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frameworks_base/keystore/java/android/security/KeyStoreCryptoOperationChunkedStreamer.java
Alex Klyubin ad9ba10ecd No runtime exceptions during normal use of AndroidKeyStore crypto. 
This changes the implementation of AndroidKeyStore-backed Cipher and
Mac to avoid throwing runtime exceptions during normal use. Runtime
exceptions will now be thrown only due to truly exceptional and
unrecoverable errors (e.g., keystore unreachable, or crypto primitive
not initialized).

This also changes the implementation of Cipher to cache any errors
encountered in Cipher.update until Cipher.doFinal which then throws
them as checked exceptions.

Bug: 20525947
Change-Id: I3c4ad57fe70abfbb817a79402f722a0208660727
2015-04-24 10:54:45 -07:00

273 lines
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Java
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/*
* Copyright (C) 2015 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 android.security;
import android.os.IBinder;
import android.security.keymaster.OperationResult;
import libcore.util.EmptyArray;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
/**
* Helper for streaming a crypto operation's input and output via {@link KeyStore} service's
* {@code update} and {@code finish} operations.
*
* <p>The helper abstracts away to issues that need to be solved in most code that uses KeyStore's
* update and finish operations. Firstly, KeyStore's update operation can consume only a limited
* amount of data in one go because the operations are marshalled via Binder. Secondly, the update
* operation may consume less data than provided, in which case the caller has to buffer the
* remainder for next time. The helper exposes {@link #update(byte[], int, int) update} and
* {@link #doFinal(byte[], int, int) doFinal} operations which can be used to conveniently implement
* various JCA crypto primitives.
*
* <p>Bidirectional chunked streaming of data via a KeyStore crypto operation is abstracted away as
* a {@link Stream} to avoid having this class deal with operation tokens and occasional additional
* parameters to {@code update} and {@code final} operations.
*
* @hide
*/
public class KeyStoreCryptoOperationChunkedStreamer {
/**
* Bidirectional chunked data stream over a KeyStore crypto operation.
*/
public interface Stream {
/**
* Returns the result of the KeyStore {@code update} operation or null if keystore couldn't
* be reached.
*/
OperationResult update(byte[] input);
/**
* Returns the result of the KeyStore {@code finish} operation or null if keystore couldn't
* be reached.
*/
OperationResult finish();
}
// Binder buffer is about 1MB, but it's shared between all active transactions of the process.
// Thus, it's safer to use a much smaller upper bound.
private static final int DEFAULT_MAX_CHUNK_SIZE = 64 * 1024;
private static final byte[] EMPTY_BYTE_ARRAY = new byte[0];
private final Stream mKeyStoreStream;
private final int mMaxChunkSize;
private byte[] mBuffered = EMPTY_BYTE_ARRAY;
private int mBufferedOffset;
private int mBufferedLength;
public KeyStoreCryptoOperationChunkedStreamer(Stream operation) {
this(operation, DEFAULT_MAX_CHUNK_SIZE);
}
public KeyStoreCryptoOperationChunkedStreamer(Stream operation, int maxChunkSize) {
mKeyStoreStream = operation;
mMaxChunkSize = maxChunkSize;
}
public byte[] update(byte[] input, int inputOffset, int inputLength) throws KeyStoreException {
if (inputLength == 0) {
// No input provided
return EMPTY_BYTE_ARRAY;
}
ByteArrayOutputStream bufferedOutput = null;
while (inputLength > 0) {
byte[] chunk;
int inputBytesInChunk;
if ((mBufferedLength + inputLength) > mMaxChunkSize) {
// Too much input for one chunk -- extract one max-sized chunk and feed it into the
// update operation.
inputBytesInChunk = mMaxChunkSize - mBufferedLength;
chunk = ArrayUtils.concat(mBuffered, mBufferedOffset, mBufferedLength,
input, inputOffset, inputBytesInChunk);
} else {
// All of available input fits into one chunk.
if ((mBufferedLength == 0) && (inputOffset == 0)
&& (inputLength == input.length)) {
// Nothing buffered and all of input array needs to be fed into the update
// operation.
chunk = input;
inputBytesInChunk = input.length;
} else {
// Need to combine buffered data with input data into one array.
inputBytesInChunk = inputLength;
chunk = ArrayUtils.concat(mBuffered, mBufferedOffset, mBufferedLength,
input, inputOffset, inputBytesInChunk);
}
}
// Update input array references to reflect that some of its bytes are now in mBuffered.
inputOffset += inputBytesInChunk;
inputLength -= inputBytesInChunk;
