fetchFailureRetrySecond: ${SW_CILIUM_FETCHER_FETCH_FAILURE_RETRY_SECOND:10}
    sslConnection: ${SW_CILIUM_FETCHER_SSL_CONNECTION:false}
    sslPrivateKeyFile: ${SW_CILIUM_FETCHER_PRIVATE_KEY_FILE_PATH:}
    sslCertChainFile: ${SW_CILIUM_FETCHER_CERT_CHAIN_FILE_PATH:}
    sslCaFile: ${SW_CILIUM_FETCHER_CA_FILE_PATH:}
    convertClientAsServerTraffic: ${SW_CILIUM_FETCHER_CONVERT_CLIENT_AS_SERVER_TRAFFIC:true}

receiver-meter:
  selector: ${SW_RECEIVER_METER:default}
  default:

receiver-otel:
  selector: ${SW_OTEL_RECEIVER:default}
  default:
    enabledHandlers: ${SW_OTEL_RECEIVER_ENABLED_HANDLERS:"otlp-metrics,otlp-logs"}
    enabledOtelMetricsRules: ${SW_OTEL_RECEIVER_ENABLED_OTEL_METRICS_RULES:"apisix,nginx/*,k8s/*,istio-controlplane,vm,mysql/*,postgresql/*,oap,aws-eks/*,windows,aws-s3/*,aws-dynamodb/*,aws-gateway/*,redis/*,elasticsearch/*,rabbitmq/*,mongodb/*,kafka/*,pulsar/*,bookkeeper/*,rocketmq/*,clickhouse/*,activemq/*"}

receiver-zipkin:
  selector: ${SW_RECEIVER_ZIPKIN:-}
  default:
    # Defines a set of span tag keys which are searchable.
    # The max length of key=value should be less than 256 or will be dropped.
    searchableTracesTags: ${SW_ZIPKIN_SEARCHABLE_TAG_KEYS:http.method}
    # The sample rate precision is 1/10000, should be between 0 and 10000
    sampleRate: ${SW_ZIPKIN_SAMPLE_RATE:10000}
    ## The below configs are for OAP collect zipkin trace from HTTP
    enableHttpCollector: ${SW_ZIPKIN_HTTP_COLLECTOR_ENABLED:true}
    restHost: ${SW_RECEIVER_ZIPKIN_REST_HOST:0.0.0.0}
    restPort: ${SW_RECEIVER_ZIPKIN_REST_PORT:9411}
    restContextPath: ${SW_RECEIVER_ZIPKIN_REST_CONTEXT_PATH:/}
    restMaxThreads: ${SW_RECEIVER_ZIPKIN_REST_MAX_THREADS:200}
    restIdleTimeOut: ${SW_RECEIVER_ZIPKIN_REST_IDLE_TIMEOUT:30000}
    restAcceptQueueSize: ${SW_RECEIVER_ZIPKIN_REST_QUEUE_SIZE:0}
    ## The below configs are for OAP collect zipkin trace from kafka
    enableKafkaCollector: ${SW_ZIPKIN_KAFKA_COLLECTOR_ENABLED:false}
    kafkaBootstrapServers: ${SW_ZIPKIN_KAFKA_SERVERS:localhost:9092}
    kafkaGroupId: ${SW_ZIPKIN_KAFKA_GROUP_ID:zipkin}
    kafkaTopic: ${SW_ZIPKIN_KAFKA_TOPIC:zipkin}
    # Kafka consumer config, JSON format as Properties. If it contains the same key with above, would override.
    kafkaConsumerConfig: ${SW_ZIPKIN_KAFKA_CONSUMER_CONFIG:"{\"auto.offset.reset\":\"earliest\",\"enable.auto.commit\":true}"}
    # The Count of the topic consumers
    kafkaConsumers: ${SW_ZIPKIN_KAFKA_CONSUMERS:1}
    kafkaHandlerThreadPoolSize: ${SW_ZIPKIN_KAFKA_HANDLER_THREAD_POOL_SIZE:-1}
    kafkaHandlerThreadPoolQueueSize: ${SW_ZIPKIN_KAFKA_HANDLER_THREAD_POOL_QUEUE_SIZE:-1}

