package de.pixart.messenger.utils; import android.os.Build; import android.os.Process; import android.util.Log; import java.io.ByteArrayOutputStream; import java.io.DataInputStream; import java.io.DataOutputStream; import java.io.File; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.IOException; import java.io.OutputStream; import java.io.UnsupportedEncodingException; import java.security.NoSuchAlgorithmException; import java.security.Provider; import java.security.SecureRandom; import java.security.SecureRandomSpi; import java.security.Security; /** * Fixes for the output of the default PRNG having low entropy. * * The fixes need to be applied via {@link #apply()} before any use of Java * Cryptography Architecture primitives. A good place to invoke them is in the * application's {@code onCreate}. */ public final class PRNGFixes { private static final int VERSION_CODE_JELLY_BEAN = 16; private static final int VERSION_CODE_JELLY_BEAN_MR2 = 18; private static final byte[] BUILD_FINGERPRINT_AND_DEVICE_SERIAL = getBuildFingerprintAndDeviceSerial(); /** Hidden constructor to prevent instantiation. */ private PRNGFixes() { } /** * Applies all fixes. * * @throws SecurityException * if a fix is needed but could not be applied. */ public static void apply() { applyOpenSSLFix(); installLinuxPRNGSecureRandom(); } /** * Applies the fix for OpenSSL PRNG having low entropy. Does nothing if the * fix is not needed. * * @throws SecurityException * if the fix is needed but could not be applied. */ private static void applyOpenSSLFix() throws SecurityException { if ((Build.VERSION.SDK_INT < VERSION_CODE_JELLY_BEAN) || (Build.VERSION.SDK_INT > VERSION_CODE_JELLY_BEAN_MR2)) { // No need to apply the fix return; } try { // Mix in the device- and invocation-specific seed. Class.forName("org.apache.harmony.xnet.provider.jsse.NativeCrypto") .getMethod("RAND_seed", byte[].class) .invoke(null, generateSeed()); // Mix output of Linux PRNG into OpenSSL's PRNG int bytesRead = (Integer) Class .forName( "org.apache.harmony.xnet.provider.jsse.NativeCrypto") .getMethod("RAND_load_file", String.class, long.class) .invoke(null, "/dev/urandom", 1024); if (bytesRead != 1024) { throw new IOException( "Unexpected number of bytes read from Linux PRNG: " + bytesRead); } } catch (Exception e) { throw new SecurityException("Failed to seed OpenSSL PRNG", e); } } /** * Installs a Linux PRNG-backed {@code SecureRandom} implementation as the * default. Does nothing if the implementation is already the default or if * there is not need to install the implementation. * * @throws SecurityException * if the fix is needed but could not be applied. */ private static void installLinuxPRNGSecureRandom() throws SecurityException { if (Build.VERSION.SDK_INT > VERSION_CODE_JELLY_BEAN_MR2) { // No need to apply the fix return; } // Install a Linux PRNG-based SecureRandom implementation as the // default, if not yet installed. Provider[] secureRandomProviders = Security .getProviders("SecureRandom.SHA1PRNG"); if ((secureRandomProviders == null) || (secureRandomProviders.length < 1) || (!LinuxPRNGSecureRandomProvider.class .equals(secureRandomProviders[0].getClass()))) { Security.insertProviderAt(new LinuxPRNGSecureRandomProvider(), 1); } // Assert that new SecureRandom() and // SecureRandom.getInstance("SHA1PRNG") return a SecureRandom backed // by the Linux PRNG-based SecureRandom implementation. SecureRandom rng1 = new SecureRandom(); if (!LinuxPRNGSecureRandomProvider.class.equals(rng1.getProvider() .getClass())) { throw new SecurityException( "new SecureRandom() backed by wrong Provider: " + rng1.getProvider().getClass()); } SecureRandom rng2; try { rng2 = SecureRandom.getInstance("SHA1PRNG"); } catch (NoSuchAlgorithmException e) { throw new SecurityException("SHA1PRNG not available", e); } if (!LinuxPRNGSecureRandomProvider.class.equals(rng2.getProvider() .getClass())) { throw new SecurityException( "SecureRandom.getInstance(\"SHA1PRNG\") backed by wrong" + " Provider: " + rng2.getProvider().getClass()); } } /** * {@code Provider} of {@code SecureRandom} engines which pass through all * requests to the Linux PRNG. */ private static class LinuxPRNGSecureRandomProvider extends Provider { public LinuxPRNGSecureRandomProvider() { super("LinuxPRNG", 1.0, "A Linux-specific random number provider that uses" + " /dev/urandom"); // Although /dev/urandom is not a SHA-1 PRNG, some apps // explicitly request a SHA1PRNG SecureRandom and we thus need to // prevent them from getting the default implementation