Mengotomatiskan pembuatan sandi Windows


Dengan perintah gcloud compute reset-windows-password, pengguna yang memiliki akses tulis ke project Compute Engine dapat mengambil sandi dengan aman untuk akun di instance Windows.

Perintah tersebut melakukannya dengan mengirimkan nama pengguna dan kunci publik RSA ke instance. Agen yang berjalan pada instance kemudian melakukan salah satu hal berikut:

  • Membuat akun pada instance untuk nama pengguna tersebut dan menghasilkan sandi acak.
  • Mereset sandi ke nilai acak jika akun sudah ada.

Agen yang berjalan pada instance mengenkripsi sandi dengan kunci publik yang diberikan dan mengirimkannya kembali ke klien untuk didekripsi oleh kunci pribadi yang terkait.

Bagian ini menjelaskan cara kerja proses tersebut dan memberi Anda beberapa contoh skrip yang mereplikasi langkah-langkah ini secara terprogram. Jika Anda ingin mengikuti langkah-langkah ini secara manual, baca bagian Petunjuk manual.

Sebelum memulai

  • Buat instance Windows.
  • Jika Anda belum melakukannya, siapkan autentikasi. Autentikasi adalah proses verifikasi identitas Anda untuk mengakses layanan dan API Google Cloud. Untuk menjalankan kode atau contoh dari lingkungan pengembangan lokal, Anda dapat mengautentikasi ke Compute Engine dengan memilih salah satu opsi berikut:

    Select the tab for how you plan to use the samples on this page:

    Console

    When you use the Google Cloud console to access Google Cloud services and APIs, you don't need to set up authentication.

    gcloud

    1. Install the Google Cloud CLI, then initialize it by running the following command:

      gcloud init
    2. Set a default region and zone.
    3. REST

      Untuk menggunakan contoh REST API di halaman ini dalam lingkungan pengembangan lokal, gunakan kredensial yang Anda berikan ke gcloud CLI.

        Install the Google Cloud CLI, then initialize it by running the following command:

        gcloud init

      Untuk informasi selengkapnya, lihat Melakukan autentikasi untuk menggunakan REST dalam dokumentasi autentikasi Google Cloud.

Mengotomatiskan pembuatan sandi

Go


//  Copyright 2018 Google Inc. All Rights Reserved.
//
//  Licensed under the Apache License, Version 2.0 (the "License");
//  you may not use this file except in compliance with the License.
//  You may obtain a copy of the License at
//
//      http://www.apache.org/licenses/LICENSE-2.0
//
//  Unless required by applicable law or agreed to in writing, software
//  distributed under the License is distributed on an "AS IS" BASIS,
//  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
//  See the License for the specific language governing permissions and
//  limitations under the License.

package main

import (
	"context"
	"crypto/rand"
	"crypto/rsa"
	"crypto/sha1"
	"encoding/base64"
	"encoding/binary"
	"encoding/json"
	"errors"
	"flag"
	"fmt"
	"log"
	"strings"
	"time"

	daisyCompute "github.com/GoogleCloudPlatform/compute-image-tools/daisy/compute"
	"google.golang.org/api/compute/v1"
)

var (
	instance = flag.String("instance", "", "instance to reset password on")
	zone     = flag.String("zone", "", "zone instance is in")
	project  = flag.String("project", "", "project instance is in")
	user     = flag.String("user", "", "user to reset password for")
)

func getInstanceMetadata(client daisyCompute.Client, i, z, p string) (*compute.Metadata, error) {
	ins, err := client.GetInstance(p, z, i)
	if err != nil {
		return nil, fmt.Errorf("error getting instance: %v", err)
	}

	return ins.Metadata, nil
}

type windowsKeyJSON struct {
	ExpireOn string
	Exponent string
	Modulus  string
	UserName string
}

func generateKey(priv *rsa.PublicKey, u string) (*windowsKeyJSON, error) {
	bs := make([]byte, 4)
	binary.BigEndian.PutUint32(bs, uint32(priv.E))

	return &windowsKeyJSON{
		ExpireOn: time.Now().Add(5 * time.Minute).Format(time.RFC3339),
		// This is different than what the other tools produce,
		// AQAB vs AQABAA==, both are decoded as 65537.
		Exponent: base64.StdEncoding.EncodeToString(bs),
		Modulus:  base64.StdEncoding.EncodeToString(priv.N.Bytes()),
		UserName: u,
	}, nil
}

type credsJSON struct {
	ErrorMessage      string `json:"errorMessage,omitempty"`
	EncryptedPassword string `json:"encryptedPassword,omitempty"`
	Modulus           string `json:"modulus,omitempty"`
}

func getEncryptedPassword(client daisyCompute.Client, i, z, p, mod string) (string, error) {
	out, err := client.GetSerialPortOutput(p, z, i, 4, 0)
	if err != nil {
		return "", err
	}

	for _, line := range strings.Split(out.Contents, "\n") {
		var creds credsJSON
		if err := json.Unmarshal([]byte(line), &creds); err != nil {
			continue
		}
		if creds.Modulus == mod {
			if creds.ErrorMessage != "" {
				return "", fmt.Errorf("error from agent: %s", creds.ErrorMessage)
			}
			return creds.EncryptedPassword, nil
		}
	}
	return "", errors.New("password not found in serial output")
}