receiver-browser:
  selector: ${SW_RECEIVER_BROWSER:default}
  default:
    # The sample rate precision is 1/10000. 10000 means 100% sample in default.
    sampleRate: ${SW_RECEIVER_BROWSER_SAMPLE_RATE:10000}

receiver-log:
  selector: ${SW_RECEIVER_LOG:default}
  default:

query:
  selector: ${SW_QUERY:graphql}
  graphql:
    # Enable the log testing API to test the LAL.
    # NOTE: This API evaluates untrusted code on the OAP server.
    # A malicious script can do significant damage (steal keys and secrets, remove files and directories, install malware, etc).
    # As such, please enable this API only when you completely trust your users.
    enableLogTestTool: ${SW_QUERY_GRAPHQL_ENABLE_LOG_TEST_TOOL:false}
    # Maximum complexity allowed for the GraphQL query that can be used to
    # abort a query if the total number of data fields queried exceeds the defined threshold.
    maxQueryComplexity: ${SW_QUERY_MAX_QUERY_COMPLEXITY:3000}
    # Allow user add, disable and update UI template
    enableUpdateUITemplate: ${SW_ENABLE_UPDATE_UI_TEMPLATE:false}
    # "On demand log" allows users to fetch Pod containers' log in real time,
    # because this might expose secrets in the logs (if any), users need
    # to enable this manually, and add permissions to OAP cluster role.
    enableOnDemandPodLog: ${SW_ENABLE_ON_DEMAND_POD_LOG:false}

# This module is for Zipkin query API and support zipkin-lens UI
query-zipkin:
  selector: ${SW_QUERY_ZIPKIN:-}
  default:
    # For HTTP server
    restHost: ${SW_QUERY_ZIPKIN_REST_HOST:0.0.0.0}
    restPort: ${SW_QUERY_ZIPKIN_REST_PORT:9412}
    restContextPath: ${SW_QUERY_ZIPKIN_REST_CONTEXT_PATH:/zipkin}
    restMaxThreads: ${SW_QUERY_ZIPKIN_REST_MAX_THREADS:200}
    restIdleTimeOut: ${SW_QUERY_ZIPKIN_REST_IDLE_TIMEOUT:30000}
    restAcceptQueueSize: ${SW_QUERY_ZIPKIN_REST_QUEUE_SIZE:0}
    # Default look back for traces and autocompleteTags, 1 day in millis
    lookback: ${SW_QUERY_ZIPKIN_LOOKBACK:86400000}
    # The Cache-Control max-age (seconds) for serviceNames, remoteServiceNames and spanNames
    namesMaxAge: ${SW_QUERY_ZIPKIN_NAMES_MAX_AGE:300}
    ## The below config are OAP support for zipkin-lens UI
    # Default traces query max size
    uiQueryLimit: ${SW_QUERY_ZIPKIN_UI_QUERY_LIMIT:10}
    # Default look back on the UI for search traces, 15 minutes in millis
    uiDefaultLookback: ${SW_QUERY_ZIPKIN_UI_DEFAULT_LOOKBACK:900000}

#This module is for PromQL API.
promql:
  selector: ${SW_PROMQL:default}
  default:
    # For HTTP server
    restHost: ${SW_PROMQL_REST_HOST:0.0.0.0}
    restPort: ${SW_PROMQL_REST_PORT:9090}
    restContextPath: ${SW_PROMQL_REST_CONTEXT_PATH:/}
    restMaxThreads: ${SW_PROMQL_REST_MAX_THREADS:200}
    restIdleTimeOut: ${SW_PROMQL_REST_IDLE_TIMEOUT:30000}
    restAcceptQueueSize: ${SW_PROMQL_REST_QUEUE_SIZE:0}
    # The below config is for the API buildInfo, set the value to mock the build info.
    buildInfoVersion: ${SW_PROMQL_BUILD_INFO_VERSION:"2.45.0"}
    buildInfoRevision: ${SW_PROMQL_BUILD_INFO_REVISION:""}
    buildInfoBranch: ${SW_PROMQL_BUILD_INFO_BRANCH:""}
    buildInfoBuildUser: ${SW_PROMQL_BUILD_INFO_BUILD_USER:""}
    buildInfoBuildDate: ${SW_PROMQL_BUILD_INFO_BUILD_DATE:""}
    buildInfoGoVersion: ${SW_PROMQL_BUILD_INFO_GO_VERSION:""}

