services/java/com/android/server/EntropyMixer.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2009 The Android Open Source Project
  *
  * 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 com.android.server;

 import java.io.File;
 import java.io.FileNotFoundException;
 import java.io.FileOutputStream;
 import java.io.IOException;
 import java.io.OutputStream;
 import java.io.PrintWriter;

 import android.os.Binder;
 import android.os.Environment;
 import android.os.Handler;
 import android.os.Message;
 import android.os.SystemProperties;
 import android.util.Slog;

 /**
  * A service designed to load and periodically save &quot;randomness&quot;
  * for the Linux kernel.
  *
  * <p>When a Linux system starts up, the entropy pool associated with
  * {@code /dev/random} may be in a fairly predictable state.  Applications which
  * depend strongly on randomness may find {@code /dev/random} or
  * {@code /dev/urandom} returning predictable data.  In order to counteract
  * this effect, it's helpful to carry the entropy pool information across
  * shutdowns and startups.
  *
  * <p>This class was modeled after the script in
  * <a href="http://www.kernel.org/doc/man-pages/online/pages/man4/random.4.html">man
  * 4 random</a>.
  *
  * <p>TODO: Investigate attempting to write entropy data at shutdown time
  * instead of periodically.
  */
 public class EntropyMixer extends Binder {
     private static final String TAG = "EntropyMixer";
     private static final int ENTROPY_WHAT = 1;
     private static final int ENTROPY_WRITE_PERIOD = 3 * 60 * 60 * 1000;  // 3 hrs
     private static final long START_TIME = System.currentTimeMillis();
     private static final long START_NANOTIME = System.nanoTime();

     private final String randomDevice;
     private final String entropyFile;

     /**
      * Handler that periodically updates the entropy on disk.
      */
     private final Handler mHandler = new Handler() {
         @Override
         public void handleMessage(Message msg) {
             if (msg.what != ENTROPY_WHAT) {
                 Slog.e(TAG, "Will not process invalid message");
                 return;
             }
             writeEntropy();
             scheduleEntropyWriter();
         }
     };

     public EntropyMixer() {
         this(getSystemDir() + "/entropy.dat", "/dev/urandom");
     }

     /** Test only interface, not for public use */
     public EntropyMixer(String entropyFile, String randomDevice) {
         if (randomDevice == null) { throw new NullPointerException("randomDevice"); }
         if (entropyFile == null) { throw new NullPointerException("entropyFile"); }

         this.randomDevice = randomDevice;
         this.entropyFile = entropyFile;
         loadInitialEntropy();
         addDeviceSpecificEntropy();
         writeEntropy();
         scheduleEntropyWriter();
     }

     private void scheduleEntropyWriter() {
         mHandler.removeMessages(ENTROPY_WHAT);
         mHandler.sendEmptyMessageDelayed(ENTROPY_WHAT, ENTROPY_WRITE_PERIOD);
     }

     private void loadInitialEntropy() {
         try {
             RandomBlock.fromFile(entropyFile).toFile(randomDevice, false);
         } catch (FileNotFoundException e) {
             Slog.w(TAG, "No existing entropy file -- first boot?");
         } catch (IOException e) {
             Slog.w(TAG, "Failure loading existing entropy file", e);
         }
     }

     private void writeEntropy() {
         try {
             RandomBlock.fromFile(randomDevice).toFile(entropyFile, true);
         } catch (IOException e) {
             Slog.w(TAG, "Unable to write entropy", e);
         }
     }

     /**
      * Add additional information to the kernel entropy pool.  The
      * information isn't necessarily "random", but that's ok.  Even
      * sending non-random information to {@code /dev/urandom} is useful
      * because, while it doesn't increase the "quality" of the entropy pool,
      * it mixes more bits into the pool, which gives us a higher degree
      * of uncertainty in the generated randomness.  Like nature, writes to
      * the random device can only cause the quality of the entropy in the
      * kernel to stay the same or increase.
      *
      * <p>For maximum effect, we try to target information which varies
      * on a per-device basis, and is not easily observable to an
      * attacker.
      */
     private void addDeviceSpecificEntropy() {
         PrintWriter out = null;
         try {
             out = new PrintWriter(new FileOutputStream(randomDevice));
             out.println("Copyright (C) 2009 The Android Open Source Project");
             out.println("All Your Randomness Are Belong To Us");
             out.println(START_TIME);
             out.println(START_NANOTIME);
             out.println(SystemProperties.get("ro.serialno"));
             out.println(SystemProperties.get("ro.bootmode"));
             out.println(SystemProperties.get("ro.baseband"));
             out.println(SystemProperties.get("ro.carrier"));
             out.println(SystemProperties.get("ro.bootloader"));
             out.println(SystemProperties.get("ro.hardware"));
             out.println(SystemProperties.get("ro.revision"));
             out.println(new Object().hashCode());
             out.println(System.currentTimeMillis());
             out.println(System.nanoTime());
         } catch (IOException e) {
             Slog.w(TAG, "Unable to add device specific data to the entropy pool", e);
         } finally {
             if (out != null) {
                 out.close();
             }
         }
     }

     private static String getSystemDir() {
         File dataDir = Environment.getDataDirectory();
         File systemDir = new File(dataDir, "system");
         systemDir.mkdirs();
         return systemDir.toString();
     }
 }
	/*
	* Copyright (C) 2009 The Android Open Source Project
	*
	* 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 com.android.server;

	import java.io.File;
	import java.io.FileNotFoundException;
	import java.io.FileOutputStream;
	import java.io.IOException;
	import java.io.OutputStream;
	import java.io.PrintWriter;

	import android.os.Binder;
	import android.os.Environment;
	import android.os.Handler;
	import android.os.Message;
	import android.os.SystemProperties;
	import android.util.Slog;

