一、安装vmware虚拟机
二、在虚拟机上安装ubuntu12.04操作系统
三、安装jdk1.8.0_25
http://www.oracle.com/technetwork/java/javase/downloads/jdk8-downloads-2133151.html
注意:下载操作系统对应版本的jdk
解压:
tar -xzvf jdk-8u25-linux-i586.tar.gz
配置环境变量参数
sudo gedit /etc/profile
export JAVA_HOME=/home/yuanqin/Downloads/jdk1.8.0_25 (此地址为jdk安装路径,每个人根据自己jdk的安装地址进行配置)
export JRE_HOME=${JAVA_HOME}/jre
export CLASSPATH=.:${JAVA_HOME}/lib:${JRE_HOME}/lib
export PATH=${JAVA_HOME}/bin:$PATH
验证是否安装成功:java -version
手动设置系统默认jdk:
sudo update-alternatives --install /usr/bin/java java /home/yuanqin/Downloads/jdk1.8.0_25/bin/java 300
sudo update-alternatives --install /usr/bin/javac javac /home/yuanqin/Downloads/jdk1.8.0_25/bin/javac 300
sudo update-alternatives --config java
四、安装ssh并设置免密码登录
sudo apt-get install ssh
配置为可以免密码登录本机,首先查看yuanqin用户下是否有.ssh文件,没有的话自己创建一个
查看代码:ls -a /home/yuanqin
配置免密码登录的代码: ssh-keygen -t dsa
cat ~/.ssh/id_dsa.pub >> ~/.ssh/authorized_keys
验证是否安装成功:ssh -version ; ssh localhost
五、安装hadoop-1.2.1
http://mirrors.cnnic.cn/apache/hadoop/common/hadoop-1.2.1/
解压:
tar -xzvf hadoop-1.2.1.tar.gz
配置jdk安装位置:
sudo gedit /home/yuanqin/Downloads/hadoop-1.2.1/conf/hadoop-env.sh
值:export JAVA_HOME=/home/yuanqin/Downloads/jdk1.8.0-25
配置core-site.xml文件:
sudo gedit /home/yuanqin/Downloads/hadoop-1.2.1/conf/core-site.xml
值:<configuration>
<property>
<name>fs.default.name</name>
<value>hdfs://localhost:9000</value>
</property>
</configuration>
配置hdfs-site.xml文件:
sudo gedit /home/yuanqin/Downloads/hadoop-1.2.1/conf/hdfs-site.xml
值:<configuration>
<property>
<name>dfs.replication</name>
<value>3</value>
</property>
</configuration>
配置mapre-site.xml文件:
sudo gedit /home/yuanqin/Downloads/hadoop-1.2.1/conf/mapre-site.xml
值:<configuration>
<property>
<name>mapred.job.tracker</name>
<value>localhost:9001</value>
</property>
</configuration>
接下来先格式化文件系统hdfs,进入hadoop文件夹,输入:bin/hadoop namenode -format
启动hadoop: bin/start-all.sh(bin/start-dfs.sh 启动hdfs; bin/start-mapred.sh 启动mapreduce)
验证hadoop是否安装成功;
在浏览器分别输入网址:http://localhost:50030 (mapreduce页面)
http://localhost:50030 (hdfs页面)
六、安装scala-2.10.3
参考:http://shiyanjun.cn/archives/696.html
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tar xvzf scala-2.10.3.tgz
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在~/.bashrc中增加环境变量SCALA_HOME,并使之生效:
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export SCALA_HOME=/usr/scala/scala-2.10.3
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export PATH=$PATH:$SCALA_HOME/bin
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我们首先在主节点m1上配置Spark程序,然后将配置好的程序文件复制分发到集群的各个从结点上。下载解压缩:
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tar xvzf spark-0.9.0-incubating-bin-hadoop1.tgz
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在~/.bashrc中增加环境变量SPARK_HOME,并使之生效:
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export SPARK_HOME=/home/shirdrn/cloud/programs/spark-0.9.0-incubating-bin-hadoop1
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export PATH=$PATH:$SPARK_HOME/bin
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在m1上配置Spark,修改spark-env.sh配置文件:
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cd /home/shirdrn/cloud/programs/spark-0.9.0-incubating-bin-hadoop1/conf
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cp spark-env.sh.template spark-env.sh
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在该脚本文件中,同时将SCALA_HOME配置为Unix环境下实际指向路径,例如:
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export SCALA_HOME=/usr/scala/scala-2.10.3
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修改conf/slaves文件,将计算节点的主机名添加到该文件,一行一个,例如:
最后,将Spark的程序文件和配置文件拷贝分发到从节点机器上:
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scp -r ~/cloud/programs/spark-0.9.0-incubating-bin-hadoop1 shirdrn@s1:~/cloud/programs/
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scp -r ~/cloud/programs/spark-0.9.0-incubating-bin-hadoop1 shirdrn@s2:~/cloud/programs/
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scp -r ~/cloud/programs/spark-0.9.0-incubating-bin-hadoop1 shirdrn@s3:~/cloud/programs/
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启动Spark集群
我们会使用HDFS集群上存储的数据作为计算的输入,所以首先要把Hadoop集群安装配置好,并成功启动,我这里使用的是Hadoop 1.2.1版本。启动Spark计算集群非常简单,执行如下命令即可:
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cd /home/shirdrn/cloud/programs/spark-0.9.0-incubating-bin-hadoop1/
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可以看到,在m1上启动了一个名称为Master的进程,在s1上启动了一个名称为Worker的进程,如下所示,我这里也启动了Hadoop集群:
主节点m1上:
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54968 SecondaryNameNode |
各个进程是否启动成功,也可以查看日志来诊断,例如:
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tail -100f $SPARK_HOME/logs/spark-shirdrn-org.apache.spark.deploy.master.Master-1-m1.out
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tail -100f $SPARK_HOME/logs/spark-shirdrn-org.apache.spark.deploy.worker.Worker-1-s1.out
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Spark集群计算验证
我们使用我的网站的访问日志文件来演示,示例如下:
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27.159.254.192 - - [21/Feb/2014:11:40:46 +0800] "GET /archives/526.html HTTP/1.1" 200 12080 "http://shiyanjun.cn/archives/526.html" "Mozilla/5.0 (Windows NT 5.1; rv:11.0) Gecko/20100101 Firefox/11.0" |
2 |
120.43.4.206 - - [21/Feb/2014:10:37:37 +0800] "GET /archives/417.html HTTP/1.1" 200 11464 "http://shiyanjun.cn/archives/417.html/" "Mozilla/5.0 (Windows NT 5.1; rv:11.0) Gecko/20100101 Firefox/11.0" |
统计该文件里面IP地址出现频率,来验证Spark集群能够正常计算。另外,我们需要从HDFS中读取这个日志文件,然后统计IP地址频率,最后将结果再保存到HDFS中的指定目录。
首先,需要启动用来提交计算任务的Spark Shell:
在Spark Shell上只能使用Scala语言写代码来运行。
然后,执行统计IP地址频率,在Spark Shell中执行如下代码来实现:
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val result = file.flatMap(line => line.split("\\s+.*")).map(word => (word, 1)).reduceByKey((a, b) => a + b)
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上述的文件hdfs://m1:9000/user/shirdrn/wwwlog20140222.log是输入日志文件。处理过程的日志信息,示例如下所示:
14/03/06 21:59:22 INFO MemoryStore: ensureFreeSpace(784) called with curMem=43296, maxMem=311387750 |
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14/03/06 21:59:22 INFO MemoryStore: Block broadcast_11 stored as values to memory (estimated size 784.0 B, free 296.9 MB) |
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14/03/06 21:59:22 INFO FileInputFormat: Total input paths to process : 1 |
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14/03/06 21:59:22 INFO SparkContext: Starting job: collect at <console>:13 |
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14/03/06 21:59:22 INFO DAGScheduler: Registering RDD 84 (reduceByKey at <console>:13) |
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14/03/06 21:59:22 INFO DAGScheduler: Got job 10 (collect at <console>:13) with 1 output partitions (allowLocal=false) |
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14/03/06 21:59:22 INFO DAGScheduler: Final stage: Stage 20 (collect at <console>:13) |
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14/03/06 21:59:22 INFO DAGScheduler: Parents of final stage: List(Stage 21) |
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14/03/06 21:59:22 INFO DAGScheduler: Missing parents: List(Stage 21) |
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14/03/06 21:59:22 INFO DAGScheduler: Submitting Stage 21 (MapPartitionsRDD[84] at reduceByKey at <console>:13), which has no missing parents |
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14/03/06 21:59:22 INFO DAGScheduler: Submitting 1 missing tasks from Stage 21 (MapPartitionsRDD[84] at reduceByKey at <console>:13) |
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14/03/06 21:59:22 INFO TaskSchedulerImpl: Adding task set 21.0 with 1 tasks |
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14/03/06 21:59:22 INFO TaskSetManager: Starting task 21.0:0 as TID 19 on executor localhost: localhost (PROCESS_LOCAL) |
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14/03/06 21:59:22 INFO TaskSetManager: Serialized task 21.0:0 as 1941 bytes in 0 ms |
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14/03/06 21:59:22 INFO Executor: Running task ID 19 |
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14/03/06 21:59:22 INFO BlockManager: Found block broadcast_11 locally |
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14/03/06 21:59:23 INFO Executor: Serialized size of result for 19 is 738 |
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14/03/06 21:59:23 INFO Executor: Sending result for 19 directly to driver |
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14/03/06 21:59:23 INFO TaskSetManager: Finished TID 19 in 211 ms on localhost (progress: 0/1) |
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14/03/06 21:59:23 INFO TaskSchedulerImpl: Remove TaskSet 21.0 from pool |
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14/03/06 21:59:23 INFO DAGScheduler: Completed ShuffleMapTask(21, 0) |
