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/*
 * Copyright 2011 Google Inc.
 * Copyright 2014 Andreas Schildbach
 *
 * 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 org.bitcoinj.core;

import com.google.common.base.Objects;
import org.bitcoinj.script.*;
import org.bitcoinj.wallet.Wallet;
import org.slf4j.*;

import javax.annotation.*;
import java.io.*;
import java.util.*;

import static com.google.common.base.Preconditions.*;

/**
 * 

A TransactionOutput message contains a scriptPubKey that controls who is able to spend its value. It is a sub-part * of the Transaction message.

* *

Instances of this class are not safe for use by multiple threads.

*/ public class TransactionOutput extends ChildMessage { private static final Logger log = LoggerFactory.getLogger(TransactionOutput.class); // The output's value is kept as a native type in order to save class instances. private long value; // A transaction output has a script used for authenticating that the redeemer is allowed to spend // this output. private byte[] scriptBytes; // The script bytes are parsed and turned into a Script on demand. private Script scriptPubKey; // These fields are not Bitcoin serialized. They are used for tracking purposes in our wallet // only. If set to true, this output is counted towards our balance. If false and spentBy is null the tx output // was owned by us and was sent to somebody else. If false and spentBy is set it means this output was owned by // us and used in one of our own transactions (eg, because it is a change output). private boolean availableForSpending; @Nullable private TransactionInput spentBy; private int scriptLen; /** * Deserializes a transaction output message. This is usually part of a transaction message. */ public TransactionOutput(NetworkParameters params, @Nullable Transaction parent, byte[] payload, int offset) throws ProtocolException { super(params, payload, offset); setParent(parent); availableForSpending = true; } /** * Deserializes a transaction output message. This is usually part of a transaction message. * * @param params NetworkParameters object. * @param payload Bitcoin protocol formatted byte array containing message content. * @param offset The location of the first payload byte within the array. * @param serializer the serializer to use for this message. * @throws ProtocolException */ public TransactionOutput(NetworkParameters params, @Nullable Transaction parent, byte[] payload, int offset, MessageSerializer serializer) throws ProtocolException { super(params, payload, offset, parent, serializer, UNKNOWN_LENGTH); availableForSpending = true; } /** * Creates an output that sends 'value' to the given address (public key hash). The amount should be created with * something like {@link Coin#valueOf(int, int)}. Typically you would use * {@link Transaction#addOutput(Coin, Address)} instead of creating a TransactionOutput directly. */ public TransactionOutput(NetworkParameters params, @Nullable Transaction parent, Coin value, Address to) { this(params, parent, value, ScriptBuilder.createOutputScript(to).getProgram()); } /** * Creates an output that sends 'value' to the given public key using a simple CHECKSIG script (no addresses). The * amount should be created with something like {@link Coin#valueOf(int, int)}. Typically you would use * {@link Transaction#addOutput(Coin, ECKey)} instead of creating an output directly. */ public TransactionOutput(NetworkParameters params, @Nullable Transaction parent, Coin value, ECKey to) { this(params, parent, value, ScriptBuilder.createOutputScript(to).getProgram()); } public TransactionOutput(NetworkParameters params, @Nullable Transaction parent, Coin value, byte[] scriptBytes) { super(params); // Negative values obviously make no sense, except for -1 which is used as a sentinel value when calculating // SIGHASH_SINGLE signatures, so unfortunately we have to allow that here. checkArgument(value.signum() >= 0 || value.equals(Coin.NEGATIVE_SATOSHI), "Negative values not allowed"); checkArgument(!params.hasMaxMoney() || value.compareTo(params.getMaxMoney()) <= 0, "Values larger than MAX_MONEY not allowed"); this.value = value.value; this.scriptBytes = scriptBytes; setParent(parent); availableForSpending = true; length = 8 + VarInt.sizeOf(scriptBytes.length) + scriptBytes.length; } public Script getScriptPubKey() throws ScriptException { if (scriptPubKey == null) { scriptPubKey = new Script(scriptBytes); } return scriptPubKey; } /** *

If the output script pays to an address as in * P2PKH, return the address of the receiver, i.e., a base58 encoded hash of the public key in the script.

* * @param networkParameters needed to specify an address * @return null, if the output script is not the form OP_DUP OP_HASH160 OP_EQUALVERIFY OP_CHECKSIG, * i.e., not P2PKH * @return an address made out of the public key hash */ @Nullable public Address getAddressFromP2PKHScript(NetworkParameters networkParameters) throws ScriptException{ if (getScriptPubKey().isSentToAddress()) return getScriptPubKey().getToAddress(networkParameters); return null; } /** *

If the output script pays to a redeem script, return the address of the redeem script as described by, * i.e., a base58 encoding of [one-byte version][20-byte hash][4-byte checksum], where the 20-byte hash refers to * the redeem script.

