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    ip-filtering-tree

    2.1.0 • Public • Published

    ip-filtering-tree

    NPM

    Build Status npm GitHub license npm total downloads

    ip-filtering-tree is high performance on-memory database with key of ip address written in JavaScript. Due to benefits of applying tree algorithm, there are little lag even if a lots of record were registered in the db as long as the permit the space of memory.

    It can also search data various types flexibly with Longest prefix match(also called Maximum prefix length match) rules by using tree algorithms.

    Getting Started

    Installing

    Installing the module is just run the command like below.

    # npm install ip-filtering-tree
    

    Usage

    The basic usage of ip-filtering-tree is to call push, find and delete functions after import this module. Examples are like below.

    • Instantiate
    var IPFilteringTree = require('ip-filtering-tree').IPFilteringTree;
    var db = new IPFilteringTree();
    • push
    // push(<ipaddr>, <subnet mask length>, <data>);
    db.push("192.168.1.0", 24, "Data of 192.168.1.0/24");
    db.push("192.168.2.0", 24, "Data of 192.168.2.0/24");
    db.push("192.168.0.0", 16, "Data of 192.168.0.0/16");
    • find
    db.find("192.168.1.0");    // -> Data of 192.168.1.0/24
    db.find("192.168.2.100");    // -> Data of 192.168.2.0/24
    db.find("192.168.101.32");    // -> Data of 192.168.0.0/16
    • getAllIndexes
    getAllIndexes();        // -> [{ip: "192.168.2.0", mask: 24}, {ip: "192.168.1.0", mask: 24}, {ip: "192.168.0.0", 16}]
    // It does not guarantee that the order
    • delete
    db.delete("192.168.1.0", 24);    // -> Data of 192.168.1.0/24
    db.find("192.168.1.0");  // -> data of 192.168.0.0/16
    db.delete("192.168.0.0", 16);    // -> Data of 192.168.0.0/16
    db.find("192.168.1.0");  // -> undefined (Data of 0.0.0.0/0)

    Use examples

    ip-filtering-tree can push various data such as string, boolean, number or function indexed by IP address. Specific usage examples in the program are as follows.

    • Push file names and open appropriate files for each source ip address.
    var IPFilteringTree = require("ip-filtering-tree").IPFilteringTree;
    var http = require('http');
    var fs = require('fs');
     
    var db = new IPFilteringTree();
    db.push("0.0.0.0", 0, "./html/accept.html");  /* It is a default */
    db.push("192.168.1.0", 24, "./html/deny.html");
    db.push("127.0.0.0", 8, "./html/monitor.html");
     
    http.createServer(function(request, response) {
        response.writeHead(200, {'Content-Type': 'text/plain'});
        // This instruction assumes always returns correct IPv4 address.
        var srcip = request.connection.remoteAddress;
     
        response.end(fs.readFileSync(db.find(srcip)));
    }).listen(8080);
     
    console.log("Listing on port " + 8080);
    • Push functions and call them for each source ip address.
    var IPFilteringTree = require("ip-filtering-tree").IPFilteringTree;
    var http = require('http');
    var ipaddr = require('ipaddr.js');
    var fs = require('fs');
     
    var db = new IPFilteringTree();
    db.push("0.0.0.0", 0, function(response) {
        response.writeHead(404, {'Content-Type': 'text/plain'});
        response.end("404 Not Found\n");
    });
    db.push("192.168.1.0", 24, function(response) {
        response.writeHead(200, {'Content-Type': 'text/plain'});
        response.end(fs.readFileSync('./html/accept.html'));
    });
    db.push("127.0.0.0", 8, function(response) {
        var request = http.request({
            host: 'monitor-server',
            port: 80,
            path: "/",
            method: "GET"
        });
        request.end();
        request.on('response', function(proxyResponse) {
            var data = "";
            proxyResponse.on('data', function(chunk) {
                data += chunk;
            });
            proxyResponse.on('end', function () {
                response.writeHead(proxyResponse.statusCode, proxyResponse.headers);
                response.end(data);
            });
        });
    });
     
    http.createServer(function(request, response) {
        response.writeHead(200, {'Content-Type': 'text/plain'});
        // This instruction assumes always returns correct IPv4 address.
        var srcip = request.connection.remoteAddress;
     
        /* Find the appropriate function and call it with the parameter 'response' */
        db.find(srcip)(response);
    }).listen(8080);
     
    console.log("Listing on port " + 8080);

    Illustration of processing

    ip-filtering-tree searches data by using tree algorithm. In this section, I will illustrate the processing in details to find the data from the ip-filtering-tree.

    Case 1

    It is the case to search the data reaches end of the leaf without mismatch.

    - 00-00 -----------------------------------------------------------------------

    algorithms00_00

    - 00-01 -----------------------------------------------------------------------

    algorithms00_01

    - 00-02 -----------------------------------------------------------------------

    algorithms00_02

    Case 2

    It is the case to search the data reaches middle of the leaf with mismatch.

    - 01-00 -----------------------------------------------------------------------

    algorithms01_00

    - 01-01 -----------------------------------------------------------------------

    algorithms01_01

    - 01-02 -----------------------------------------------------------------------

    algorithms01_02

    - 01-03 -----------------------------------------------------------------------

    algorithms01_03

    TODO

    • Apply IPv6 features
    • Apply cache features

    License

    This software is released under the MIT License, see LICENSE.txt.

    Install

    npm i ip-filtering-tree

    DownloadsWeekly Downloads

    235

    Version

    2.1.0

    License

    MIT

    Unpacked Size

    191 kB

    Total Files

    6

    Last publish

    Collaborators

    • tsutomu_nakamura