func decryptPassword(priv *rsa.PrivateKey, ep string) (string, error) {
	bp, err := base64.StdEncoding.DecodeString(ep)
	if err != nil {
		return "", fmt.Errorf("error decoding password: %v", err)
	}
	pwd, err := rsa.DecryptOAEP(sha1.New(), rand.Reader, priv, bp, nil)
	if err != nil {
		return "", fmt.Errorf("error decrypting password: %v", err)
	}
	return string(pwd), nil
}

func resetPassword(client daisyCompute.Client, i, z, p, u string) (string, error) {
	md, err := getInstanceMetadata(client, *instance, *zone, *project)
	if err != nil {
		return "", fmt.Errorf("error getting instance metadata: %v", err)
	}

	fmt.Println("Generating public/private key pair")
	key, err := rsa.GenerateKey(rand.Reader, 2048)
	if err != nil {
		return "", err
	}

	winKey, err := generateKey(&key.PublicKey, u)
	if err != nil {
		return "", err
	}

	data, err := json.Marshal(winKey)
	if err != nil {
		return "", err
	}

	winKeys := string(data)
	var found bool
	for _, mdi := range md.Items {
		if mdi.Key == "windows-keys" {
			val := fmt.Sprintf("%s\n%s", *mdi.Value, winKeys)
			mdi.Value = &val
			found = true
			break
		}
	}
	if !found {
		md.Items = append(md.Items, &compute.MetadataItems{Key: "windows-keys", Value: &winKeys})
	}

	fmt.Println("Setting new 'windows-keys' metadata")
	if err := client.SetInstanceMetadata(p, z, i, md); err != nil {
		return "", err
	}

	fmt.Println("Fetching encrypted password")
	var trys int
	var ep string
	for {
		time.Sleep(1 * time.Second)
		ep, err = getEncryptedPassword(client, i, z, p, winKey.Modulus)
		if err == nil {
			break
		}
		if trys > 10 {
			return "", err
		}
		trys++
	}

	fmt.Println("Decrypting password")
	return decryptPassword(key, ep)
}

func main() {
	flag.Parse()
	if *instance == "" {
		log.Fatal("-instance flag required")
	}
	if *zone == "" {
		log.Fatal("-zone flag required")
	}
	if *project == "" {
		log.Fatal("-project flag required")
	}
	if *user == "" {
		log.Fatal("-user flag required")
	}

	ctx := context.Background()
	client, err := daisyCompute.NewClient(ctx)
	if err != nil {
		log.Fatalf("Error creating compute service: %v", err)
	}

	fmt.Printf("Resetting password on instance %q for user %q\n", *instance, *user)
	pw, err := resetPassword(client, *instance, *zone, *project, *user)
	if err != nil {
		log.Fatal(err)
	}
	fmt.Printf("- Username: %s\n- Password: %s\n", *user, pw)
}

Python


#!/usr/bin/env python

# Copyright 2015 Google Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import base64
import copy
import datetime
import json
import time

# PyCrypto library: https://pypi.python.org/pypi/pycrypto
from Crypto.Cipher import PKCS1_OAEP
from Crypto.PublicKey import RSA
from Crypto.Util.number import long_to_bytes

# Google API Client Library for Python:
# https://developers.google.com/api-client-library/python/start/get_started
from oauth2client.client import GoogleCredentials
from googleapiclient.discovery import build


def GetCompute():
    """Get a compute object for communicating with the Compute Engine API."""
    credentials = GoogleCredentials.get_application_default()
    compute = build('compute', 'v1', credentials=credentials)
    return compute


def GetInstance(compute, instance, zone, project):
    """Get the data for a Google Compute Engine instance."""
    cmd = compute.instances().get(instance=instance, project=project,
                                  zone=zone)
    return cmd.execute()


def GetKey():
    """Get an RSA key for encryption."""
    # This uses the PyCrypto library
    key = RSA.generate(2048)
    return key


def GetModulusExponentInBase64(key):
    """Return the public modulus and exponent for the key in bas64 encoding."""
    mod = long_to_bytes(key.n)
    exp = long_to_bytes(key.e)

    modulus = base64.b64encode(mod)
    exponent = base64.b64encode(exp)

    return modulus, exponent


def GetExpirationTimeString():
    """Return an RFC3339 UTC timestamp for 5 minutes from now."""
    utc_now = datetime.datetime.utcnow()
    # These metadata entries are one-time-use, so the expiration time does
    # not need to be very far in the future. In fact, one minute would
    # generally be sufficient. Five minutes allows for minor variations
    # between the time on the client and the time on the server.
    expire_time = utc_now + datetime.timedelta(minutes=5)
    return expire_time.strftime('%Y-%m-%dT%H:%M:%SZ')


def GetJsonString(user, modulus, exponent, email):
    """Return the JSON string object that represents the windows-keys entry."""
    expire = GetExpirationTimeString()
    data = {'userName': user,
            'modulus': modulus,
            'exponent': exponent,
            'email': email,
            'expireOn': expire}
    return json.dumps(data)


def UpdateWindowsKeys(old_metadata, metadata_entry):
    """Return updated metadata contents with the new windows-keys entry."""
    # Simply overwrites the "windows-keys" metadata entry. Production code may
    # want to append new lines to the metadata value and remove any expired
    # entries.
    new_metadata = copy.deepcopy(old_metadata)
    new_metadata['items'] = [{
        'key': "windows-keys",
        'value': metadata_entry
    }]
    return new_metadata


