你好,游客 登录 注册 搜索
背景:
阅读新闻

Flume + HDFS + Hive日志收集系统搭建

[日期:2016-12-06] 来源:Linux社区  作者:xckk [字体: ]

最近一段时间,负责公司的产品日志埋点与收集工作,搭建了基于Flume+HDFS+Hive日志搜集系统。

一、日志搜集系统架构:

简单画了一下日志搜集系统的架构图,可以看出,flume承担了agent与collector角色,HDFS承担了数据持久化存储的角色。

作者搭建的服务器是个demo版,只用到了一个flume_collector,数据只存储在HDFS。当然高可用的日志搜集处理系统架构是需要多台flume collector做负载均衡与容错处理的。

clipboard

 

二、日志产生:

1、log4j配置,每隔1分钟roll一个文件,如果1分钟之内文件大于5M,则再生成一个文件。

<!-- 产品数据分析日志 按分钟分 -->
        <RollingRandomAccessFile name="RollingFile_product_minute"
            fileName="${STAT_LOG_HOME}/${SERVER_NAME}_product.log"
            filePattern="${STAT_LOG_HOME}/${SERVER_NAME}_product.log.%d{yyyy-MM-dd-HH-mm}-%i">
            <PatternLayout charset="UTF-8"
                pattern="%d{yyyy-MM-dd HH:mm:ss.SSS} %level - %msg%xEx%n" />
            <Policies>
                <TimeBasedTriggeringPolicy interval="1"
                    modulate="true" />
                <SizeBasedTriggeringPolicy size="${EVERY_FILE_SIZE}" />
            </Policies>
            <Filters>
                <ThresholdFilter level="INFO" onMatch="ACCEPT"
                    onMismatch="NEUTRAL" />
            </Filters>
        </RollingRandomAccessFile> 

roll后的文件格式如下

clipboard[1]

2、日志内容

json格式文件,最外层json按顺序为:tableName,logRequest,timestamp,statBody,logResponse,resultCode,resultMsg

2016-11-30 09:18:21.916 INFO - {

    "tableName": "ReportView",

    "logRequest": {

         ***

    },

    "timestamp": 1480468701432,

    "statBody": {

        ***

    },

    "logResponse": {

        ***

    },

    "resultCode": 1,

    "resultFailMsg": ""

} 

三、flume配置

虚拟机环境,请参考  http://www.linuxidc.com/Linux/2016-12/137955.htm

Hadoop环境,请参考  http://www.linuxidc.com/Linux/2016-12/137957.htm

此处flume环境是

CentOS1:flume-agent

centos2:flume-collector

1、flume agent配置,conf文件

a1.sources = linuxidcSource

a1.channels = linuxidcChannel

a1.sinks = linuxidcSink

a1.sources.linuxidcSource.type = spooldir

a1.sources.linuxidcSource.channels = linuxidcChannel

#日志目录

a1.sources.linuxidcSource.spoolDir = /opt/flumeSpool

a1.sources.linuxidcSource.fileHeader = true

#日志内容处理完后,会生成.COMPLETED后缀的文件,同时.log文件每一分钟roll一个,此处忽略.log文件与.COMPLETED文件

a1.sources.linuxidcSource.ignorePattern=([^_]+)|(.*(\.log)$)|(.*(\.COMPLETED)$)

a1.sources.linuxidcSource.basenameHeader=true

a1.sources.linuxidcSource.deserializer.maxLineLength=102400

#自定义拦截器,对json格式的源日志进行字段分隔,并添加timestamp,为后面的hdfsSink做处理,拦截器代码见后面

a1.sources.linuxidcSource.interceptors=i1

a1.sources.linuxidcSource.interceptors.i1.type=com.linuxidc.flume_interceptor.HiveLogInterceptor2$Builder