#This module is for LogQL API.
logql:
  selector: ${SW_LOGQL:default}
  default:
    # For HTTP server
    restHost: ${SW_LOGQL_REST_HOST:0.0.0.0}
    restPort: ${SW_LOGQL_REST_PORT:3100}
    restContextPath: ${SW_LOGQL_REST_CONTEXT_PATH:/}
    restMaxThreads: ${SW_LOGQL_REST_MAX_THREADS:200}
    restIdleTimeOut: ${SW_LOGQL_REST_IDLE_TIMEOUT:30000}
    restAcceptQueueSize: ${SW_LOGQL_REST_QUEUE_SIZE:0}

alarm:
  selector: ${SW_ALARM:default}
  default:

telemetry:
  selector: ${SW_TELEMETRY:none}
  none:
  prometheus:
    host: ${SW_TELEMETRY_PROMETHEUS_HOST:0.0.0.0}
    port: ${SW_TELEMETRY_PROMETHEUS_PORT:1234}
    sslEnabled: ${SW_TELEMETRY_PROMETHEUS_SSL_ENABLED:false}
    sslKeyPath: ${SW_TELEMETRY_PROMETHEUS_SSL_KEY_PATH:""}
    sslCertChainPath: ${SW_TELEMETRY_PROMETHEUS_SSL_CERT_CHAIN_PATH:""}

configuration:
  selector: ${SW_CONFIGURATION:none}
  none:
  grpc:
    host: ${SW_DCS_SERVER_HOST:""}
    port: ${SW_DCS_SERVER_PORT:80}
    clusterName: ${SW_DCS_CLUSTER_NAME:SkyWalking}
    period: ${SW_DCS_PERIOD:20}
    maxInboundMessageSize: ${SW_DCS_MAX_INBOUND_MESSAGE_SIZE:4194304}
  apollo:
    apolloMeta: ${SW_CONFIG_APOLLO:http://localhost:8080}
    apolloCluster: ${SW_CONFIG_APOLLO_CLUSTER:default}
    apolloEnv: ${SW_CONFIG_APOLLO_ENV:""}
    appId: ${SW_CONFIG_APOLLO_APP_ID:skywalking}
  zookeeper:
    period: ${SW_CONFIG_ZK_PERIOD:60} # Unit seconds, sync period. Default fetch every 60 seconds.
    namespace: ${SW_CONFIG_ZK_NAMESPACE:/default}
    hostPort: ${SW_CONFIG_ZK_HOST_PORT:localhost:2181}
    # Retry Policy
    baseSleepTimeMs: ${SW_CONFIG_ZK_BASE_SLEEP_TIME_MS:1000} # initial amount of time to wait between retries
    maxRetries: ${SW_CONFIG_ZK_MAX_RETRIES:3} # max number of times to retry
  etcd:
    period: ${SW_CONFIG_ETCD_PERIOD:60} # Unit seconds, sync period. Default fetch every 60 seconds.
    endpoints: ${SW_CONFIG_ETCD_ENDPOINTS:http://localhost:2379}
    namespace: ${SW_CONFIG_ETCD_NAMESPACE:/skywalking}
    authentication: ${SW_CONFIG_ETCD_AUTHENTICATION:false}
    user: ${SW_CONFIG_ETCD_USER:}
    password: ${SW_CONFIG_ETCD_password:}
  consul:
    # Consul host and ports, separated by comma, e.g. 1.2.3.4:8500,2.3.4.5:8500
    hostAndPorts: ${SW_CONFIG_CONSUL_HOST_AND_PORTS:1.2.3.4:8500}
    # Sync period in seconds. Defaults to 60 seconds.
    period: ${SW_CONFIG_CONSUL_PERIOD:60}
    # Consul aclToken
    aclToken: ${SW_CONFIG_CONSUL_ACL_TOKEN:""}
  k8s-configmap:
    period: ${SW_CONFIG_CONFIGMAP_PERIOD:60}
    namespace: ${SW_CLUSTER_K8S_NAMESPACE:default}
    labelSelector: ${SW_CLUSTER_K8S_LABEL:app=collector,release=skywalking}
  nacos:
    # Nacos Server Host
    serverAddr: ${SW_CONFIG_NACOS_SERVER_ADDR:127.0.0.1}
    # Nacos Server Port
    port: ${SW_CONFIG_NACOS_SERVER_PORT:8848}
    # Nacos Configuration Group
    group: ${SW_CONFIG_NACOS_SERVER_GROUP:skywalking}
    # Nacos Configuration namespace
    namespace: ${SW_CONFIG_NACOS_SERVER_NAMESPACE:}
    # Unit seconds, sync period. Default fetch every 60 seconds.
    period: ${SW_CONFIG_NACOS_PERIOD:60}
    # Nacos auth username
    username: ${SW_CONFIG_NACOS_USERNAME:""}
    password: ${SW_CONFIG_NACOS_PASSWORD:""}
    # Nacos auth accessKey
    accessKey: ${SW_CONFIG_NACOS_ACCESSKEY:""}
    secretKey: ${SW_CONFIG_NACOS_SECRETKEY:""}