def UpdateInstanceMetadata(compute, instance, zone, project, new_metadata):
    """Update the instance metadata."""
    cmd = compute.instances().setMetadata(instance=instance, project=project,
                                          zone=zone, body=new_metadata)
    return cmd.execute()


def GetSerialPortFourOutput(compute, instance, zone, project):
    """Get the output from serial port 4 from the instance."""
    # Encrypted passwords are printed to COM4 on the windows server:
    port = 4
    cmd = compute.instances().getSerialPortOutput(instance=instance,
                                                  project=project,
                                                  zone=zone, port=port)
    output = cmd.execute()
    return output['contents']


def GetEncryptedPasswordFromSerialPort(serial_port_output, modulus):
    """Find and return the correct encrypted password, based on the modulus."""
    # In production code, this may need to be run multiple times if the output
    # does not yet contain the correct entry.
    output = serial_port_output.split('\n')
    for line in reversed(output):
        try:
            entry = json.loads(line)
            if modulus == entry['modulus']:
                return entry['encryptedPassword']
        except ValueError:
            pass


def DecryptPassword(encrypted_password, key):
    """Decrypt a base64 encoded encrypted password using the provided key."""
    decoded_password = base64.b64decode(encrypted_password)
    cipher = PKCS1_OAEP.new(key)
    password = cipher.decrypt(decoded_password)
    return password


def main(instance, zone, project, user, email):
    # Setup
    compute = GetCompute()
    key = GetKey()
    modulus, exponent = GetModulusExponentInBase64(key)

    # Get existing metadata
    instance_ref = GetInstance(compute, instance, zone, project)
    old_metadata = instance_ref['metadata']

    # Create and set new metadata
    metadata_entry = GetJsonString(user, modulus,
                                   exponent, email)
    new_metadata = UpdateWindowsKeys(old_metadata, metadata_entry)
    result = UpdateInstanceMetadata(compute, instance, zone, project,
                                    new_metadata)

    # For this sample code, just sleep for 30 seconds instead of checking for
    # responses. In production code, this should monitor the status of the
    # metadata update operation.
    time.sleep(30)

    # Get and decrypt password from serial port output
    serial_port_output = GetSerialPortFourOutput(compute, instance,
                                                 zone, project)
    enc_password = GetEncryptedPasswordFromSerialPort(serial_port_output,
                                                      modulus)
    password = DecryptPassword(enc_password, key)

    # Display the username, password and IP address for the instance
    print 'Username:   {0}'.format(user)
    print 'Password:   {0}'.format(password)
    ip = instance_ref['networkInterfaces'][0]['accessConfigs'][0]['natIP']
    print 'IP Address: {0}'.format(ip)


if __name__ == '__main__':
    instance = 'my-instance'
    zone = 'us-central1-a'
    project = 'my-project'
    user = 'example-user'
    email = 'user@example.com'
    main(instance, zone, project, user, email)

Java


/**
 * Copyright 2015 Google Inc. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

/**
 * This package demonstrates how to reset Windows passwords in Java.
 */

package cloud.google.com.windows.example;


import com.google.api.client.auth.oauth2.Credential;
import com.google.api.client.googleapis.auth.oauth2.GoogleCredential;
import com.google.api.client.googleapis.javanet.GoogleNetHttpTransport;
import com.google.api.client.http.HttpTransport;
import com.google.api.client.json.JsonFactory;
import com.google.api.client.json.jackson2.JacksonFactory;
import com.google.api.client.repackaged.org.apache.commons.codec.binary.Base64;
import com.google.api.services.compute.Compute;
import com.google.api.services.compute.model.Instance;
import com.google.api.services.compute.model.Metadata;
import com.google.api.services.compute.model.Metadata.Items;
import com.google.api.services.compute.model.SerialPortOutput;
import com.google.common.io.BaseEncoding;

import org.json.simple.JSONObject;
import org.json.simple.parser.JSONParser;

import java.math.BigInteger;
import java.security.KeyFactory;
import java.security.KeyPair;
import java.security.KeyPairGenerator;
import java.security.NoSuchAlgorithmException;
import java.security.Security;
import java.security.spec.InvalidKeySpecException;
import java.security.spec.RSAPublicKeySpec;
import java.text.SimpleDateFormat;
import java.util.Arrays;
import java.util.Date;
import java.util.LinkedList;
import java.util.List;
import java.util.TimeZone;

import javax.crypto.Cipher;

public class ExampleCode {

  public ExampleCode() {}

  // Constants used to configure behavior.
  private static final String ZONE_NAME = "us-central1-a";
  private static final String PROJECT_NAME = "example-project-1234";
  private static final String INSTANCE_NAME = "test-instance";
  private static final String APPLICATION_NAME = "windows-pw-reset";

  // Constants for configuring user name, email, and SSH key expiration.
  private static final String USER_NAME = "example_user";
  private static final String EMAIL = "example_user@test.com";

  // Keys are one-time use, so the metadata doesn't need to stay around for long.
  // 5 minutes chosen to allow for differences between time on the client
  // and time on the server.
  private static final long EXPIRE_TIME = 300000;

  // HttpTransport and JsonFactory used to create the Compute object.
  private static HttpTransport httpTransport;
  private static final JsonFactory JSON_FACTORY = JacksonFactory.getDefaultInstance();



  public static void main(String[] args) {
    ExampleCode ec = new ExampleCode();
    try {
      // Initialize Transport object.
      httpTransport = GoogleNetHttpTransport.newTrustedTransport();