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14/03/06 21:59:23 INFO DAGScheduler: Stage 21 (reduceByKey at <console>:13) finished in 0.211 s |
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14/03/06 21:59:23 INFO DAGScheduler: looking for newly runnable stages |
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14/03/06 21:59:23 INFO DAGScheduler: running: Set() |
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14/03/06 21:59:23 INFO DAGScheduler: waiting: Set(Stage 20) |
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14/03/06 21:59:23 INFO DAGScheduler: failed: Set() |
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14/03/06 21:59:23 INFO DAGScheduler: Missing parents for Stage 20: List() |
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14/03/06 21:59:23 INFO DAGScheduler: Submitting Stage 20 (MapPartitionsRDD[86] at reduceByKey at <console>:13), which is now runnable |
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14/03/06 21:59:23 INFO DAGScheduler: Submitting 1 missing tasks from Stage 20 (MapPartitionsRDD[86] at reduceByKey at <console>:13) |
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14/03/06 21:59:23 INFO TaskSchedulerImpl: Adding task set 20.0 with 1 tasks |
14/03/06 21:59:23 INFO Executor: Finished task ID 19 |
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14/03/06 21:59:23 INFO TaskSetManager: Starting task 20.0:0 as TID 20 on executor localhost: localhost (PROCESS_LOCAL) |
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14/03/06 21:59:23 INFO TaskSetManager: Serialized task 20.0:0 as 1803 bytes in 0 ms |
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14/03/06 21:59:23 INFO Executor: Running task ID 20 |
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14/03/06 21:59:23 INFO BlockManager: Found block broadcast_11 locally |
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14/03/06 21:59:23 INFO BlockFetcherIterator$BasicBlockFetcherIterator: Getting 1 non-zero-bytes blocks out of 1 blocks |
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14/03/06 21:59:23 INFO BlockFetcherIterator$BasicBlockFetcherIterator: Started 0 remote gets in 1 ms |
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14/03/06 21:59:23 INFO Executor: Serialized size of result for 20 is 19423 |
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14/03/06 21:59:23 INFO Executor: Sending result for 20 directly to driver |
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14/03/06 21:59:23 INFO TaskSetManager: Finished TID 20 in 17 ms on localhost (progress: 0/1) |
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14/03/06 21:59:23 INFO TaskSchedulerImpl: Remove TaskSet 20.0 from pool |
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14/03/06 21:59:23 INFO DAGScheduler: Completed ResultTask(20, 0) |
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14/03/06 21:59:23 INFO DAGScheduler: Stage 20 (collect at <console>:13) finished in 0.016 s |
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14/03/06 21:59:23 INFO SparkContext: Job finished: collect at <console>:13, took 0.242136929 s |
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14/03/06 21:59:23 INFO Executor: Finished task ID 20 |
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res14: Array[(String, Int)] = Array((27.159.254.192,28), (120.43.9.81,40), (120.43.4.206,16), (120.37.242.176,56), (64.31.25.60,2), (27.153.161.9,32), (202.43.145.163,24), (61.187.102.6,1), (117.26.195.116,12), (27.153.186.194,64), (123.125.71.91,1), (110.85.106.105,64), (110.86.184.182,36), (27.150.247.36,52), (110.86.166.52,60), (175.98.162.2,20), (61.136.166.16,1), (46.105.105.217,1), (27.150.223.49,52), (112.5.252.6,20), (121.205.242.4,76), (183.61.174.211,3), (27.153.230.35,36), (112.111.172.96,40), (112.5.234.157,3), (144.76.95.232,7), (31.204.154.144,28), (123.125.71.22,1), (80.82.64.118,3), (27.153.248.188,160), (112.5.252.187,40), (221.219.105.71,4), (74.82.169.79,19), (117.26.253.195,32), (120.33.244.205,152), (110.86.165.8,84), (117.26.86.172,136), (27.153.233.101,8), (123.12... |
可以看到,输出了经过map和reduce计算后的部分结果。
最后,我们想要将结果保存到HDFS中,只要输入如下代码:
查看HDFS上的结果数据:
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[shirdrn@m1 ~]$ hadoop fs -cat /user/shirdrn/wwwlog20140222.log.result/part-00000 | head -5
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