25

Question

Are the Java 8 java.util.Base64 MIME Encoder and Decoder a drop-in replacement for the unsupported, internal Java API sun.misc.BASE64Encoder and sun.misc.BASE64Decoder?

What I think so far and why

Based on my investigation and quick tests (see code below) it should be a drop-in replacement because

  • sun.misc.BASE64Encoder based on its JavaDoc is a BASE64 Character encoder as specified in RFC1521. This RFC is part of the MIME specification...
  • java.util.Base64 based on its JavaDoc Uses the "The Base64 Alphabet" as specified in Table 1 of RFC 2045 for encoding and decoding operation... under MIME

Assuming no significant changes in the RFC 1521 and 2045 (I could not find any) and based on my quick test using the Java 8 Base64 MIME Encoder/Decoder should be fine.

What I am looking for

  • an authoritative source confirming or disproving the "drop-in replacement" point OR
  • a counterexample which shows a case where java.util.Base64 has different behaviour than the sun.misc.BASE64Encoder OpenJDK Java 8 implementation (8u40-b25) (BASE64Decoder) OR
  • whatever you think answers above question definitely

For reference

My test code

public class Base64EncodingDecodingRoundTripTest {

    public static void main(String[] args) throws IOException {
        String test1 = " ~!@#$%^& *()_+=`| }{[]\\;: \"?><,./ ";
        String test2 = test1 + test1;

        encodeDecode(test1);
        encodeDecode(test2);
    }

    static void encodeDecode(final String testInputString) throws IOException {
        sun.misc.BASE64Encoder unsupportedEncoder = new sun.misc.BASE64Encoder();
        sun.misc.BASE64Decoder unsupportedDecoder = new sun.misc.BASE64Decoder();

        Base64.Encoder mimeEncoder = java.util.Base64.getMimeEncoder();
        Base64.Decoder mimeDecoder = java.util.Base64.getMimeDecoder();

        String sunEncoded = unsupportedEncoder.encode(testInputString.getBytes());
        System.out.println("sun.misc encoded: " + sunEncoded);

        String mimeEncoded = mimeEncoder.encodeToString(testInputString.getBytes());
        System.out.println("Java 8 Base64 MIME encoded: " + mimeEncoded);

        byte[] mimeDecoded = mimeDecoder.decode(sunEncoded);
        String mimeDecodedString = new String(mimeDecoded, Charset.forName("UTF-8"));

        byte[] sunDecoded = unsupportedDecoder.decodeBuffer(mimeEncoded); // throws IOException
        String sunDecodedString = new String(sunDecoded, Charset.forName("UTF-8"));

        System.out.println(String.format("sun.misc decoded: %s | Java 8 Base64 decoded:  %s", sunDecodedString, mimeDecodedString));

        System.out.println("Decoded results are both equal: " + Objects.equals(sunDecodedString, mimeDecodedString));
        System.out.println("Mime decoded result is equal to test input string: " + Objects.equals(testInputString, mimeDecodedString));
        System.out.println("\n");
    }
}
  • What do you mean by drop-in replacement? Are you just talking about the encoding/decoding behavior? – Cubic Feb 11 '16 at 22:36
  • 1
    @Cubic: I mean by drop-in replacement that I can switch legacy code using sun.misc.BASE64Encoder and sun.misc.BASE64Decoder to Java 8 MIME Base64 Encoder/Decoder for any existing other client code transparently. This seems to be the case, but I like to have an authoritative reference confirming this or a "proof" that this is not the case, otherwise. – Ivo Mori Feb 11 '16 at 23:05
  • Yes, you can switch the legacy code to the new Java 8 Base64 Encoder/Decoder. They will always produce the same output. – jstedfast Feb 12 '16 at 1:21
38
+100

Here's a small test program that illustrates a difference in the encoded strings:

byte[] bytes = new byte[57];
String enc1 = new sun.misc.BASE64Encoder().encode(bytes);
String enc2 = new String(java.util.Base64.getMimeEncoder().encode(bytes),
                         StandardCharsets.UTF_8);

System.out.println("enc1 = <" + enc1 + ">");
System.out.println("enc2 = <" + enc2 + ">");
System.out.println(enc1.equals(enc2));

Its output is:

enc1 = <AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>
enc2 = <AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA>
false

Note that the encoded output of sun.misc.BASE64Encoder has a newline at the end. It doesn't always append a newline, but it happens to do so if the encoded string has exactly 76 characters on its last line. (The author of java.util.Base64 considered this to be a small bug in the sun.misc.BASE64Encoder implementation – see the review thread).

This might seem like a triviality, but if you had a program that relied on this specific behavior, switching encoders might result in malformed output. Therefore, I conclude that java.util.Base64 is not a drop-in replacement for sun.misc.BASE64Encoder.

Of course, the intent of java.util.Base64 is that it's a functionally equivalent, RFC-conformant, high-performance, fully supported and specified replacement that's intended to support migration of code away from sun.misc.BASE64Encoder. You need to be aware of some edge cases like this when migrating, though.