* *

P2SH is described by BIP 16 and * documented in the Bitcoin Developer Guide.

* * @param networkParameters needed to specify an address * @return null if the output script does not pay to a script hash * @return an address that belongs to the redeem script */ @Nullable public Address getAddressFromP2SH(NetworkParameters networkParameters) throws ScriptException{ if (getScriptPubKey().isPayToScriptHash()) return getScriptPubKey().getToAddress(networkParameters); return null; } @Override protected void parse() throws ProtocolException { value = readInt64(); scriptLen = (int) readVarInt(); length = cursor - offset + scriptLen; scriptBytes = readBytes(scriptLen); } @Override protected void bitcoinSerializeToStream(OutputStream stream) throws IOException { checkNotNull(scriptBytes); Utils.int64ToByteStreamLE(value, stream); // TODO: Move script serialization into the Script class, where it belongs. stream.write(new VarInt(scriptBytes.length).encode()); stream.write(scriptBytes); } /** * Returns the value of this output. This is the amount of currency that the destination address * receives. */ public Coin getValue() { try { return Coin.valueOf(value); } catch (IllegalArgumentException e) { throw new IllegalStateException(e.getMessage(), e); } } /** * Sets the value of this output. */ public void setValue(Coin value) { checkNotNull(value); unCache(); this.value = value.value; } /** * Gets the index of this output in the parent transaction, or throws if this output is free standing. Iterates * over the parents list to discover this. */ public int getIndex() { List outputs = getParentTransaction().getOutputs(); for (int i = 0; i < outputs.size(); i++) { if (outputs.get(i) == this) return i; } throw new IllegalStateException("Output linked to wrong parent transaction?"); } /** * Will this transaction be relayable and mined by default miners? */ public boolean isDust() { // Transactions that are OP_RETURN can't be dust regardless of their value. if (getScriptPubKey().isOpReturn()) return false; return getValue().isLessThan(getMinNonDustValue()); } /** *

Gets the minimum value for a txout of this size to be considered non-dust by Bitcoin Core * (and thus relayed). See: CTxOut::IsDust() in Bitcoin Core. The assumption is that any output that would * consume more than a third of its value in fees is not something the Bitcoin system wants to deal with right now, * so we call them "dust outputs" and they're made non standard. The choice of one third is somewhat arbitrary and * may change in future.

* *

You probably should use {@link org.bitcoinj.core.TransactionOutput#getMinNonDustValue()} which uses * a safe fee-per-kb by default.