      // Reset the password.
      ec.resetPassword();
    } catch (Exception e) {
      e.printStackTrace();
      System.exit(1);
    }
  }

  public void resetPassword() throws Exception {
    // Get credentials to setup a connection with the Compute API.
    Credential cred = GoogleCredential.getApplicationDefault();

    // Create an instance of the Compute API.
    Compute compute = new Compute.Builder(httpTransport, JSON_FACTORY, null)
        .setApplicationName(APPLICATION_NAME).setHttpRequestInitializer(cred).build();

    // Get the instance object to gain access to the instance's metadata.
    Instance inst = compute.instances().get(PROJECT_NAME, ZONE_NAME, INSTANCE_NAME).execute();
    Metadata metadata = inst.getMetadata();

    // Generate the public/private key pair for encryption and decryption.
    KeyPair keys = generateKeys();

    // Update metadata from instance with new windows-keys entry.
    replaceMetadata(metadata, buildKeyMetadata(keys));

    // Tell Compute Engine to update the instance metadata with our changes.
    compute.instances().setMetadata(PROJECT_NAME, ZONE_NAME, INSTANCE_NAME, metadata).execute();

    System.out.println("Updating metadata...");

    // Sleep while waiting for metadata to propagate - production code may
    // want to monitor the status of the metadata update operation.
    Thread.sleep(30000);

    System.out.println("Getting serial output...");

    // Request the output from serial port 4.
    // In production code, this operation should be polled.
    SerialPortOutput output = compute.instances()
        .getSerialPortOutput(PROJECT_NAME, ZONE_NAME, INSTANCE_NAME).setPort(4).execute();

    // Get the last line - this will be a JSON string corresponding to the
    // most recent password reset attempt.
    String[] entries = output.getContents().split("\n");
    String outputEntry = entries[entries.length - 1];

    // Parse output using the json-simple library.
    JSONParser parser = new JSONParser();
    JSONObject passwordDict = (JSONObject) parser.parse(outputEntry);

    String encryptedPassword = passwordDict.get("encryptedPassword").toString();

    // Output user name and decrypted password.
    System.out.println("\nUser name: " + passwordDict.get("userName").toString());
    System.out.println("Password: " + decryptPassword(encryptedPassword, keys));
  }

  private String decryptPassword(String message, KeyPair keys) {
    try {
      // Add the bouncycastle provider - the built-in providers don't support RSA
      // with OAEPPadding.
      Security.addProvider(new org.bouncycastle.jce.provider.BouncyCastleProvider());

      // Get the appropriate cipher instance.
      Cipher rsa = Cipher.getInstance("RSA/NONE/OAEPPadding", "BC");

      // Add the private key for decryption.
      rsa.init(Cipher.DECRYPT_MODE, keys.getPrivate());

      // Decrypt the text.
      byte[] rawMessage = Base64.decodeBase64(message);
      byte[] decryptedText = rsa.doFinal(rawMessage);

      // The password was encoded using UTF8. Transform into string.
      return new String(decryptedText, "UTF8");
    } catch (Exception e) {
      e.printStackTrace();
      System.exit(1);
    }
    return "";
  }

  private void replaceMetadata(Metadata input, JSONObject newMetadataItem) {
    // Transform the JSON object into a string that the API can use.
    String newItemString = newMetadataItem.toJSONString();

    // Get the list containing all of the Metadata entries for this instance.
    List<Items> items = input.getItems();

    // If the instance has no metadata, items can be returned as null.
    if (items == null)
    {
      items = new LinkedList<Items>();
      input.setItems(items);
    }

    // Find the "windows-keys" entry and update it.
    for (Items item : items) {
      if (item.getKey().compareTo("windows-keys") == 0) {
        // Replace item's value with the new entry.
        // To prevent race conditions, production code may want to maintain a
        // list where the oldest entries are removed once the 32KB limit is
        // reached for the metadata entry.
        item.setValue(newItemString);
        return;
      }
    }

    // "windows.keys" entry doesn't exist in the metadata - append it.
    // This occurs when running password-reset for the first time on an instance.
    items.add(new Items().setKey("windows-keys").setValue(newItemString));
  }

  private KeyPair generateKeys() throws NoSuchAlgorithmException {
    KeyPairGenerator keyGen = KeyPairGenerator.getInstance("RSA");

    // Key moduli for encryption/decryption are 2048 bits long.
    keyGen.initialize(2048);

    return keyGen.genKeyPair();
  }


  @SuppressWarnings("unchecked")
  private JSONObject buildKeyMetadata(KeyPair pair) throws NoSuchAlgorithmException,
      InvalidKeySpecException {
    // Object used for storing the metadata values.
    JSONObject metadataValues = new JSONObject();

    // Encode the public key into the required JSON format.
    metadataValues.putAll(jsonEncode(pair));

    // Add username and email.
    metadataValues.put("userName", USER_NAME);
    metadataValues.put("email", EMAIL);

    // Create the date on which the new keys expire.
    Date now = new Date();
    Date expireDate = new Date(now.getTime() + EXPIRE_TIME);

    // Format the date to match rfc3339.
    SimpleDateFormat rfc3339Format = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'");
    rfc3339Format.setTimeZone(TimeZone.getTimeZone("UTC"));
    String dateString = rfc3339Format.format(expireDate);