  • 2
    Perfect, you found a counterexample! – Ivo Mori Feb 14 '16 at 16:27
  • Indeed, it would have been really nice if this and any other corner cases (if they exist) were documented properly. Do you know of any other edge cases? – Ivo Mori Feb 14 '16 at 16:46
  • 1
    @IvoMori I'm not aware of any other edge cases, though there probably are some. I doubt they'll be documented. The problem, and this applies to the sun.misc stuff in general, is that it was never formally specified, and there is no suite of conformance and regression tests like there is for the java.* APIs. The sun.misc.BASE64 stuff is just a lump of code that "did what it did" and so it's quite possible or even likely that there are odd edge case behaviors or even bugs lurking there. – Stuart Marks Feb 14 '16 at 18:15
  • in android problem occers... Call requires API level 26 (current min is 21): java.util.Base64#getMimeEncoder more... (Ctrl+F1) – shareef Apr 8 at 13:08
3

There are no changes to the base64 specification between rfc1521 and rfc2045.

All base64 implementations could be considered to be drop-in replacements of one another, the only differences between base64 implementations are:

  1. the alphabet used.
  2. the API's provided (e.g. some might take only act on a full input buffer, while others might be finite state machines allowing you to continue to push chunks of input through them until you are done).

The MIME base64 alphabet has remained constant between RFC versions (it has to or older software would break) and is: ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz+/

As Wikipedia notes, only the last 2 characters may change between base64 implementations.

As an example of a base64 implementation that does change the last 2 characters, the IMAP MUTF-7 specification uses the following base64 alphabet: ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz+,

The reason for the change is that the / character is often used as a path delimiter and since the MUTF-7 encoding is used to flatten non-ASCII directory paths into ASCII, the / character needed to be avoided in encoded segments.

  • Up-voting your explanation as it makes perfectly sense and it also corresponds with what I figured out from the start. Still hoping for some "official" reference - if it even exists. I'd expect that the Java 8 Adaption Guide or the JEP 135 would clearly state that the Java 8 Base64 Encoder/Decoder replace the internal sun.misc.BASE64 implementations. But well, maybe it's just too obvious... Anyway, this QA format becomes then that "official" reference. – Ivo Mori Feb 12 '16 at 10:35
  • It seems that sun.* namespaces should not be used: oracle.com/technetwork/java/faq-sun-packages-142232.html which suggests that the java.util.* base64 classes were added to appease developers who needed base64 support and were having to either implement their own classes or use 3rd party solutions. – jstedfast Feb 12 '16 at 14:13
  • 1
    You could also take, as official proof, that rfc2045 specifically states that it obsoletes rfc1521. – jstedfast Feb 12 '16 at 14:16
1

Assuming both encoders are bug free, then the RFC requires distinct encodings for every 0 byte, 1 byte, 2 byte and 3 bytes sequence. Longer sequences are broken down into as many 3 byte sequences as needed followed by a final sequence. Hence if the two implementations handle all 16,843,009 (1+256+65536+16777216) possible sequences correctly, then the two implementations are also identical.

These tests only take a few minutes to run. By slightly changing your test code, I have done that and my Java 8 installation passed all the test. Hence the public implementation can be used to safely replace the sun.misc implementation.

Here is my test code:

import java.util.Base64;
import java.util.Arrays;
import java.io.IOException;

public class Base64EncodingDecodingRoundTripTest {

    public static void main(String[] args) throws IOException {
        System.out.println("Testing zero byte encoding");
        encodeDecode(new byte[0]);

        System.out.println("Testing single byte encodings");
        byte[] test = new byte[1];
        for(int i=0;i<256;i++) {
            test[0] = (byte) i;
            encodeDecode(test);
        }
        System.out.println("Testing double byte encodings");
        test = new byte[2];
        for(int i=0;i<65536;i++) {
            test[0] = (byte) i;
            test[1] = (byte) (i >>> 8);
            encodeDecode(test);
        }
        System.out.println("Testing triple byte encodings");
        test = new byte[3];
        for(int i=0;i<16777216;i++) {
            test[0] = (byte) i;
            test[1] = (byte) (i >>> 8);
            test[2] = (byte) (i >>> 16);
            encodeDecode(test);
        }
        System.out.println("All tests passed");
    }

    static void encodeDecode(final byte[] testInput) throws IOException {
        sun.misc.BASE64Encoder unsupportedEncoder = new sun.misc.BASE64Encoder();
        sun.misc.BASE64Decoder unsupportedDecoder = new sun.misc.BASE64Decoder();

        Base64.Encoder mimeEncoder = java.util.Base64.getMimeEncoder();
        Base64.Decoder mimeDecoder = java.util.Base64.getMimeDecoder();

        String sunEncoded = unsupportedEncoder.encode(testInput);
        String mimeEncoded = mimeEncoder.encodeToString(testInput);

        // check encodings equal
        if( ! sunEncoded.equals(mimeEncoded) ) {
            throw new IOException("Input "+Arrays.toString(testInput)+" produced different encodings (sun=\""+sunEncoded+"\", mime=\""+mimeEncoded+"\")");
        }

        // Check cross decodes are equal. Note encoded forms are identical
        byte[] mimeDecoded = mimeDecoder.decode(sunEncoded);
        byte[] sunDecoded = unsupportedDecoder.decodeBuffer(mimeEncoded); // throws IOException
        if(! Arrays.equals(mimeDecoded,sunDecoded) ) {
            throw new IOException("Input "+Arrays.toString(testInput)+" was encoded as \""+sunEncoded+"\", but decoded as sun="+Arrays.toString(sunDecoded)+" and mime="+Arrays.toString(mimeDecoded));
        }

    }
}
  • 1
    I like your approach. However, Stuart's answer includes a counterexample which shows an edge case where the two resulting encodings are not identical. – Ivo Mori Feb 14 '16 at 16:37
1

I had same issue, when i moved from sun to java.util.base64, but org.apache.commons.codec.binary.Base64 this solved by problem

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.