whose output // may have low entropy. put("SecureRandom.SHA1PRNG", LinuxPRNGSecureRandom.class.getName()); put("SecureRandom.SHA1PRNG ImplementedIn", "Software"); } } /** * {@link SecureRandomSpi} which passes all requests to the Linux PRNG ( * {@code /dev/urandom}). */ public static class LinuxPRNGSecureRandom extends SecureRandomSpi { /* * IMPLEMENTATION NOTE: Requests to generate bytes and to mix in a seed * are passed through to the Linux PRNG (/dev/urandom). Instances of * this class seed themselves by mixing in the current time, PID, UID, * build fingerprint, and hardware serial number (where available) into * Linux PRNG. * * Concurrency: Read requests to the underlying Linux PRNG are * serialized (on sLock) to ensure that multiple threads do not get * duplicated PRNG output. */ private static final File URANDOM_FILE = new File("/dev/urandom"); private static final Object sLock = new Object(); /** * Input stream for reading from Linux PRNG or {@code null} if not yet * opened. * * @GuardedBy("sLock") */ private static DataInputStream sUrandomIn; /** * Output stream for writing to Linux PRNG or {@code null} if not yet * opened. * * @GuardedBy("sLock") */ private static OutputStream sUrandomOut; /** * Whether this engine instance has been seeded. This is needed because * each instance needs to seed itself if the client does not explicitly * seed it. */ private boolean mSeeded; @Override protected void engineSetSeed(byte[] bytes) { try { OutputStream out; synchronized (sLock) { out = getUrandomOutputStream(); } out.write(bytes); out.flush(); } catch (IOException e) { // On a small fraction of devices /dev/urandom is not writable. // Log and ignore. Log.w(PRNGFixes.class.getSimpleName(), "Failed to mix seed into " + URANDOM_FILE); } finally { mSeeded = true; } } @Override protected void engineNextBytes(byte[] bytes) { if (!mSeeded) { // Mix in the device- and invocation-specific seed. engineSetSeed(generateSeed()); } try { DataInputStream in; synchronized (sLock) { in = getUrandomInputStream(); } synchronized (in) { in.readFully(bytes); } } catch (IOException e) { throw new SecurityException("Failed to read from " + URANDOM_FILE, e); } } @Override protected byte[] engineGenerateSeed(int size) { byte[] seed = new byte[size]; engineNextBytes(seed); return seed; } private DataInputStream getUrandomInputStream() { synchronized (sLock) { if (sUrandomIn == null) { // NOTE: Consider inserting a BufferedInputStream between // DataInputStream and FileInputStream if you need higher // PRNG output performance and can live with future PRNG // output being pulled into this process prematurely. try { sUrandomIn = new DataInputStream(new FileInputStream( URANDOM_FILE)); } catch (IOException e) { throw new SecurityException("Failed to open " + URANDOM_FILE + " for reading", e); } } return sUrandomIn; } } private OutputStream getUrandomOutputStream() throws IOException { synchronized (sLock) { if (sUrandomOut == null) { sUrandomOut = new FileOutputStream(URANDOM_FILE); } return sUrandomOut; } } } /** * Generates a device- and invocation-specific seed to be mixed into the * Linux PRNG. */ private static byte[] generateSeed() { try { ByteArrayOutputStream seedBuffer = new ByteArrayOutputStream(); DataOutputStream seedBufferOut = new DataOutputStream(seedBuffer); seedBufferOut.writeLong(System.currentTimeMillis()); seedBufferOut.writeLong(System.nanoTime()); seedBufferOut.writeInt(Process.myPid()); seedBufferOut.writeInt(Process.myUid()); seedBufferOut.write(BUILD_FINGERPRINT_AND_DEVICE_SERIAL); seedBufferOut.close(); return seedBuffer.toByteArray(); } catch (IOException e) { throw new SecurityException("Failed to generate seed", e); } } /** * Gets the hardware serial number of this device. * * @return serial number or {@code null} if not available. */ private static String getDeviceSerialNumber() { // We're using the Reflection API because Build.SERIAL is only available // since API Level 9 (Gingerbread, Android 2.3). try { return (String) Build.class.getField("SERIAL").get(null); } catch (Exception ignored) { return null; } } private static byte[] getBuildFingerprintAndDeviceSerial() { StringBuilder result = new StringBuilder(); String fingerprint = Build.FINGERPRINT; if (fingerprint != null) { result.append(fingerprint); } String serial = getDeviceSerialNumber(); if (serial != null) { result.append(serial); } try { return result.toString().getBytes("UTF-8"); } catch (UnsupportedEncodingException e) { throw new RuntimeException("UTF-8 encoding not supported"); } } }