    // Encode the expiration date for the returned JSON dictionary.
    metadataValues.put("expireOn", dateString);

    return metadataValues;
  }

  @SuppressWarnings("unchecked")
  private JSONObject jsonEncode(KeyPair keys) throws NoSuchAlgorithmException,
      InvalidKeySpecException {
    KeyFactory factory = KeyFactory.getInstance("RSA");

    // Get the RSA spec for key manipulation.
    RSAPublicKeySpec pubSpec = factory.getKeySpec(keys.getPublic(), RSAPublicKeySpec.class);

    // Extract required parts of the key.
    BigInteger modulus = pubSpec.getModulus();
    BigInteger exponent = pubSpec.getPublicExponent();

    // Grab an encoder for the modulus and exponent to encode using RFC 3548;
    // Java SE 7 requires an external library (Google's Guava used here)
    // Java SE 8 has a built-in Base64 class that can be used instead. Apache also has an RFC 3548
    // encoder.
    BaseEncoding stringEncoder = BaseEncoding.base64();

    // Strip out the leading 0 byte in the modulus.
    byte[] arr = Arrays.copyOfRange(modulus.toByteArray(), 1, modulus.toByteArray().length);

    JSONObject returnJson = new JSONObject();

    // Encode the modulus, add to returned JSON object.
    String modulusString = stringEncoder.encode(arr).replaceAll("\n", "");
    returnJson.put("modulus", modulusString);

    // Encode exponent, add to returned JSON object.
    String exponentString = stringEncoder.encode(exponent.toByteArray()).replaceAll("\n", "");
    returnJson.put("exponent", exponentString);

    return returnJson;
  }
}

Petunjuk manual

Langkah-langkah dalam panduan manual ini menggunakan OpenSSL untuk fungsi kriptografi dan alat Linux/shell Bash untuk beberapa fungsi lainnya, tetapi banyak implementasi lainnya yang dapat dilakukan.

  1. Buat pasangan kunci RSA 2048-bit. Di OpenSSL, buat pasangan kunci ini dengan menjalankan:

    $ openssl genrsa -out private_key 2048
    

    Tindakan ini akan membuat file kunci pribadi bernama private_key dengan isi yang terlihat seperti berikut:

    $ cat private_key
    -----BEGIN RSA PRIVATE KEY-----
    MIIEpAIBAAKCAQEAwgsquN4IBNPqIUnu+h/5Za1kujb2YRhX1vCQVQAkBwnWigcC
    qOBVfRa5JoZfx6KIvEXjWqa77jPvlsxM4WPqnDIM2qiK36up3SKkYwFjff6F2ni/
    ry8vrwXCX3sGZ1hbIHlK0O012HpA3ISeEswVZmX2X67naOvJXfY5v0hGPWqCADao
    +xVxrmxsZD4IWnKl1UaZzI5lhAzr8fw6utHwx1EZ/MSgsEki6tujcZfN+GUDRnmJ
    GQSnPTXmsf7Q4DKreTZk49cuyB3prV91S0x3DYjCUpSXrkVy1Ha5XicGD/q+ystu
    FsJnrrhbNXJbpSjM6sjo/aduAkZJl4FmOt0R7QIDAQABAoIBAQCsT6hHc/tg9iIC
    H5pUiRI55Uj+R5JwVGKkXwl8Qdy8V1MpTOJivpuLsiMGf+sL51xO/CzRsiBOfdYz
    bgaTW9vZimR5w5NW3iTAV2Ps+y2zk9KfV/y3/0nzvUSG70OXgBGj+7GhaBQZwS5Z
    5HZOsOYMAV1QSIv8Uu2FQAK1xuOA4seJ/NK42iXgVB1XvYe2AxCWNqCBJylk9F5N
    8a213oJWw2mwQWCSfZhuvwYRO7w/V+mInKPkKlWvf3SLuMCWeDI8s0jLsJMQ0rbp
    jYXRzc2G+LF1aLxjatiGeLsqfVYerNohufGAajpNkSvcMciDXvD9aJhZqior+x2Q
    rCnMuNRNAoGBAPI6r32wIf8H9GmcvGrXk9OYLq0uJGqAtJDgGmJM5BSX4mlSz+Ni
    SYlQOfi24ykQDo3XbA59Lb6H0L64czi2a3OmpG8s6h4ymp+3cSd1k1AER1oZudwH
    9UScGfSgT/nMgufBwEGlQkCMp5x4Sl20clCHZ49p9eNiXML3wxpCZPIjAoGBAM0T
    NKt/rjqMs0qOWAJKemSPk0zV+1RSjCoOdKC6jmHRGr/MIoKiJLIkywV2m53yv8Wu
    BF3gVUDlwojoOKcVR8588tek5L0j9RshGovKj4Uxz9uPPhzeNnlSA+5PS284VtKz
    LX8xZ/b+MNCyor9jT0qoWylqym0w+M4aFL2tUQSvAoGABJvnQO38B51AIk5QK3xE
    nM8VfEgXe0tNpEAPYHV0FYw6S6S+veXd3lX/dGMOeXaLwFkr/i6Vkz2EVEywLJEU
    BFRUZqUlI0P1OzrDVWvgTLJ4JRe+OJiSKycJO2VdgDRK/Vvra5RYaWADxG9pgtTv
    I+cfqlPq0NPLTg5m0PYYc58CgYBpGt/SygTNA1Hc82mN+wgRxDhVmBJRHGG0KGaD
    /jl9TsOr638AfwPZvdvD+A83+7NoKJEaYCCxu1BiBMsMb263GPkJpvyJKAW2mtfV
    L8MxG9+Rgy/tccJvmaZkHIXoAfMV2DmISBUl1Q/F1thsyQRZmkHmz1Hidsf+MgXR
    VSQCBwKBgQCxwJtGZGPdQbDXcZZtL0yJJIbdt5Q/TrW0es17IPAoze+E6zFg9mo7
    ea9AuGxOGDQwO9n5DBn/3XcSjRnhvXaW60Taz6ZC60Zh/s6IilCmav+n9ewFHJ3o
    AglSJZRJ1Eer0m5m6s2FW5U0Yjthxwkm3WCWS61cOOTvb6xhQ5+WSw==
    -----END RSA PRIVATE KEY-----
    