exporter:
  selector: ${SW_EXPORTER:-}
  default:
    # gRPC exporter
    enableGRPCMetrics: ${SW_EXPORTER_ENABLE_GRPC_METRICS:false}
    gRPCTargetHost: ${SW_EXPORTER_GRPC_HOST:127.0.0.1}
    gRPCTargetPort: ${SW_EXPORTER_GRPC_PORT:9870}
    # Kafka exporter
    enableKafkaTrace: ${SW_EXPORTER_ENABLE_KAFKA_TRACE:false}
    enableKafkaLog: ${SW_EXPORTER_ENABLE_KAFKA_LOG:false}
    kafkaBootstrapServers: ${SW_EXPORTER_KAFKA_SERVERS:localhost:9092}
    # Kafka producer config, JSON format as Properties.
    kafkaProducerConfig: ${SW_EXPORTER_KAFKA_PRODUCER_CONFIG:""}
    kafkaTopicTrace: ${SW_EXPORTER_KAFKA_TOPIC_TRACE:skywalking-export-trace}
    kafkaTopicLog: ${SW_EXPORTER_KAFKA_TOPIC_LOG:skywalking-export-log}
    exportErrorStatusTraceOnly: ${SW_EXPORTER_KAFKA_TRACE_FILTER_ERROR:false}

health-checker:
  selector: ${SW_HEALTH_CHECKER:-}
  default:
    checkIntervalSeconds: ${SW_HEALTH_CHECKER_INTERVAL_SECONDS:5}

debugging-query:
  selector: ${SW_DEBUGGING_QUERY:default}
  default:
    # Include the list of keywords to filter configurations including secrets. Separate keywords by a comma.
    keywords4MaskingSecretsOfConfig: ${SW_DEBUGGING_QUERY_KEYWORDS_FOR_MASKING_SECRETS:user,password,token,accessKey,secretKey,authentication}

configuration-discovery:
  selector: ${SW_CONFIGURATION_DISCOVERY:default}
  default:
    disableMessageDigest: ${SW_DISABLE_MESSAGE_DIGEST:false}

receiver-event:
  selector: ${SW_RECEIVER_EVENT:default}
  default:

receiver-ebpf:
  selector: ${SW_RECEIVER_EBPF:default}
  default:
    # The continuous profiling policy cache time, Unit is second.
    continuousPolicyCacheTimeout: ${SW_CONTINUOUS_POLICY_CACHE_TIMEOUT:60}
    gRPCHost: ${SW_EBPF_GRPC_HOST:0.0.0.0}
    gRPCPort: ${SW_EBPF_GRPC_PORT:0}
    maxConcurrentCallsPerConnection: ${SW_EBPF_GRPC_MAX_CONCURRENT_CALL:0}
    maxMessageSize: ${SW_EBPF_ALS_GRPC_MAX_MESSAGE_SIZE:0}
    gRPCThreadPoolSize: ${SW_EBPF_GRPC_THREAD_POOL_SIZE:0}
    gRPCSslEnabled: ${SW_EBPF_GRPC_SSL_ENABLED:false}
    gRPCSslKeyPath: ${SW_EBPF_GRPC_SSL_KEY_PATH:""}
    gRPCSslCertChainPath: ${SW_EBPF_GRPC_SSL_CERT_CHAIN_PATH:""}
    gRPCSslTrustedCAsPath: ${SW_EBPF_GRPC_SSL_TRUSTED_CAS_PATH:""}

receiver-telegraf:
  selector: ${SW_RECEIVER_TELEGRAF:default}
  default:
    activeFiles: ${SW_RECEIVER_TELEGRAF_ACTIVE_FILES:vm}

aws-firehose:
  selector: ${SW_RECEIVER_AWS_FIREHOSE:default}
  default:
    host: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_HOST:0.0.0.0}
    port: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_PORT:12801}
    contextPath: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_CONTEXT_PATH:/}
    maxThreads: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_MAX_THREADS:200}
    idleTimeOut: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_IDLE_TIME_OUT:30000}
    acceptQueueSize: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_ACCEPT_QUEUE_SIZE:0}
    maxRequestHeaderSize: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_MAX_REQUEST_HEADER_SIZE:8192}
    firehoseAccessKey: ${SW_RECEIVER_AWS_FIREHOSE_ACCESS_KEY:}
    enableTLS: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_ENABLE_TLS:false}
    tlsKeyPath: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_TLS_KEY_PATH:}
    tlsCertChainPath: ${SW_RECEIVER_AWS_FIREHOSE_HTTP_TLS_CERT_CHAIN_PATH:}

ai-pipeline:
  selector: ${SW_AI_PIPELINE:default}
  default:
    uriRecognitionServerAddr: ${SW_AI_PIPELINE_URI_RECOGNITION_SERVER_ADDR:}
    uriRecognitionServerPort: ${SW_AI_PIPELINE_URI_RECOGNITION_SERVER_PORT:17128}

2、log4j2.xml修改

<?xml version="1.0" encoding="UTF-8"?>
<!--
  ~ Licensed to the Apache Software Foundation (ASF) under one or more
  ~ contributor license agreements.  See the NOTICE file distributed with
  ~ this work for additional information regarding copyright ownership.
  ~ The ASF licenses this file to You 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.
  ~
  -->

<Configuration status="info">
    <Properties>
        <Property name="log-path">${sys:oap.logDir}</Property>
    </Properties>
    <Appenders>
        <RollingFile name="RollingFile" fileName="${log-path}/skywalking-oap-server.log"
                     filePattern="${log-path}/skywalking-oap-server-%d{yyyy-MM-dd}-%i.log">
            <PatternLayout>
                <pattern>%d - %c - %L [%t] %-5p %x - %m%n</pattern>
            </PatternLayout>
            <Policies>
                <SizeBasedTriggeringPolicy size="102400KB"/>
            </Policies>
            <DefaultRolloverStrategy max="30"/>
        </RollingFile>
        <Console name="Console" target="SYSTEM_OUT">
            <PatternLayout>
                <pattern>%m%n</pattern>
            </PatternLayout>
            <MarkerFilter marker="Console" onMatch="ACCEPT" onMismatch="DENY"/>
        </Console>
    </Appenders>
    <Loggers>
        <logger name="org.apache.zookeeper" level="INFO"/>
        <logger name="io.grpc.netty" level="INFO"/>
        <Logger name="org.apache.skywalking.oap.server.library.server.grpc.GRPCServer" level="INFO" additivity="false">
            <AppenderRef ref="Console"/>
        </Logger>
        <Root level="info">
            <AppenderRef ref="RollingFile"/>
            <AppenderRef ref="Console"/>
        </Root>
    </Loggers>
</Configuration>