	/**
	* A service designed to load and periodically save "randomness"
	* for the Linux kernel.
	*
	* <p>When a Linux system starts up, the entropy pool associated with
	* {@code /dev/random} may be in a fairly predictable state. Applications which
	* depend strongly on randomness may find {@code /dev/random} or
	* {@code /dev/urandom} returning predictable data. In order to counteract
	* this effect, it's helpful to carry the entropy pool information across
	* shutdowns and startups.
	*
	* <p>This class was modeled after the script in
	* <a href="http://www.kernel.org/doc/man-pages/online/pages/man4/random.4.html">man
	* 4 random</a>.
	*
	* <p>TODO: Investigate attempting to write entropy data at shutdown time
	* instead of periodically.
	*/
	public class EntropyMixer extends Binder {
	private static final String TAG = "EntropyMixer";
	private static final int ENTROPY_WHAT = 1;
	private static final int ENTROPY_WRITE_PERIOD = 3 * 60 * 60 * 1000; // 3 hrs
	private static final long START_TIME = System.currentTimeMillis();
	private static final long START_NANOTIME = System.nanoTime();

	private final String randomDevice;
	private final String entropyFile;

	/**
	* Handler that periodically updates the entropy on disk.
	*/
	private final Handler mHandler = new Handler() {
	@Override
	public void handleMessage(Message msg) {
	if (msg.what != ENTROPY_WHAT) {
	Slog.e(TAG, "Will not process invalid message");
	return;
	}
	writeEntropy();
	scheduleEntropyWriter();
	}
	};

	public EntropyMixer() {
	this(getSystemDir() + "/entropy.dat", "/dev/urandom");
	}

	/** Test only interface, not for public use */
	public EntropyMixer(String entropyFile, String randomDevice) {
	if (randomDevice == null) { throw new NullPointerException("randomDevice"); }
	if (entropyFile == null) { throw new NullPointerException("entropyFile"); }

	this.randomDevice = randomDevice;
	this.entropyFile = entropyFile;
	loadInitialEntropy();
	addDeviceSpecificEntropy();
	writeEntropy();
	scheduleEntropyWriter();
	}

	private void scheduleEntropyWriter() {
	mHandler.removeMessages(ENTROPY_WHAT);
	mHandler.sendEmptyMessageDelayed(ENTROPY_WHAT, ENTROPY_WRITE_PERIOD);
	}

	private void loadInitialEntropy() {
	try {
	RandomBlock.fromFile(entropyFile).toFile(randomDevice, false);
	} catch (FileNotFoundException e) {
	Slog.w(TAG, "No existing entropy file -- first boot?");
	} catch (IOException e) {
	Slog.w(TAG, "Failure loading existing entropy file", e);
	}
	}

	private void writeEntropy() {
	try {
	RandomBlock.fromFile(randomDevice).toFile(entropyFile, true);
	} catch (IOException e) {
	Slog.w(TAG, "Unable to write entropy", e);
	}
	}

	/**
	* Add additional information to the kernel entropy pool. The
	* information isn't necessarily "random", but that's ok. Even
	* sending non-random information to {@code /dev/urandom} is useful
	* because, while it doesn't increase the "quality" of the entropy pool,
	* it mixes more bits into the pool, which gives us a higher degree
	* of uncertainty in the generated randomness. Like nature, writes to
	* the random device can only cause the quality of the entropy in the
	* kernel to stay the same or increase.
	*
	* <p>For maximum effect, we try to target information which varies
	* on a per-device basis, and is not easily observable to an
	* attacker.
	*/
	private void addDeviceSpecificEntropy() {
	PrintWriter out = null;
	try {
	out = new PrintWriter(new FileOutputStream(randomDevice));
	out.println("Copyright (C) 2009 The Android Open Source Project");
	out.println("All Your Randomness Are Belong To Us");
	out.println(START_TIME);
	out.println(START_NANOTIME);
	out.println(SystemProperties.get("ro.serialno"));
	out.println(SystemProperties.get("ro.bootmode"));
	out.println(SystemProperties.get("ro.baseband"));
	out.println(SystemProperties.get("ro.carrier"));
	out.println(SystemProperties.get("ro.bootloader"));
	out.println(SystemProperties.get("ro.hardware"));
	out.println(SystemProperties.get("ro.revision"));
	out.println(new Object().hashCode());
	out.println(System.currentTimeMillis());
	out.println(System.nanoTime());
	} catch (IOException e) {
	Slog.w(TAG, "Unable to add device specific data to the entropy pool", e);
	} finally {
	if (out != null) {
	out.close();
	}
	}
	}

	private static String getSystemDir() {
	File dataDir = Environment.getDataDirectory();
	File systemDir = new File(dataDir, "system");
	systemDir.mkdirs();
	return systemDir.toString();
	}
	}