  2. Buat kunci publik. Untuk membuat kunci publik, jalankan:

    $ openssl rsa -pubout -in private_key -out public_key
    

    Tindakan ini akan membuat file public_key yang terlihat seperti ini:

    $ cat public_key
    -----BEGIN PUBLIC KEY-----
    MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAwgsquN4IBNPqIUnu+h/5
    Za1kujb2YRhX1vCQVQAkBwnWigcCqOBVfRa5JoZfx6KIvEXjWqa77jPvlsxM4WPq
    nDIM2qiK36up3SKkYwFjff6F2ni/ry8vrwXCX3sGZ1hbIHlK0O012HpA3ISeEswV
    ZmX2X67naOvJXfY5v0hGPWqCADao+xVxrmxsZD4IWnKl1UaZzI5lhAzr8fw6utHw
    x1EZ/MSgsEki6tujcZfN+GUDRnmJGQSnPTXmsf7Q4DKreTZk49cuyB3prV91S0x3
    DYjCUpSXrkVy1Ha5XicGD/q+ystuFsJnrrhbNXJbpSjM6sjo/aduAkZJl4FmOt0R
    7QIDAQAB
    -----END PUBLIC KEY-----
    
  3. Ekstrak modulus dan eksponennya. Modulus dan eksponen membentuk kunci publik dan pribadi. Dari kunci publik, ekstrak modulus dan eksponennya:

    $ openssl rsa -in public_key -pubin -text -noout
    Public-Key: (2048 bit)
    Modulus:
        00:c2:0b:2a:b8:de:08:04:d3:ea:21:49:ee:fa:1f:
        f9:65:ad:64:ba:36:f6:61:18:57:d6:f0:90:55:00:
        24:07:09:d6:8a:07:02:a8:e0:55:7d:16:b9:26:86:
        5f:c7:a2:88:bc:45:e3:5a:a6:bb:ee:33:ef:96:cc:
        4c:e1:63:ea:9c:32:0c:da:a8:8a:df:ab:a9:dd:22:
        a4:63:01:63:7d:fe:85:da:78:bf:af:2f:2f:af:05:
        c2:5f:7b:06:67:58:5b:20:79:4a:d0:ed:35:d8:7a:
        40:dc:84:9e:12:cc:15:66:65:f6:5f:ae:e7:68:eb:
        c9:5d:f6:39:bf:48:46:3d:6a:82:00:36:a8:fb:15:
        71:ae:6c:6c:64:3e:08:5a:72:a5:d5:46:99:cc:8e:
        65:84:0c:eb:f1:fc:3a:ba:d1:f0:c7:51:19:fc:c4:
        a0:b0:49:22:ea:db:a3:71:97:cd:f8:65:03:46:79:
        89:19:04:a7:3d:35:e6:b1:fe:d0:e0:32:ab:79:36:
        64:e3:d7:2e:c8:1d:e9:ad:5f:75:4b:4c:77:0d:88:
        c2:52:94:97:ae:45:72:d4:76:b9:5e:27:06:0f:fa:
        be:ca:cb:6e:16:c2:67:ae:b8:5b:35:72:5b:a5:28:
        cc:ea:c8:e8:fd:a7:6e:02:46:49:97:81:66:3a:dd:
        11:ed
    Exponent: 65537 (0x10001)
    
  4. Enkode modulus dan eksponennya. Anda harus mengekstrak dan mengenkode modulus dan eksponen dengan base64. Sebelum mengenkode modulus, hapus byte nol di awal dari modulus. Secara default, file public_key sudah berupa string byte berenkode base64 yang berisi informasi berikut:

    • 32 byte informasi header
    • 1 byte dengan angka nol di awal modulus
    • 256 byte modulus
    • 2 byte header eksponen
    • 3 byte eksponen

    Modulus dan eksponen harus diekstrak dan dienkode secara terpisah dari konten file lainnya. Ekstrak dan enkode modulus beserta eksponen menggunakan perintah berikut:

    $ cat public_key | grep -v -- ----- | base64 -d | dd bs=1 skip=33 count=256 2>/dev/null | base64 -w 0; echo
            wgsquN4IBNPqIUnu+h/5Za1kujb2YRhX1vCQVQAkBwnWigcCqOBVfRa5JoZfx6KIvEXjWqa77jPvlsx
    M4WPqnDIM2qiK36up3SKkYwFjff6F2ni/ry8vrwXCX3sGZ1hbIHlK0O012HpA3ISeEswVZmX2X67naO
    vJXfY5v0hGPWqCADao+xVxrmxsZD4IWnKl1UaZzI5lhAzr8fw6utHwx1EZ/MSgsEki6tujcZfN+GUDR
    nmJGQSnPTXmsf7Q4DKreTZk49cuyB3prV91S0x3DYjCUpSXrkVy1Ha5XicGD/q+ystuFsJnrrhbNXJb
    pSjM6sjo/aduAkZJl4FmOt0R7Q==
    
    $ cat public_key | grep -v -- ----- | base64 -d | dd bs=1 skip=291 count=3 2>/dev/null | base64
    AQAB
    

    Jika Anda mengalami masalah saat mengenkode modulus, pastikan Anda telah menghapus byte nol di awal dari modulus sebelum mencoba mengenkodenya.

