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transaction.h
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// Copyright (c) 2009-2010 Satoshi Nakamoto
// Copyright (c) 2009-2014 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
/******************************************************************************
* Copyright © 2014-2019 The SuperNET Developers. *
* *
* See the AUTHORS, DEVELOPER-AGREEMENT and LICENSE files at *
* the top-level directory of this distribution for the individual copyright *
* holder information and the developer policies on copyright and licensing. *
* *
* Unless otherwise agreed in a custom licensing agreement, no part of the *
* SuperNET software, including this file may be copied, modified, propagated *
* or distributed except according to the terms contained in the LICENSE file *
* *
* Removal or modification of this copyright notice is prohibited. *
* *
******************************************************************************/
#ifndef BITCOIN_PRIMITIVES_TRANSACTION_H
#define BITCOIN_PRIMITIVES_TRANSACTION_H
#include "amount.h"
#include "random.h"
#include "script/script.h"
#include "serialize.h"
#include "streams.h"
#include "uint256.h"
#include "arith_uint256.h"
#include "consensus/consensus.h"
#include "hash.h"
#include "nonce.h"
#ifndef __APPLE__
#include <stdint.h>
#endif
#include <array>
#include <boost/variant.hpp>
#include "zcash/NoteEncryption.hpp"
#include "zcash/Zcash.h"
#include "zcash/JoinSplit.hpp"
#include "zcash/Proof.hpp"
extern uint32_t ASSETCHAINS_MAGIC;
extern std::string ASSETCHAINS_SELFIMPORT;
// Overwinter transaction version
static const int32_t OVERWINTER_TX_VERSION = 3;
static_assert(OVERWINTER_TX_VERSION >= OVERWINTER_MIN_TX_VERSION,
"Overwinter tx version must not be lower than minimum");
static_assert(OVERWINTER_TX_VERSION <= OVERWINTER_MAX_TX_VERSION,
"Overwinter tx version must not be higher than maximum");
// Sapling transaction version
static const int32_t SAPLING_TX_VERSION = 4;
static_assert(SAPLING_TX_VERSION >= SAPLING_MIN_TX_VERSION,
"Sapling tx version must not be lower than minimum");
static_assert(SAPLING_TX_VERSION <= SAPLING_MAX_TX_VERSION,
"Sapling tx version must not be higher than maximum");
/**
* A shielded input to a transaction. It contains data that describes a Spend transfer.
*/
class SpendDescription
{
public:
typedef std::array<unsigned char, 64> spend_auth_sig_t;
uint256 cv; //!< A value commitment to the value of the input note.
uint256 anchor; //!< A Merkle root of the Sapling note commitment tree at some block height in the past.
uint256 nullifier; //!< The nullifier of the input note.
uint256 rk; //!< The randomized public key for spendAuthSig.
libzcash::GrothProof zkproof; //!< A zero-knowledge proof using the spend circuit.
spend_auth_sig_t spendAuthSig; //!< A signature authorizing this spend.
SpendDescription() { }
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(cv);
READWRITE(anchor);
READWRITE(nullifier);
READWRITE(rk);
READWRITE(zkproof);
READWRITE(spendAuthSig);
}
friend bool operator==(const SpendDescription& a, const SpendDescription& b)
{
return (
a.cv == b.cv &&
a.anchor == b.anchor &&
a.nullifier == b.nullifier &&
a.rk == b.rk &&
a.zkproof == b.zkproof &&
a.spendAuthSig == b.spendAuthSig
);
}
friend bool operator!=(const SpendDescription& a, const SpendDescription& b)
{
return !(a == b);
}
};
/**
* A shielded output to a transaction. It contains data that describes an Output transfer.
*/
class OutputDescription
{
public:
uint256 cv; //!< A value commitment to the value of the output note.
uint256 cm; //!< The note commitment for the output note.
uint256 ephemeralKey; //!< A Jubjub public key.
libzcash::SaplingEncCiphertext encCiphertext; //!< A ciphertext component for the encrypted output note.
libzcash::SaplingOutCiphertext outCiphertext; //!< A ciphertext component for the encrypted output note.
libzcash::GrothProof zkproof; //!< A zero-knowledge proof using the output circuit.