a1.sinks.linuxidcSink.type = avro

a1.sinks.linuxidcSink.channel = linuxidcChannel

a1.sinks.linuxidcSink.hostname = centos2

a1.sinks.linuxidcSink.port = 4545

#此处配置deflate压缩后,hive collector那边一定也要相应配置解压缩

a1.sinks.linuxidcSink.compression-type=deflate

a1.channels.linuxidcChannel.type=memory

a1.channels.linuxidcChannel.capacity=10000

a1.channels.linuxidcChannel.transactionCapacity=1000 

2、flume collector配置

a1.sources = avroSource

a1.channels = memChannel

a1.sinks = hdfsSink

a1.sources.avroSource.type = avro

a1.sources.avroSource.channels = memChannel

a1.sources.avroSource.bind=centos2

a1.sources.avroSource.port=4545

#与flume agent配置对应

a1.sources.avroSource.compression-type=deflate

a1.sinks.hdfsSink.type = hdfs

a1.sinks.hdfsSink.channel = memChannel

# linuxidc_hive_log为hive表,按年-月-日分区存储,

a1.sinks.hdfsSink.hdfs.path=hdfs://centos1:9000/flume/linuxidc_hive_log/dt=%Y-%m-%d

a1.sinks.hdfsSink.hdfs.batchSize=10000

a1.sinks.hdfsSink.hdfs.fileType=DataStream

a1.sinks.hdfsSink.hdfs.writeFormat=Text

a1.sinks.hdfsSink.hdfs.rollSize=10240000

a1.sinks.hdfsSink.hdfs.rollCount=0

a1.sinks.hdfsSink.hdfs.rollInterval=300

a1.channels.memChannel.type=memory

a1.channels.memChannel.capacity=100000

a1.channels.memChannel.transactionCapacity=10000 

四、hive表创建与分区

1、hive表创建

在hive中执行建表语句后,hdfs://centos1:9000/flume/目录下新生成了linuxidc_hive_log目录。(建表语句里面有location关键字)

\u0001表示hive通过该分隔符进行字段分离,该字符在linux用vim编辑器打开是^A。

由于日志格式是JSON格式,因为需要将JSON格式转换成\u0001字符分隔,并通过dt进行分区。这一步通过flume自定义拦截器来完成。

CREATE TABLE `linuxidc_hive_log`(

`tableNmae` string,

`logRequest` string,

`timestamp` bigint,

`statBody` string,

`logResponse` string,

`resultCode` int,

`resultFailMsg` string

)

PARTITIONED BY (

`dt` string)

ROW FORMAT DELIMITED

FIELDS TERMINATED BY '\u0001'

STORED AS INPUTFORMAT

'org.apache.hadoop.mapred.TextInputFormat'

OUTPUTFORMAT

'org.apache.hadoop.hive.ql.io.HiveIgnoreKeyTextOutputFormat'

LOCATION

'hdfs://centos1:9000/flume/linuxidc_hive_log'

2、hive表分区

日志flume sink到hdfs上时,如果没有对hive表预先进行分区,会出现日志已经上传到hdfs目录,但是hive表却无法加载数据的情况。
这是因为hive表的分区没有创建。因此要对表进行分区添加,这里对最近一年左右时间进行分区添加
分区脚本 init_flume_hive_table.sh
for ((i=-1;i<=365;i++))
do

        dt=$(date -d "$(date +%F) ${i} days" +%Y-%m-%d)

        echo date=$dt

        hive -e "ALTER TABLE linuxidc_hive_log ADD PARTITION(dt='${dt}')" >> logs/init_linuxidc_hive_log.out 2>>logs/init_linuxidc_hive_log.err

done 

五、自定义flume拦截器

新建maven工程,拦截器HiveInterceptor2代码如下。

package com.linuxidc.flume_interceptor;

import java.util.ArrayList;

import java.util.List;

import java.util.Map;

import org.apache.flume.Context;

import org.apache.flume.Event;

import org.apache.flume.interceptor.Interceptor;

import org.apache.flume.interceptor.TimestampInterceptor.Constants;

import org.slf4j.Logger;

import org.slf4j.LoggerFactory;

import com.alibaba.fastjson.JSONObject;

import com.google.common.base.Charsets;

import com.google.common.base.Joiner;

public class HiveLogInterceptor2 implements Interceptor

{

    private static Logger logger = LoggerFactory.getLogger(HiveLogInterceptor2.class);

    public static final String HIVE_SEPARATOR = "\001";

    public void close()