  5. Buat objek JSON dengan nama pengguna dan informasi kunci publik. Buat objek JSON dengan data berikut:

    • userName: Nama pengguna untuk login ke instance.
    • modulus: Modulus kunci publik yang berenkode base64.
    • exponent: Eksponen kunci publik yang berenkode base64
    • email: Alamat email pengguna yang meminta sandi. Alamat ini harus berupa alamat email Akun Google yang diautentikasi ke API.
    • expireOn: Stempel waktu berenkode RFC 3399 saat masa berlaku kunci akan berakhir. Stempel waktu ini harus dalam waktu UTC, tetapkan sekitar lima menit ke depan. Karena kunci ini hanya digunakan untuk membuat nama pengguna dan sandi, kunci tersebut tidak lagi diperlukan setelah sandi dibuat. Agen tidak menggunakan kunci yang telah habis masa berlakunya.

    Contoh:

    {\"userName\": \"example-user\",  \"modulus\": \"wgsquN4IBNPqIUnu+h/5Za1kujb2YRhX1
    vCQVQAkBwnWigcCqOBVfRa5JoZfx6KIvEXjWqa77jPvlsxM4WPqnDIM2qiK36up3SKkYwFjff6F
    2ni/ry8vrwXCX3sGZ1hbIHlK0O012HpA3ISeEswVZmX2X67naOvJXfY5v0hGPWqCADao+xVxrmx
    sZD4IWnKl1UaZzI5lhAzr8fw6utHwx1EZ/MSgsEki6tujcZfN+GUDRnmJGQSnPTXmsf7Q4DKreT
    Zk49cuyB3prV91S0x3DYjCUpSXrkVy1Ha5XicGD/q+ystuFsJnrrhbNXJbpSjM6sjo/aduAkZJl
    4FmOt0R7Q==\", \"exponent\": \"AQAB\", \"email\": \"example.user@example.com\",
    \"expireOn\": \"2015-04-14T01:37:19Z\"}
    

    Perhatikan bahwa tidak boleh ada newline di string JSON.

  6. Tambahkan objek JSON ke metadata instance. Tetapkan metadata instance menggunakan kunci metadata windows-keys dan objek JSON sebagai nilai kunci.

    Untuk memperbarui metadata instance di API, Anda harus memberikan sidik jari pada permintaan Anda. Dapatkan sidik jari instance saat ini dengan membuat permintaan GET ke instance:

    GET  https://compute.googleapis.com/compute/v1/projects/myproject/zones/us-central1-f/instances/test-windows-auth
    [..snip..]
    "metadata": {
    "kind": "compute#metadata",
    "fingerprint": "5sFotm8Ee0I=",
    "items": [
     {
     …
     }
    [..snip]..
    

    Selanjutnya, buat permintaan POST ke metode setMetadata, dengan memberikan sidik jari dan objek JSON yang Anda buat:

    POST https://compute.googleapis.com/compute/v1/projects/myproject/zones/us-central1-f/instances/test-windows-auth/setMetadata
    
    {
     "fingerprint": "5sFotm8Ee0I=",
     "items": [
      {
       "value": "{\"userName\": \"example-user\",  \"modulus\": \"wgsquN4IBNPqIUnu+h/5Za1kujb2YRhX1vCQVQAkBwnWigcCqOBVfRa5JoZfx6KIvEXjWqa77jPvlsxM4WPqnDIM2qiK36up3SKkYwFjff6F2ni/ry8vrwXCX3sGZ1hbIHlK0O012HpA3ISeEswVZmX2X67naOvJXfY5v0hGPWqCADao+xVxrmxsZD4IWnKl1UaZzI5lhAzr8fw6utHwx1EZ/MSgsEki6tujcZfN+GUDRnmJGQSnPTXmsf7Q4DKreTZk49cuyB3prV91S0x3DYjCUpSXrkVy1Ha5XicGD/q+ystuFsJnrrhbNXJbpSjM6sjo/aduAkZJl4FmOt0R7Q==\", \"exponent\": \"AQAB\", \"email\": \"user@example.com\", \"expireOn': '2015\"04-14T01:37:19Z\"}\n",
       "key": "windows-keys"
      } ]
    }
    

    Nama kunci harus windows-keys dan nilainya harus ditetapkan ke satu atau beberapa string JSON seperti di atas. Beberapa string harus dipisahkan oleh newline. Saat menambahkan beberapa entri, pastikan nilai metadata tidak melebihi 32 KB.