OutputDescription() { }
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(cv);
READWRITE(cm);
READWRITE(ephemeralKey);
READWRITE(encCiphertext);
READWRITE(outCiphertext);
READWRITE(zkproof);
}
friend bool operator==(const OutputDescription& a, const OutputDescription& b)
{
return (
a.cv == b.cv &&
a.cm == b.cm &&
a.ephemeralKey == b.ephemeralKey &&
a.encCiphertext == b.encCiphertext &&
a.outCiphertext == b.outCiphertext &&
a.zkproof == b.zkproof
);
}
friend bool operator!=(const OutputDescription& a, const OutputDescription& b)
{
return !(a == b);
}
};
template <typename Stream>
class SproutProofSerializer : public boost::static_visitor<>
{
Stream& s;
bool useGroth;
public:
SproutProofSerializer(Stream& s, bool useGroth) : s(s), useGroth(useGroth) {}
void operator()(const libzcash::PHGRProof& proof) const
{
if (useGroth) {
throw std::ios_base::failure("Invalid Sprout proof for transaction format (expected GrothProof, found PHGRProof)");
}
::Serialize(s, proof);
}
void operator()(const libzcash::GrothProof& proof) const
{
if (!useGroth) {
throw std::ios_base::failure("Invalid Sprout proof for transaction format (expected PHGRProof, found GrothProof)");
}
::Serialize(s, proof);
}
};
template<typename Stream, typename T>
inline void SerReadWriteSproutProof(Stream& s, const T& proof, bool useGroth, CSerActionSerialize ser_action)
{
auto ps = SproutProofSerializer<Stream>(s, useGroth);
boost::apply_visitor(ps, proof);
}
template<typename Stream, typename T>
inline void SerReadWriteSproutProof(Stream& s, T& proof, bool useGroth, CSerActionUnserialize ser_action)
{
if (useGroth) {
libzcash::GrothProof grothProof;
::Unserialize(s, grothProof);
proof = grothProof;
} else {
libzcash::PHGRProof pghrProof;
::Unserialize(s, pghrProof);
proof = pghrProof;
}
}
class JSDescription
{
public:
// These values 'enter from' and 'exit to' the value
// pool, respectively.
CAmount vpub_old;
CAmount vpub_new;
// JoinSplits are always anchored to a root in the note
// commitment tree at some point in the blockchain
// history or in the history of the current
// transaction.
uint256 anchor;
// Nullifiers are used to prevent double-spends. They
// are derived from the secrets placed in the note
// and the secret spend-authority key known by the
// spender.
std::array<uint256, ZC_NUM_JS_INPUTS> nullifiers;
// Note commitments are introduced into the commitment
// tree, blinding the public about the values and
// destinations involved in the JoinSplit. The presence of
// a commitment in the note commitment tree is required
// to spend it.
std::array<uint256, ZC_NUM_JS_OUTPUTS> commitments;
// Ephemeral key
uint256 ephemeralKey;
// Ciphertexts
// These contain trapdoors, values and other information
// that the recipient needs, including a memo field. It
// is encrypted using the scheme implemented in crypto/NoteEncryption.cpp
std::array<ZCNoteEncryption::Ciphertext, ZC_NUM_JS_OUTPUTS> ciphertexts = {{ {{0}} }};
// Random seed
uint256 randomSeed;
// MACs
// The verification of the JoinSplit requires these MACs
// to be provided as an input.
std::array<uint256, ZC_NUM_JS_INPUTS> macs;
// JoinSplit proof
// This is a zk-SNARK which ensures that this JoinSplit is valid.
libzcash::SproutProof proof;
JSDescription(): vpub_old(0), vpub_new(0) { }
JSDescription(
bool makeGrothProof,
ZCJoinSplit& params,
const uint256& joinSplitPubKey,
const uint256& rt,
const std::array<libzcash::JSInput, ZC_NUM_JS_INPUTS>& inputs,
const std::array<libzcash::JSOutput, ZC_NUM_JS_OUTPUTS>& outputs,
CAmount vpub_old,
CAmount vpub_new,
bool computeProof = true, // Set to false in some tests
uint256 *esk = nullptr // payment disclosure
);
static JSDescription Randomized(
bool makeGrothProof,
ZCJoinSplit& params,
const uint256& joinSplitPubKey,
const uint256& rt,
std::array<libzcash::JSInput, ZC_NUM_JS_INPUTS>& inputs,
std::array<libzcash::JSOutput, ZC_NUM_JS_OUTPUTS>& outputs,
std::array<size_t, ZC_NUM_JS_INPUTS>& inputMap,
std::array<size_t, ZC_NUM_JS_OUTPUTS>& outputMap,
CAmount vpub_old,
CAmount vpub_new,
bool computeProof = true, // Set to false in some tests
uint256 *esk = nullptr, // payment disclosure
std::function<int(int)> gen = GetRandInt
);
// Verifies that the JoinSplit proof is correct.