修改UI配置，D:\Temp\1\apache-skywalking-apm-bin\webapp下面

1、修改application.yml

# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements.  See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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.


serverPort: ${SW_SERVER_PORT:-8080}

# Comma seperated list of OAP addresses.
oapServices: ${SW_OAP_ADDRESS:-http://localhost:12800}

zipkinServices: ${SW_ZIPKIN_ADDRESS:-http://localhost:9412}

2、log4j2.xml修改

<?xml version="1.0" encoding="UTF-8"?>
<!--
  ~ Licensed to the Apache Software Foundation (ASF) under one or more
  ~ contributor license agreements.  See the NOTICE file distributed with
  ~ this work for additional information regarding copyright ownership.
  ~ The ASF licenses this file to You 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.
  ~
  -->

<Configuration status="info">
    <Properties>
        <Property name="log-path">${sys:webapp.logDir}</Property>
    </Properties>
    <Appenders>
        <RollingFile name="RollingFile" fileName="${log-path}/skywalking-webapp.log"
                     filePattern="${log-path}/skywalking-webapp-%d{yyyy-MM-dd}-%i.log">
            <PatternLayout>
                <pattern>%d - %c - %L [%t] %-5p %x - %m%n</pattern>
            </PatternLayout>
            <Policies>
                <SizeBasedTriggeringPolicy size="102400KB"/>
            </Policies>
            <DefaultRolloverStrategy max="30"/>
        </RollingFile>
        <Console name="Console" target="SYSTEM_OUT">
            <PatternLayout>
                <pattern>%m%n</pattern>
            </PatternLayout>
            <MarkerFilter marker="Console" onMatch="ACCEPT" onMismatch="DENY"/>
        </Console>
    </Appenders>
    <Loggers>
        <logger name="org.apache.zookeeper" level="INFO"/>
        <logger name="io.grpc.netty" level="INFO"/>
        <Logger name="org.apache.skywalking.oap.server.webapp.ApplicationStartUp" level="INFO" additivity="false">
            <AppenderRef ref="Console"/>
        </Logger>
        <Root level="info">
            <AppenderRef ref="RollingFile"/>
            <AppenderRef ref="Console"/>
        </Root>
    </Loggers>
</Configuration>

注意：

skywalking服务必须放在无空格的文件夹，比如：Program Files这个文件是绝对不能放的，不然服务运行的时候只会一闪而过，连log日志都不会生成）。
默认监听 11800（gRPC）与 12800（HTTP） 端口。
上面解压后的文件内容包含 collector 与UI 2部分，
collector：负责收集日志等信息，此部分配置文件在config文件夹下 application.yml 及日志配置 log4j2.xml
UI：用于数据展示 ，此部分配置文件在 webapp 文件夹下 application.yml 及日志配置 log4j2.xml

五、启动

1、先启动D:\Temp\1\elasticsearch-8.17.0-windows-x86_64\bin下的elasticsearch，双击或者右键管理员权限运行elasticsearch.bat即可

2、先启动D:\Temp\1\apache-skywalking-apm-bin\bin下的skywalking，双击或者右键管理员权限运行startup.bat即可

切到 D:\Temp\1\apache-skywalking-apm-bin\bin，双击或者右键管理员权限运行startup.bat

如果出错，

elasticsearch出错，查看D:\Temp\1\elasticsearch-8.17.0-windows-x86_64\logs，

skywalking出错，查看D:\Temp\1\apache-skywalking-apm-bin\logs日志。

参考链接：

skywalking-v10.0.1安装：https://blog.csdn.net/smdai/article/details/142479469

java 环境变量配置 参考原文链接：https://blog.csdn.net/smdai/article/details/140670008