  7. Baca output dari port serial nomor empat. Agen di instance akan otomatis mengambil nilai windows-keys dan membuat sandi yang dienkripsi. Baca sandi yang dienkripsi dengan membuat kueri port serial nomor empat. Di API, buat permintaan GET ke metode getSerialPortOutput, dengan meneruskan port=4 sebagai parameter kueri:

    GET https://compute.googleapis.com/compute/v1/projects/myproject/zones/us-central1-f/instances/test-windows-auth/serialPort?port=4
    
    {
     "kind": "compute#serialPortOutput",
     "selfLink": "https://www.googleapis.com/compute/v1/projects/myproject/zones/_/instances/test-api-auth/serialPort",
     "contents": "{\"ready\":true,\"version\":\"Microsoft Windows NT 6.1.7601 Service Pack 1\"}\n{\"encryptedPassword\":\"uiHDEhxyvj6lF5GalH
     h9TsMZb4bG6Y9qGmFb9S3XI29yvVsDCLdp4IbUg21MncHcaxP0rFu0kyjxlEXDs8y4L1KOhy6iyB42Lh+vZ4XIMjmvU4rZrjsBZ5TxQo9hL0lBW7o3FRM\\/UIXCeRk39ObUl2A
     jDmQ0mcw1byJI5v9KVJnNMaHdRCy\\/kvN6bx3qqjIhIMu0JExp4UVkAX2Mxb9b+c4o2DiZF5pY6ZfbuEmjSbvGRJXyswkOJ4jTZl+7e6+SZfEal8HJyRfZKiqTjrz+DLjYSlXr
     fIRqlvKeAFGOJq6IRojNWiTOOh8Zorc0iHDTIkf+MY0scfbBUo5m30Bf4w==\",\"exponent\":\"AQAB\",\"modulus\":\"0tiKdO2JmBHss26jnrSAwb583KG\\/ZIw5Jw
     wMPXrCVsFAPwY1OV3RlT1Hp4Xvpibr7rvJbOC+f\\/Gd0cBrK5pccQfccB+OHKpbBof473zEfRbdtFwPn10RfAFj\\/xikW0r\\/XxgG\\/c8tz9bmALBStGqmwOVOLRHxjwgtG
     u4poeuwmFfG6TuwgCadxpllW74mviFd4LZVSuCSni5YJnBM2HSJ8NP6g1fqI17KDXt2XO\\/7kSItubmMk+HGEXdH4qiugHYewaIf1o4XSQROC8xlRl7t\\/RaD4U58hKYkVwg0
     Ir7WzYzAVpG2UR4Co\\/GDG9Hct7HOYekDqVQ+sSZbwzajnVunkw==\",\"passwordFound\":true,\"userName\":\"example-user\"}\n"
    }
    

    Output port serial dapat berisi beberapa respons, yang dipisahkan oleh newline. Untuk menemukan respons yang benar, cocokkan modulus yang Anda teruskan ke output port serial. Setiap respons adalah string berenkode JSON dengan kolom berikut:

    • userName: Nama pengguna yang diteruskan ke instance.
    • passwordFound: Nilai Boolean yang menunjukkan apakah pembuatan sandi berhasil.
    • encryptedPassword: Sandi yang dienkripsi dan berenkode base64.
    • modulus: Modulus yang sebelumnya diteruskan.
    • exponent: Eksponen yang sebelumnya diteruskan.

    Untuk informasi tentang retensi output port serial, lihat Melihat output port serial.

  8. Dekripsi sandi. Untuk mendapatkan sandi, gunakan kunci pribadi yang dibuat sebelumnya untuk mendekripsi sandi yang dienkripsi. Sandi harus didekripsi dengan Optimal Asymmetric Encryption Padding (OAEP). Untuk OpenSSL, perintah untuk mendekripsi data input adalah:

    $ openssl rsautl -decrypt -inkey private_key -oaep
    

    Untuk mendekripsi sandi di atas, berikan nilai encryptedPassword. Jangan lupa untuk menghapus karakter escape \\ dari string terlebih dahulu. Jika tidak, dekripsi akan gagal:

    $ echo 'uiHDEhxyvj6lF5GalHh9TsMZb4bG6Y9qGmFb9S3XI291MncHcaxP0rFu0kyjxlEXDs8y4L1KOhy6iyB42Lh+vZ4XIMjmvU4rZrjsBZ5Tx
    Qo9hL0lBW7o3FRM/UIXCeRk39ObUl2AjDmQ0mcw1byJI5v9KVJnNMaHdRCy/kvN6bx3qqjIhIMu0JExp4UVkAX2Mxb9b+c4o2DiZF5pY6ZfbuEmjS
    bvGRJXyswkOJ4jTZl+7e6+SZfEal8HJyRfZKiqTjrz+DLjYSlXrfIRqlvKeAFGOJq6IRojNWiTOOh8Zorc0iHDTIkf+MY0scfbBUo5m30Bf4w==' |
    base64 -d | openssl rsautl -decrypt -inkey private_key -oaep
    

    Perintah ini akan mencetak sandi yang didekripsi:

    dDkJ_3]*QYS-#>X
    

    Nama pengguna dan sandi untuk akun ini adalah:

    username: example-user
    password: dDkJ_3]*QYS-#>X
    
  9. Hapus semua kunci. Tidak seperti Kunci SSH, kunci yang digunakan untuk mengambil/mereset sandi Windows dimaksudkan untuk bersifat sementara. Menggunakan kembali pasangan kunci publik/pribadi tidak direkomendasikan dan mungkin tidak akan berfungsi seperti yang diharapkan. Jika kunci telah disimpan ke disk, file tersebut harus dihapus pada akhir proses. Lebih baik lagi, jika memungkinkan, simpan kunci tersebut di memori dan hapus setelah proses selesai.

Langkah berikutnya