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/*
* Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements. See the NOTICE
* file distributed with this work for additional information regarding copyright ownership. The ASF licenses this file
* to You 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 org.apache.tuweni.bytes;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import java.security.SecureRandom;
import java.util.Random;
/**
* A {@link Bytes} value that is guaranteed to contain exactly 32 bytes.
*/
public interface Bytes32 extends Bytes {
/** The number of bytes in this value - i.e. 32 */
int SIZE = 32;
/** A {@code Bytes32} containing all zero bytes */
Bytes32 ZERO = wrap(new byte[32]);
/**
* Wrap the provided byte array, which must be of length 32, as a {@link Bytes32}.
*
*
* Note that value is not copied, only wrapped, and thus any future update to {@code value} will be reflected in the
* returned value.
*
* @param bytes The bytes to wrap.
* @return A {@link Bytes32} wrapping {@code value}.
* @throws IllegalArgumentException if {@code value.length != 32}.
*/
static Bytes32 wrap(byte[] bytes) {
checkNotNull(bytes);
checkArgument(bytes.length == SIZE, "Expected %s bytes but got %s", SIZE, bytes.length);
return wrap(bytes, 0);
}
/**
* Wrap a slice/sub-part of the provided array as a {@link Bytes32}.
*
*
* Note that value is not copied, only wrapped, and thus any future update to {@code value} within the wrapped parts
* will be reflected in the returned value.
*
* @param bytes The bytes to wrap.
* @param offset The index (inclusive) in {@code value} of the first byte exposed by the returned value. In other
* words, you will have {@code wrap(value, i).get(0) == value[i]}.
* @return A {@link Bytes32} that exposes the bytes of {@code value} from {@code offset} (inclusive) to
* {@code offset + 32} (exclusive).
* @throws IndexOutOfBoundsException if {@code offset < 0 || (value.length > 0 && offset >=
* value.length)}.
* @throws IllegalArgumentException if {@code length < 0 || offset + 32 > value.length}.
*/
static Bytes32 wrap(byte[] bytes, int offset) {
checkNotNull(bytes);
return new ArrayWrappingBytes32(bytes, offset);
}
/**
* Wrap a the provided value, which must be of size 32, as a {@link Bytes32}.
*
*
* Note that value is not copied, only wrapped, and thus any future update to {@code value} will be reflected in the
* returned value.
*
* @param value The bytes to wrap.
* @return A {@link Bytes32} that exposes the bytes of {@code value}.
* @throws IllegalArgumentException if {@code value.size() != 32}.
*/
static Bytes32 wrap(Bytes value) {
checkNotNull(value);
if (value instanceof Bytes32) {
return (Bytes32) value;
}
checkArgument(value.size() == SIZE, "Expected %s bytes but got %s", SIZE, value.size());
return new DelegatingBytes32(value);
}
/**
* Wrap a slice/sub-part of the provided value as a {@link Bytes32}.
*
*
* Note that value is not copied, only wrapped, and thus any future update to {@code value} within the wrapped parts
* will be reflected in the returned value.
*
* @param value The bytes to wrap.
* @param offset The index (inclusive) in {@code value} of the first byte exposed by the returned value. In other
* words, you will have {@code wrap(value, i).get(0) == value.get(i)}.
* @return A {@link Bytes32} that exposes the bytes of {@code value} from {@code offset} (inclusive) to
* {@code offset + 32} (exclusive).
* @throws IndexOutOfBoundsException if {@code offset < 0 || (value.size() > 0 && offset >=
* value.size())}.
* @throws IllegalArgumentException if {@code length < 0 || offset + 32 > value.size()}.
*/
static Bytes32 wrap(Bytes value, int offset) {
checkNotNull(value);
Bytes slice = value.slice(offset, Bytes32.SIZE);
if (slice instanceof Bytes32) {
return (Bytes32) slice;
}
return new DelegatingBytes32(value);
}
/**
* Left pad a {@link Bytes} value with zero bytes to create a {@link Bytes32}.
*
* @param value The bytes value pad.
* @return A {@link Bytes32} that exposes the left-padded bytes of {@code value}.
* @throws IllegalArgumentException if {@code value.size() > 32}.
*/
static Bytes32 leftPad(Bytes value) {
checkNotNull(value);
if (value instanceof Bytes32) {
return (Bytes32) value;
}
checkArgument(value.size() <= SIZE, "Expected at most %s bytes but got %s", SIZE, value.size());
MutableBytes32 result = MutableBytes32.create();
value.copyTo(result, SIZE - value.size());
return result;
}
/**
* Right pad a {@link Bytes} value with zero bytes to create a {@link Bytes32}.