* * @param feePerKb The fee required per kilobyte. Note that this is the same as Bitcoin Core's -minrelaytxfee * 3 */ public Coin getMinNonDustValue(Coin feePerKb) { // A typical output is 33 bytes (pubkey hash + opcodes) and requires an input of 148 bytes to spend so we add // that together to find out the total amount of data used to transfer this amount of value. Note that this // formula is wrong for anything that's not a pay-to-address output, unfortunately, we must follow Bitcoin Core's // wrongness in order to ensure we're considered standard. A better formula would either estimate the // size of data needed to satisfy all different script types, or just hard code 33 below. final long size = this.unsafeBitcoinSerialize().length + 148; return feePerKb.multiply(size).divide(1000); } /** * Returns the minimum value for this output to be considered "not dust", i.e. the transaction will be relayable * and mined by default miners. For normal pay to address outputs, this is 2730 satoshis, the same as * {@link Transaction#MIN_NONDUST_OUTPUT}. */ public Coin getMinNonDustValue() { return getMinNonDustValue(Transaction.REFERENCE_DEFAULT_MIN_TX_FEE.multiply(3)); } /** * Sets this objects availableForSpending flag to false and the spentBy pointer to the given input. * If the input is null, it means this output was signed over to somebody else rather than one of our own keys. * @throws IllegalStateException if the transaction was already marked as spent. */ public void markAsSpent(TransactionInput input) { checkState(availableForSpending); availableForSpending = false; spentBy = input; if (parent != null) if (log.isDebugEnabled()) log.debug("Marked {}:{} as spent by {}", getParentTransactionHash(), getIndex(), input); else if (log.isDebugEnabled()) log.debug("Marked floating output as spent by {}", input); } /** * Resets the spent pointer / availableForSpending flag to null. */ public void markAsUnspent() { if (parent != null) if (log.isDebugEnabled()) log.debug("Un-marked {}:{} as spent by {}", getParentTransactionHash(), getIndex(), spentBy); else if (log.isDebugEnabled()) log.debug("Un-marked floating output as spent by {}", spentBy); availableForSpending = true; spentBy = null; } /** * Returns whether {@link TransactionOutput#markAsSpent(TransactionInput)} has been called on this class. A * {@link Wallet} will mark a transaction output as spent once it sees a transaction input that is connected to it. * Note that this flag can be false when an output has in fact been spent according to the rest of the network if * the spending transaction wasn't downloaded yet, and it can be marked as spent when in reality the rest of the * network believes it to be unspent if the signature or script connecting to it was not actually valid. */ public boolean isAvailableForSpending() { return availableForSpending; } /** * The backing script bytes which can be turned into a Script object. * @return the scriptBytes */ public byte[] getScriptBytes() { return scriptBytes; } /** * Returns true if this output is to a key in the wallet or to an address/script we are watching. */ public boolean isMineOrWatched(TransactionBag transactionBag) { return isMine(transactionBag) || isWatched(transactionBag); } /** * Returns true if this output is to a key, or an address we have the keys for, in the wallet. */ public boolean isWatched(TransactionBag transactionBag) { try { Script script = getScriptPubKey(); return transactionBag.isWatchedScript(script); } catch (ScriptException e) { // Just means we didn't understand the output of this transaction: ignore it. log.debug("Could not parse tx output script: {}", e.toString()); return false; } } /** * Returns true if this output is to a key, or an address we have the keys for, in the wallet. */ public boolean isMine(TransactionBag transactionBag) { try { Script script = getScriptPubKey(); if (script.isSentToRawPubKey()) { byte[] pubkey = script.getPubKey(); return transactionBag.isPubKeyMine(pubkey); } if (script.isPayToScriptHash()) { return transactionBag.isPayToScriptHashMine(script.getPubKeyHash()); } else { byte[] pubkeyHash = script.getPubKeyHash(); return transactionBag.isPubKeyHashMine(pubkeyHash); } } catch (ScriptException e) { // Just means we didn't understand the output of this transaction: ignore it. log.debug("Could not parse tx {} output script: {}", parent != null ? parent.getHash() : "(no parent)", e.toString()); return false; } } /** * Returns a human readable debug string. */ @Override public String toString() { try { Script script = getScriptPubKey(); StringBuilder buf = new StringBuilder("TxOut of "); buf.append(Coin.valueOf(value).toFriendlyString()); if (script.isSentToAddress() || script.isPayToScriptHash()) buf.append(" to ").append(script.getToAddress(params)); else if (script.isSentToRawPubKey()) buf.append(" to pubkey ").append(Utils.HEX.encode(script.getPubKey())); else if (script.isSentToMultiSig()) buf.append(" to multisig"); else buf.append(" (unknown type)"); buf.append(" script:").append(script); return buf.toString(); } catch (ScriptException e) { throw new RuntimeException(e); } } /** * Returns the connected input. */ @Nullable public TransactionInput getSpentBy() { return spentBy; } /** * Returns the transaction that owns this output. */ @Nullable public Transaction getParentTransaction() { return (Transaction)parent; } /** * Returns the transaction hash that owns this output. */ @Nullable public Sha256Hash getParentTransactionHash() { return parent == null ? null : parent.getHash(); } /** * Returns the depth in blocks of the parent tx. * *

If the transaction appears in the top block, the depth is one. If it's anything else (pending, dead, unknown) * then -1.

* @return The tx depth or -1. */ public int getParentTransactionDepthInBlocks() { if (getParentTransaction() != null) { TransactionConfidence confidence = getParentTransaction().getConfidence(); if (confidence.getConfidenceType() == TransactionConfidence.ConfidenceType.BUILDING) { return confidence.getDepthInBlocks(); } } return -1; } public int countSigOps() { return Script.getSigOpCount(getScriptBytes()) * Transaction.WITNESS_SCALE_FACTOR; } /** * Returns a new {@link TransactionOutPoint}, which is essentially a structure pointing to this output. * Requires that this output is not detached. */ public TransactionOutPoint getOutPointFor() { return new TransactionOutPoint(params, getIndex(), getParentTransaction()); } /** Returns a copy of the output detached from its containing transaction, if need be. */ public TransactionOutput duplicateDetached() { return new TransactionOutput(params, null, Coin.valueOf(value), org.spongycastle.util.Arrays.clone(scriptBytes)); } @Override public boolean equals(Object o) { if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; TransactionOutput other = (TransactionOutput) o; return value == other.value && (parent == null || (parent == other.parent && getIndex() == other.getIndex())) && Arrays.equals(scriptBytes, other.scriptBytes); } @Override public int hashCode() { return Objects.hashCode(value, parent, Arrays.hashCode(scriptBytes)); } }




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