    {

        // TODO Auto-generated method stub

    }

    public void initialize()

    {

        // TODO Auto-generated method stub

    }

    public Event intercept(Event event)

    {

        String orginalLog = new String(event.getBody(), Charsets.UTF_8);

        try

        {

            String log = this.parseLog(orginalLog);

            // 设置时间,用于hdfsSink

            long now = System.currentTimeMillis();

            Map headers = event.getHeaders();

            headers.put(Constants.TIMESTAMP, Long.toString(now));

            event.setBody(log.getBytes());

        } catch (Throwable throwable)

        {

            logger.error(("errror when intercept,log [ " + orginalLog + " ] "), throwable);

            return null;

        }

        return event;

    }

    public List<Event> intercept(List<Event> list)

    {

        List<Event> events = new ArrayList<Event>();

        for (Event event : list)

        {

            Event interceptedEvent = this.intercept(event);

            if (interceptedEvent != null)

            {

                events.add(interceptedEvent);

            }

        }

        return events;

    }

    private static String parseLog(String log)

    {

        List<String> logFileds = new ArrayList<String>();

        String dt = log.substring(0, 10);

        String keyStr = "INFO - ";

        int index = log.indexOf(keyStr);

        String content = "";

        if (index != -1)

        {

            content = log.substring(index + keyStr.length(), log.length());

        }

        //针对不同OS,使用不同回车换行符号

        content = content.replaceAll("\r", "");

        content = content.replaceAll("\n", "\\\\" + System.getProperty("line.separator"));

        JSONObject jsonObj = JSONObject.parseObject(content);

        String tableName = jsonObj.getString("tableName");

        String logRequest = jsonObj.getString("logRequest");

        String timestamp = jsonObj.getString("timestamp");

        String statBody = jsonObj.getString("statBody");

        String logResponse = jsonObj.getString("logResponse");

        String resultCode = jsonObj.getString("resultCode");

        String resultFailMsg = jsonObj.getString("resultFailMsg");

        //字段分离

        logFileds.add(tableName);

        logFileds.add(logRequest);

        logFileds.add(timestamp);

        logFileds.add(statBody);

        logFileds.add(logResponse);

        logFileds.add(resultCode);

        logFileds.add(resultFailMsg);

        logFileds.add(dt);

        return Joiner.on(HIVE_SEPARATOR).join(logFileds);

    }

    public static class Builder implements Interceptor.Builder

    {

        public Interceptor build()

        {

            return new HiveLogInterceptor2();

        }

        public void configure(Context arg0)

        {

        }

    }

} 

pom.xml增加如下配置,将flume拦截器工程进行maven打包,jar包与依赖包均拷到${flume-agent}/lib目录

<build>
        <plugins>
            <plugin>
                <groupId>org.apache.maven.plugins</groupId>
                <artifactId>maven-dependency-plugin</artifactId>
                <configuration>
                    <outputDirectory>
                        ${project.build.directory}
                    </outputDirectory>
                </configuration>
            </plugin>
            <plugin>
                <groupId>org.apache.maven.plugins</groupId>
                <artifactId>maven-dependency-plugin</artifactId>
                <executions>
                    <execution>
                        <id>copy-dependencies</id>
                        <phase>prepare-package</phase>
                        <goals>
                            <goal>copy-dependencies</goal>
                        </goals>
                        <configuration>
                            <outputDirectory>${project.build.directory}/lib</outputDirectory>
                            <overWriteReleases>true</overWriteReleases>
                            <overWriteSnapshots>true</overWriteSnapshots>
                            <overWriteIfNewer>true</overWriteIfNewer>
                        </configuration>
                    </execution>
                </executions>
            </plugin>
        </plugins>
    </build> 