OperationResult opResult = mKeyStoreStream.update(chunk);
if (opResult == null) {
throw new KeyStoreConnectException();
} else if (opResult.resultCode != KeyStore.NO_ERROR) {
throw KeyStore.getKeyStoreException(opResult.resultCode);
}
if (opResult.inputConsumed == chunk.length) {
// The whole chunk was consumed
mBuffered = EMPTY_BYTE_ARRAY;
mBufferedOffset = 0;
mBufferedLength = 0;
} else if (opResult.inputConsumed == 0) {
// Nothing was consumed. More input needed.
if (inputLength > 0) {
// More input is available, but it wasn't included into the previous chunk
// because the chunk reached its maximum permitted size.
// Shouldn't have happened.
throw new IllegalStateException("Nothing consumed from max-sized chunk: "
+ chunk.length + " bytes");
}
mBuffered = chunk;
mBufferedOffset = 0;
mBufferedLength = chunk.length;
} else if (opResult.inputConsumed < chunk.length) {
// The chunk was consumed only partially -- buffer the rest of the chunk
mBuffered = chunk;
mBufferedOffset = opResult.inputConsumed;
mBufferedLength = chunk.length - opResult.inputConsumed;
} else {
throw new IllegalStateException("Consumed more than provided: "
+ opResult.inputConsumed + ", provided: " + chunk.length);
}
if ((opResult.output != null) && (opResult.output.length > 0)) {
if (inputLength > 0) {
// More output might be produced in this loop -- buffer the current output
if (bufferedOutput == null) {
bufferedOutput = new ByteArrayOutputStream();
try {
bufferedOutput.write(opResult.output);
} catch (IOException e) {
throw new IllegalStateException("Failed to buffer output", e);
}
}
} else {
// No more output will be produced in this loop
if (bufferedOutput == null) {
// No previously buffered output
return opResult.output;
} else {
// There was some previously buffered output
try {
bufferedOutput.write(opResult.output);
} catch (IOException e) {
throw new IllegalStateException("Failed to buffer output", e);
}
return bufferedOutput.toByteArray();
}
}
}
}
if (bufferedOutput == null) {
// No output produced
return EMPTY_BYTE_ARRAY;
} else {
return bufferedOutput.toByteArray();
}
}
public byte[] doFinal(byte[] input, int inputOffset, int inputLength)
throws KeyStoreException {
if (inputLength == 0) {
// No input provided -- simplify the rest of the code
input = EMPTY_BYTE_ARRAY;
inputOffset = 0;
}
// Flush all buffered input and provided input into keystore/keymaster.
byte[] output = update(input, inputOffset, inputLength);
output = ArrayUtils.concat(output, flush());
OperationResult opResult = mKeyStoreStream.finish();
if (opResult == null) {
throw new KeyStoreConnectException();
} else if (opResult.resultCode != KeyStore.NO_ERROR) {
throw KeyStore.getKeyStoreException(opResult.resultCode);
}
return ArrayUtils.concat(output, opResult.output);
}
/**
* Passes all of buffered input into the the KeyStore operation (via the {@code update}
* operation) and returns output.
*/
public byte[] flush() throws KeyStoreException {
if (mBufferedLength <= 0) {
return EmptyArray.BYTE;
}
byte[] chunk = ArrayUtils.subarray(mBuffered, mBufferedOffset, mBufferedLength);
mBuffered = EmptyArray.BYTE;
mBufferedLength = 0;
mBufferedOffset = 0;
OperationResult opResult = mKeyStoreStream.update(chunk);
if (opResult == null) {
throw new KeyStoreConnectException();
} else if (opResult.resultCode != KeyStore.NO_ERROR) {
throw KeyStore.getKeyStoreException(opResult.resultCode);
}
if (opResult.inputConsumed < chunk.length) {
throw new IllegalStateException("Keystore failed to consume all input. Provided: "
+ chunk.length + ", consumed: " + opResult.inputConsumed);
} else if (opResult.inputConsumed > chunk.length) {
throw new IllegalStateException("Keystore consumed more input than provided"
+ " . Provided: " + chunk.length + ", consumed: " + opResult.inputConsumed);
}
return (opResult.output != null) ? opResult.output : EmptyArray.BYTE;
}
/**
* Main data stream via a KeyStore streaming operation.
*
* <p>For example, for an encryption operation, this is the stream through which plaintext is
* provided and ciphertext is obtained.
*/
public static class MainDataStream implements Stream {
private final KeyStore mKeyStore;
private final IBinder mOperationToken;
public MainDataStream(KeyStore keyStore, IBinder operationToken) {
mKeyStore = keyStore;
mOperationToken = operationToken;
}
@Override
public OperationResult update(byte[] input) {
return mKeyStore.update(mOperationToken, null, input);
}
@Override
public OperationResult finish() {
return mKeyStore.finish(mOperationToken, null, null);
}
}
}
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