bool Verify(
ZCJoinSplit& params,
libzcash::ProofVerifier& verifier,
const uint256& joinSplitPubKey
) const;
// Returns the calculated h_sig
uint256 h_sig(ZCJoinSplit& params, const uint256& joinSplitPubKey) const;
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
// nVersion is set by CTransaction and CMutableTransaction to
// (tx.fOverwintered << 31) | tx.nVersion
bool fOverwintered = s.GetVersion() >> 31;
int32_t txVersion = s.GetVersion() & 0x7FFFFFFF;
bool useGroth = fOverwintered && txVersion >= SAPLING_TX_VERSION;
READWRITE(vpub_old);
READWRITE(vpub_new);
READWRITE(anchor);
READWRITE(nullifiers);
READWRITE(commitments);
READWRITE(ephemeralKey);
READWRITE(randomSeed);
READWRITE(macs);
::SerReadWriteSproutProof(s, proof, useGroth, ser_action);
READWRITE(ciphertexts);
}
friend bool operator==(const JSDescription& a, const JSDescription& b)
{
return (
a.vpub_old == b.vpub_old &&
a.vpub_new == b.vpub_new &&
a.anchor == b.anchor &&
a.nullifiers == b.nullifiers &&
a.commitments == b.commitments &&
a.ephemeralKey == b.ephemeralKey &&
a.ciphertexts == b.ciphertexts &&
a.randomSeed == b.randomSeed &&
a.macs == b.macs &&
a.proof == b.proof
);
}
friend bool operator!=(const JSDescription& a, const JSDescription& b)
{
return !(a == b);
}
};
class BaseOutPoint
{
public:
uint256 hash;
uint32_t n;
BaseOutPoint() { SetNull(); }
BaseOutPoint(uint256 hashIn, uint32_t nIn) { hash = hashIn; n = nIn; }
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(hash);
READWRITE(n);
}
void SetNull() { hash.SetNull(); n = (uint32_t) -1; }
bool IsNull() const { return (hash.IsNull() && n == (uint32_t) -1); }
friend bool operator<(const BaseOutPoint& a, const BaseOutPoint& b)
{
return (a.hash < b.hash || (a.hash == b.hash && a.n < b.n));
}
friend bool operator==(const BaseOutPoint& a, const BaseOutPoint& b)
{
return (a.hash == b.hash && a.n == b.n);
}
friend bool operator!=(const BaseOutPoint& a, const BaseOutPoint& b)
{
return !(a == b);
}
};
/** An outpoint - a combination of a transaction hash and an index n into its vout */
class COutPoint : public BaseOutPoint
{
public:
COutPoint() : BaseOutPoint() {};
COutPoint(uint256 hashIn, uint32_t nIn) : BaseOutPoint(hashIn, nIn) {};
std::string ToString() const;
};
/** An outpoint - a combination of a transaction hash and an index n into its sapling
* output description (vShieldedOutput) */
class SaplingOutPoint : public BaseOutPoint
{
public:
SaplingOutPoint() : BaseOutPoint() {};
SaplingOutPoint(uint256 hashIn, uint32_t nIn) : BaseOutPoint(hashIn, nIn) {};
std::string ToString() const;
};
/** An input of a transaction. It contains the location of the previous
* transaction's output that it claims and a signature that matches the
* output's public key.
*/
class CTxIn
{
public:
COutPoint prevout;
CScript scriptSig;
uint32_t nSequence;
CTxIn()
{
nSequence = std::numeric_limits<unsigned int>::max();
}
explicit CTxIn(COutPoint prevoutIn, CScript scriptSigIn=CScript(), uint32_t nSequenceIn=std::numeric_limits<unsigned int>::max());
CTxIn(uint256 hashPrevTx, uint32_t nOut, CScript scriptSigIn=CScript(), uint32_t nSequenceIn=std::numeric_limits<uint32_t>::max());
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(prevout);
READWRITE(*(CScriptBase*)(&scriptSig));
READWRITE(nSequence);
}
bool IsFinal() const
{
return (nSequence == std::numeric_limits<uint32_t>::max());
}
friend bool operator==(const CTxIn& a, const CTxIn& b)
{
return (a.prevout == b.prevout &&
a.scriptSig == b.scriptSig &&
a.nSequence == b.nSequence);
}
friend bool operator!=(const CTxIn& a, const CTxIn& b)
{
return !(a == b);
}
std::string ToString() const;
};
/** An output of a transaction. It contains the public key that the next input
* must be able to sign with to claim it.