*
* @param value The bytes value pad.
* @return A {@link Bytes32} that exposes the rightw-padded bytes of {@code value}.
* @throws IllegalArgumentException if {@code value.size() > 32}.
*/
static Bytes32 rightPad(Bytes value) {
checkNotNull(value);
if (value instanceof Bytes32) {
return (Bytes32) value;
}
checkArgument(value.size() <= SIZE, "Expected at most %s bytes but got %s", SIZE, value.size());
MutableBytes32 result = MutableBytes32.create();
value.copyTo(result, 0);
return result;
}
/**
* Parse a hexadecimal string into a {@link Bytes32}.
*
*
* This method is lenient in that {@code str} may of an odd length, in which case it will behave exactly as if it had
* an additional 0 in front.
*
* @param str The hexadecimal string to parse, which may or may not start with "0x". That representation may contain
* less than 32 bytes, in which case the result is left padded with zeros (see {@link #fromHexStringStrict} if
* this is not what you want).
* @return The value corresponding to {@code str}.
* @throws IllegalArgumentException if {@code str} does not correspond to a valid hexadecimal representation or
* contains more than 32 bytes.
*/
static Bytes32 fromHexStringLenient(CharSequence str) {
checkNotNull(str);
return wrap(BytesValues.fromRawHexString(str, SIZE, true));
}
/**
* Parse a hexadecimal string into a {@link Bytes32}.
*
*
* This method is strict in that {@code str} must of an even length.
*
* @param str The hexadecimal string to parse, which may or may not start with "0x". That representation may contain
* less than 32 bytes, in which case the result is left padded with zeros (see {@link #fromHexStringStrict} if
* this is not what you want).
* @return The value corresponding to {@code str}.
* @throws IllegalArgumentException if {@code str} does not correspond to a valid hexadecimal representation, is of an
* odd length, or contains more than 32 bytes.
*/
static Bytes32 fromHexString(CharSequence str) {
checkNotNull(str);
return wrap(BytesValues.fromRawHexString(str, SIZE, false));
}
/**
* Generate random bytes.
*
* @return A value containing random bytes.
*/
static Bytes32 random() {
return random(new SecureRandom());
}
/**
* Generate random bytes.
*
* @param generator The generator for random bytes.
* @return A value containing random bytes.
*/
static Bytes32 random(Random generator) {
byte[] array = new byte[32];
generator.nextBytes(array);
return wrap(array);
}
/**
* Parse a hexadecimal string into a {@link Bytes32}.
*
*
* This method is extra strict in that {@code str} must of an even length and the provided representation must have
* exactly 32 bytes.
*
* @param str The hexadecimal string to parse, which may or may not start with "0x".
* @return The value corresponding to {@code str}.
* @throws IllegalArgumentException if {@code str} does not correspond to a valid hexadecimal representation, is of an
* odd length or does not contain exactly 32 bytes.
*/
static Bytes32 fromHexStringStrict(CharSequence str) {
checkNotNull(str);
return wrap(BytesValues.fromRawHexString(str, -1, false));
}
@Override
default int size() {
return SIZE;
}
/**
* Return a bit-wise AND of these bytes and the supplied bytes.
*
* @param other The bytes to perform the operation with.
* @return The result of a bit-wise AND.
*/
default Bytes32 and(Bytes32 other) {
return and(other, MutableBytes32.create());
}
/**
* Return a bit-wise OR of these bytes and the supplied bytes.
*
* @param other The bytes to perform the operation with.
* @return The result of a bit-wise OR.
*/
default Bytes32 or(Bytes32 other) {
return or(other, MutableBytes32.create());
}
/**
* Return a bit-wise XOR of these bytes and the supplied bytes.
*
* @param other The bytes to perform the operation with.
* @return The result of a bit-wise XOR.
*/
default Bytes32 xor(Bytes32 other) {
return xor(other, MutableBytes32.create());
}
@Override
default Bytes32 not() {
return not(MutableBytes32.create());
}
@Override
default Bytes32 shiftRight(int distance) {
return shiftRight(distance, MutableBytes32.create());
}
@Override
default Bytes32 shiftLeft(int distance) {
return shiftLeft(distance, MutableBytes32.create());
}
@Override
Bytes32 copy();
@Override
MutableBytes32 mutableCopy();
}