对日志用分隔符"\001"进行分隔,。经拦截器处理后的日志格式如下,^A即是"\001"

ReportView^A{"request":{},"requestBody":{"detailInfos":[],"flag":"","reportId":7092,"pageSize":0,"searchs":[],"orders":[],"pageNum":1}}^A1480468701432^A{"sourceId":22745,"reportId":7092,"projectId":29355,"userId":2532}^A{"responseBody":{"statusCodeValue":200,"httpHeaders":{},"body":{"msg":"请求成功","httpCode":200,"timestamp":1480468701849},"statusCode":"OK"},"response":{}}^A1^A^A2016-11-30

至此,flume+Hdfs+Hive的配置均已完成。

后续可以通过mapreduce或者HQL对数据进行分析。

六、启动运行与结果

1、启动hadoop hdfs

参考前一篇文章:Hadoop 1.2 集群搭建与环境配置  http://www.linuxidc.com/Linux/2016-12/137957.htm

2、启动flume_collector和flume_agent,由于flume启动命令参数太多,自己写了一个启动脚本

start-Flume.sh

#!/bin/bash
jps -l|grep org.apache.flume.node.Application|awk '{print $1}'|xargs kill -9 2>&1 >/dev/null
cd "$(dirname "$0")"
cd ..
nohup bin/flume-ng agent --conf conf --conf-file conf/flume-conf.properties --name a1 2>&1 > /dev/null &

3、hdfs查看数据

可以看到搜集的日志已经上传到HDFS上

[root@centos1 bin]# rm -rf FlumeData.1480587273016.tmp 
[root@centos1 bin]# hadoop fs -ls /flume/linuxidc_hive_log/dt=2016-12-01/
Found 3 items
-rw-r--r--   3 root supergroup       5517 2016-12-01 08:12 /flume/linuxidc_hive_log/dt=2016-12-01/FlumeData.1480608753042.tmp
-rw-r--r--   3 root supergroup       5517 2016-12-01 08:40 /flume/linuxidc_hive_log/dt=2016-12-01/FlumeData.1480610453116
-rw-r--r--   3 root supergroup       5517 2016-12-01 08:44 /flume/linuxidc_hive_log/dt=2016-12-01/FlumeData.1480610453117
[root@centos1 bin]#  

4、启动hive,查看数据,可以看到hive已经可以加载hdfs数据

[root@centos1 lib]# hive

Logging initialized using configuration in file:/root/apache-hive-1.2.1-bin/conf/hive-log4j.properties
hive> select * from linuxidc_hive_log limit 2;
OK
ReportView    {"request":{},"requestBody":{"detailInfos":[],"flag":"","reportId":7092,"pageSize":0,"searchs":[],"orders":[],"pageNum":1}}    1480468701432    {"sourceId":22745,"reportId":7092,"projectId":29355,"userId":2532}    {"responseBody":{"statusCodeValue":200,"httpHeaders":{},"body":{"msg":"请求成功","httpCode":200,"timestamp":1480468701849},"statusCode":"OK"},"response":{}}    1        2016-12-01
ReportDesignResult    {"request":{},"requestBody":{"sourceId":22745,"detailInfos":[{"colName":"月份","flag":"0","reportId":7092,"colCode":"col_2_22745","pageSize":20,"type":"1","pageNum":1,"rcolCode":"col_25538","colType":"string","formula":"","id":25538,"position":"row","colId":181664,"dorder":1,"pColName":"月份","pRcolCode":"col_25538"},{"colName":"综合利率(合计)","flag":"1","reportId":7092,"colCode":"col_11_22745","pageSize":20,"type":"1","pageNum":1,"rcolCode":"sum_col_25539","colType":"number","formula":"sum","id":25539,"position":"group","colId":181673,"dorder":1,"pColName":"综合利率","pRcolCode":"col_25539"}],"flag":"bar1","reportId":7092,"reportName":"iiiissszzzV","pageSize":100,"searchs":[],"orders":[],"pageNum":1,"projectId":29355}}    1480468703586{"reportType":"bar1","sourceId":22745,"reportId":7092,"num":5,"usedFields":"月份$$综合利率(合计)$$","projectId":29355,"userId":2532}    {"responseBody":{"statusCodeValue":200,"httpHeaders":{},"body":{"msg":"请求成功","reportId":7092,"httpCode":200,"timestamp":1480468703774},"statusCode":"OK"},"response":{}}    1        2016-12-01
Time taken: 2.212 seconds, Fetched: 2 row(s)
hive> 

