Use Hadoop in Go language to achieve efficient big data processing

王林
Release: 2023-06-16 09:07:39
Original
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With the increasing amount of data, big data processing has become one of the most concerning topics in the industry today. As an open source distributed computing framework, Hadoop has become the de facto standard for big data processing. In this article, we will introduce how to use Hadoop in Go language to achieve efficient big data processing.

Why use Hadoop in Go language?

First of all, Go language is a new programming language developed by Google. It has efficient concurrent programming and memory management capabilities, is simple to write, and has fast compilation speed. It is extremely suitable for developing efficient server programs. Secondly, Hadoop provides powerful distributed data processing capabilities and can efficiently process massive amounts of data. It is an open source, free software framework that can quickly build large-scale distributed computing systems.

How to use Hadoop in Go language?

The Go language itself does not support native Hadoop programming, but we can use the Cgo feature of the Go language to call the C/C interface provided by Hadoop to complete access and operations to Hadoop. Cgo is a feature provided by the Go language that allows programmers to call C/C programs in the Go language to complete specific tasks.

First, we need to install Hadoop and the corresponding C/C development library locally. For common Linux distributions, you can directly install related dependent libraries through the package manager, such as libhadoop2.10.1, hadoop-c -libs, etc. If you are under a Windows system, you can compile the corresponding C/C library through the compilation tool chain under Windows.

Next, use the Cgo feature in the Go language program to start the distributed computing task of Hadoop. The specific implementation is as follows:

package main

// #include "hdfs.h"
import "C"

import (
    "fmt"
    "unsafe"
)

func main() {
    const hadoopConfDir = "/etc/hadoop/conf"
    const hadoopAddress = "hdfs://localhost:9000"
    var buf [64]C.char

    C.hdfsGetDefaultConfigPath(&buf[0], 64)
    confDir := C.GoString(&buf[0])
    if confDir == "" {
        confDir = hadoopConfDir
    }

    fs := C.hdfsNew(hadoopAddress, "default")
    defer C.hdfsDisconnect(fs)

    if fs == nil {
        panic(fmt.Errorf("Could not connect to Hadoop Namenode at: %s", hadoopAddress))
    }

    basePath := C.CString("/")
    defer C.free(unsafe.Pointer(basePath))

    fileInfo, _ := C.hdfsListDirectory(fs, basePath, nil)

    for i := 0; fileInfo[i] != nil; i++ {
        fileInfoEntry := fileInfo[i]
        fmt.Println(C.GoString(fileInfoEntry.mName))
    }

    C.hdfsFreeFileInfo(fileInfo, 1)
}
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The above code demonstrates how to start Hadoop's distributed computing tasks in a Go language program. Among them, we first need to try to use the C function hdfsGetDefaultConfigPath provided in the libhdfs library in the program to obtain the default path of the Hadoop configuration file. If the acquisition fails, the path specified by the hadoopConfDir constant is used as the path to the configuration file.

Next, we use the hdfsNew function to create a Hadoop file system object fs. If the creation fails, it means that the Hadoop server cannot be connected, and the program will immediately error. Next, we execute the hdfsListDirectory function to list all files and directories in the root directory of the Hadoop file system and output them in the console.

Finally, we need to manually release the memory and call the hdfsDisconnect function to close the hdfs file system object. Note that in order to correctly allocate and release Cgo memory, when using C language object pointers, you need to use C.CString or C.GoString and other Cgo-specific functions to convert Go language strings to C language strings while using C. The free function releases the requested C memory space.

Using Hadoop for big data sorting

In actual large-scale data processing, it is often necessary to sort data to optimize program processing performance. The following demonstration uses Hadoop in Go language for big data sorting:

package main

// #include "hdfs.h"
import "C"

import (
    "fmt"
    "unsafe"
)

func main() {
    const hadoopAddress = "hdfs://localhost:9000"
    var buf [64]C.char

    C.hdfsGetDefaultConfigPath(&buf[0], 64)
    confDir := C.GoString(&buf[0])
    if confDir == "" {
        panic(fmt.Errorf("Could not find Hadoop configuration"))
    }

    fs := C.hdfsNew(hadoopAddress, "default")
    defer C.hdfsDisconnect(fs)

    const inputPath = "/input"
    const outputPath = "/output"

    inputPathC := C.CString(inputPath)
    outputPathC := C.CString(outputPath)
    defer C.free(unsafe.Pointer(inputPathC))
    defer C.free(unsafe.Pointer(outputPathC))

    sortJobConf := C.hdfsNewJobConf()
    defer C.hdfsDeleteJobConf(sortJobConf)

    C.hdfsConfSet(sortJobConf, C.CString("mapred.reduce.tasks"), C.CString("1"))

    const mapperFunc = `package main
      import (
          "bufio"
          "fmt"
          "os"
          "sort"
          "strings"
      )

      func main() {
          scanner := bufio.NewScanner(os.Stdin)
          var lines []string

          for scanner.Scan() {
              lines = append(lines, scanner.Text())
          }

          sort.Strings(lines)

          for _, str := range lines {
              fmt.Println(str)
          }
      }
    `

    const reducerFunc = ""

    C.hdfsRunStreaming(fs, sortJobConf, 1,
        &inputPathC, 1,
        &outputPathC, 1,
        (*C.char)(unsafe.Pointer(&[]byte(mapperFunc)[0])), C.uint(len(mapperFunc)),
        (*C.char)(unsafe.Pointer(&[]byte(reducerFunc)[0])), C.uint(len(reducerFunc)),
    )

    fmt.Println("Finished sorting")
}
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The above code demonstrates the method of using Hadoop for big data sorting in Go language. First, we create a Hadoop job conf object sortJobConf and set the mapred.reduce.tasks parameter according to the requirements. Here it is set to 1, which means that only one reduce task is executed.

Next, we define a mapperFunc function to read the input file and sort it according to string size. reducerFunc is an empty function, indicating that there is no reduce step for this task.

Finally, we use the hdfsRunStreaming function to start Hadoop's stream calculation, pass in sortJobConf as a parameter, and specify the paths of the input and output files as well as the mapper and reducer functions to complete the task of data sorting.

Summary

This article briefly introduces how to use Hadoop in Go language for big data processing. First, we introduced the method of using Cgo features to call Hadoop's C/C interface in Go language. Next, we demonstrated how to use Hadoop for big data sorting. Through the introduction of this article, readers can learn how to use Go language and Hadoop for efficient big data processing.

The above is the detailed content of Use Hadoop in Go language to achieve efficient big data processing. For more information, please follow other related articles on the PHP Chinese website!

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