checki2cp

Library and terminal application which checks for the presence of a usable i2p router by attempting various I2P client-related probes and tests. Includes everything you need to completely embed I2Pd in a Go application on Linux, OSX, and Windows, or use them as modular tools for checking the status of your I2P router.

Directories

• ./ - Files in the base directory contain functions that check for the presence of an I2P router in a default location, or for the presence of an I2CP port. Makefile is also here.
• ./controlcheck - Detects whether an I2PControl API endpoint is available, and provides a tool for finding one if it is available. It is not recommended to use I2PControl checking for presence detection, you will need to parse the errors to know what is going on.
• ./go-i2pd - An example of running an embedded I2Pd router from a Go application
• ./i2cpcheck - A terminal application which probes for an I2P router by looking in a default location, the $PATH, or by probing I2CP.
• ./i2pdbundle - A set of tools and libraries for embedding an I2Pd router in a Go application, then installing it to a location under the application's control.
• ./proxycheck - A tool for determining the presence of an I2P router by making a request(to "proxy.i2p" by default) over an I2P HTTP Proxy.
• ./samcheck - A tool for determining the presence of an I2P router by doing a brief interaction with the SAM API.
• ./zerobundle - Moved to eyedeekay/zerobundle

I2P Router Presence Detection tools

Currently the command-line tool only does presence detection by checking for I2CP and or an I2P router installed in a default location.

Examples:

./ Base Directory

Checking for an I2P Router by default install location

	ok, err := CheckI2PIsInstalledDefaultLocation()
	if err != nil {
		t.Fatal(err)
	}
	if ok {
		t.Log("I2P is installed, successfully confirmed")
	} else {
		t.Log("I2P is in a default location, user feedback is needed")
	}

Checking for an I2P Router by I2CP Port

	ok, err := CheckI2PIsRunning()
	if err != nil {
		t.Fatal(err)
	}
	if ok {
		t.Log("I2P is running, successfully confirmed I2CP")
	} else {
		t.Log("I2P is not running, further testing is needed")
	}

Launching an installed I2P router from the Library

TODO: Make this function work better with i2pd, find a way to integrate it into into the tests, then write the example.

./proxycheck

Make a request through the default I2P HTTP Proxy to test presence

	if ProxyDotI2P() {
		t.Log("Proxy success")
	} else {
		t.Fatal("Proxy not found")
	}

Use a non-default proxy instead

It honors the http_proxy environment variable, so just set it(I like to set both of these in case some system is weird, I suppose it's a meager measure.):

	if err := os.Setenv("HTTP_PROXY", "http://127.0.0.1:4444"); err != nil {
		return false
	}
	if err := os.Setenv("http_proxy", "http://127.0.0.1:4444"); err != nil {
		return false
	}
	if ProxyDotI2P() {
		t.Log("Proxy success")
	} else {
		t.Fatal("Proxy not found")
	}

./samcheck

Check if SAM is available on a default port

	if CheckSAMAvailable("") {
		t.Log("SAM success")
	} else {
		t.Fatal("SAM not found")
	}

Check if SAM is available on a non-default host or port

	if CheckSAMAvailable("127.0.1.1:1234") {
		t.Log("SAM success")
	} else {
		t.Fatal("SAM not found")
	}

I2PD Embedding Tools:

In the very far future, it would be cool to have a 100% pure-Go I2P router, but for right now, what I want to work on is a way of working with I2P and with Go applications, without requiring undue knowledge on the part of the user. The theory is that they want to install one application at a time, and don't want to run more than one I2P router unless they need to. So the embedding tools assume that if they find an I2P router, that they should use that I2P router. At this time, almost any useful I2P configuration will be detected and the embedded router will not start. In the future, this behavior will be configurable.

./controlcheck

See if an I2PControl API is present on any default port

	if itworks, err := CheckI2PControlEcho("", "", "", ""); works {
		t.Log("Proxy success")
	} else if err != nil {
		t.Fatal(err)
	} else {
		t.Fatal("Proxy not found")
	}

Check what host:port/path corresponds to an available default I2PControl API

TODO: Explain why you need this if your goal is to tolerate Java, I2Pd, and Embedded I2Pd all at once

	if host, port, path, err := GetDefaultI2PControlPath(); err != nil {
		t.Fatal("I2PControl Not found")
	} else {
		t.Log("I2Pcontrol found at", host, port, path)
	}

./i2pdbundle

This will completely install, configure, wrap, and run a minimal i2pd router from within a Go application. From here you attach applications via SAM and I2PControl.

	package main

	import (
		"log"

		"github.com/eyedeekay/checki2cp/i2pdbundle"
	)

	func main() {
		if err := i2pd.UnpackI2Pd(); err != nil {
			log.Println(err)
		}
		if path, err := i2pd.FindI2Pd(); err != nil {
			log.Println(err)
		} else {
			log.Println(path)
		}
		//	if cmd, err := i2pd.LaunchI2Pd(); err != nil {
		if _, err := i2pd.LaunchI2Pd(); err != nil {
			log.Println(err)
		}
	}

Roadmap

libboost-date-time1.67.0,libboost-filesystem1.67.0,libboost-program-options1.67.0,libboost-system1.67.0,libc6,libgcc1,libminiupnpc17,libssl1.1,libstdc++6,zlib1g,lsb-base

1. Minimum requirement for Golang UI: Use i2pd and a custom LD_LIBRARY_PATH to create an i2pd bundle for use as a fallback in the non-presence of a usable router.
2. Set up router with SWIG instead of with static embedded executable.
3. Minimize number of components we build(nothing but I2PControl, SAM, and I2CP).
4. Provide easy router/client setup functions to import i2p routers into applications with minimal boilerplate.
5. Pure-Go I2PControl implementation.
6. Pure-Go SAM implementation.
7. Pure-Go I2CP implementation.