七、常见问题与处理方法

1、FATAL: Spool Directory source linuxidcSource: { spoolDir: /opt/flumeSpool }: Uncaught exception in SpoolDirectorySource thread. Restart or reconfigure Flume to continue processing.

java.nio.charset.MalformedInputException: Input length = 1

可能原因:

1、字符编码问题,spoolDir目录下的日志文件必须是UTF-8

2、使用Spooling Directory Source的时候,一定要避免同时读写一个文件的情况,conf文件增加如下配置

a1.sources.linuxidcSource.ignorePattern=([^_]+)|(.*(\.log)$)|(.*(\.COMPLETED)$)

2、日志导入到hadoop目录,但是hive表查询无数据。如hdfs://centos1:9000/flume/linuxidc_hive_log/dt=2016-12-01/下面有数据,

hive查询 select * from linuxidc_hive_log 却无数据

可能原因:

1、建表的时候,没有建立分区。即使flume进行了配置(a1.sinks.hdfsSink.hdfs.path=hdfs://centos1:9000/flume/linuxidc_hive_log/dt=%Y-%m-%d),但是表的分区结构没有建立,因此文件导入到HDFS上后,HIVE并不能读取。

解决方法:先创建分区,建立shell可执行文件,将该表的分区先建好

for ((i=-10;i<=365;i++))
do

        dt=$(date -d "$(date +%F) ${i} days" +%Y-%m-%d)

        echo date=$dt

        hive -e "ALTER TABLE linuxidc_hive_log ADD PARTITION(dt='${dt}')" >> logs/init_linuxidc_hive_log.out 2>>logs/init_linuxidc_hive_log.err

done

2、也可能是文件在hdfs上还是.tmp文件,仍然被hdfs在写入。.tmp文件hive暂时无法读取,只能读取非.tmp文件。

解决方法:等待hdfs配置的roll间隔时间,或者达到一定大小后tmp文件重命名为hdfs上的日志文件后,再查询hive,即可查到。

Hadoop如何修改HDFS文件存储块大小  http://www.linuxidc.com/Linux/2013-09/90100.htm

将本地文件拷到HDFS中 http://www.linuxidc.com/Linux/2013-05/83866.htm

从HDFS下载文件到本地 http://www.linuxidc.com/Linux/2012-11/74214.htm

将本地文件上传至HDFS http://www.linuxidc.com/Linux/2012-11/74213.htm

HDFS基本文件常用命令 http://www.linuxidc.com/Linux/2013-09/89658.htm

Hadoop中HDFS和MapReduce节点基本简介 http://www.linuxidc.com/Linux/2013-09/89653.htm

《Hadoop实战》中文版+英文文字版+源码【PDF】 http://www.linuxidc.com/Linux/2012-10/71901.htm

Hadoop: The Definitive Guide【PDF版】 http://www.linuxidc.com/Linux/2012-01/51182.htm

更多Hadoop相关信息见Hadoop 专题页面 http://www.linuxidc.com/topicnews.aspx?tid=13

本文永久更新链接地址http://www.linuxidc.com/Linux/2016-12/137959.htm

linux
本文评论   查看全部评论 (0)
表情: 表情 姓名: 字数

       

评论声明
  • 尊重网上道德,遵守中华人民共和国的各项有关法律法规
  • 承担一切因您的行为而直接或间接导致的民事或刑事法律责任
  • 本站管理人员有权保留或删除其管辖留言中的任意内容
  • 本站有权在网站内转载或引用您的评论
  • 参与本评论即表明您已经阅读并接受上述条款