*/
class CTxOut
{
public:
CAmount nValue;
CScript scriptPubKey;
uint64_t interest;
CTxOut()
{
SetNull();
}
CTxOut(const CAmount& nValueIn, CScript scriptPubKeyIn);
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
READWRITE(nValue);
READWRITE(*(CScriptBase*)(&scriptPubKey));
}
void SetNull()
{
nValue = -1;
scriptPubKey.clear();
}
bool IsNull() const
{
return (nValue == -1);
}
uint256 GetHash() const;
CAmount GetDustThreshold(const CFeeRate &minRelayTxFee) const
{
// "Dust" is defined in terms of CTransaction::minRelayTxFee,
// which has units satoshis-per-kilobyte.
// If you'd pay more than 1/3 in fees
// to spend something, then we consider it dust.
// A typical spendable txout is 34 bytes big, and will
// need a CTxIn of at least 148 bytes to spend:
// so dust is a spendable txout less than 54 satoshis
// with default minRelayTxFee.
if (scriptPubKey.IsUnspendable())
return 0;
size_t nSize = GetSerializeSize(*this, SER_DISK, 0) + 148u;
return 3*minRelayTxFee.GetFee(nSize);
}
bool IsDust(const CFeeRate &minRelayTxFee) const
{
return (nValue < GetDustThreshold(minRelayTxFee));
}
friend bool operator==(const CTxOut& a, const CTxOut& b)
{
return (a.nValue == b.nValue && a.scriptPubKey == b.scriptPubKey);
}
friend bool operator!=(const CTxOut& a, const CTxOut& b)
{
return !(a == b);
}
std::string ToString() const;
};
// Overwinter version group id
static constexpr uint32_t OVERWINTER_VERSION_GROUP_ID = 0x03C48270;
static_assert(OVERWINTER_VERSION_GROUP_ID != 0, "version group id must be non-zero as specified in ZIP 202");
// Sapling version group id
static constexpr uint32_t SAPLING_VERSION_GROUP_ID = 0x892F2085;
static_assert(SAPLING_VERSION_GROUP_ID != 0, "version group id must be non-zero as specified in ZIP 202");
struct CMutableTransaction;
/** The basic transaction that is broadcasted on the network and contained in
* blocks. A transaction can contain multiple inputs and outputs.
*/
class CTransaction
{
private:
/** Memory only. */
const uint256 hash;
void UpdateHash() const;
protected:
/** Developer testing only. Set evilDeveloperFlag to true.
* Convert a CMutableTransaction into a CTransaction without invoking UpdateHash()
*/
CTransaction(const CMutableTransaction &tx, bool evilDeveloperFlag);
public:
typedef std::array<unsigned char, 64> joinsplit_sig_t;
typedef std::array<unsigned char, 64> binding_sig_t;
// Transactions that include a list of JoinSplits are >= version 2.
static const int32_t SPROUT_MIN_CURRENT_VERSION = 1;
static const int32_t SPROUT_MAX_CURRENT_VERSION = 2;
static const int32_t OVERWINTER_MIN_CURRENT_VERSION = 3;
static const int32_t OVERWINTER_MAX_CURRENT_VERSION = 3;
static const int32_t SAPLING_MIN_CURRENT_VERSION = 4;
static const int32_t SAPLING_MAX_CURRENT_VERSION = 4;
static_assert(SPROUT_MIN_CURRENT_VERSION >= SPROUT_MIN_TX_VERSION,
"standard rule for tx version should be consistent with network rule");
static_assert(OVERWINTER_MIN_CURRENT_VERSION >= OVERWINTER_MIN_TX_VERSION,
"standard rule for tx version should be consistent with network rule");
static_assert( (OVERWINTER_MAX_CURRENT_VERSION <= OVERWINTER_MAX_TX_VERSION &&
OVERWINTER_MAX_CURRENT_VERSION >= OVERWINTER_MIN_CURRENT_VERSION),
"standard rule for tx version should be consistent with network rule");
static_assert(SAPLING_MIN_CURRENT_VERSION >= SAPLING_MIN_TX_VERSION,
"standard rule for tx version should be consistent with network rule");
static_assert( (SAPLING_MAX_CURRENT_VERSION <= SAPLING_MAX_TX_VERSION &&
SAPLING_MAX_CURRENT_VERSION >= SAPLING_MIN_CURRENT_VERSION),
"standard rule for tx version should be consistent with network rule");
// The local variables are made const to prevent unintended modification
// without updating the cached hash value. However, CTransaction is not
// actually immutable; deserialization and assignment are implemented,
// and bypass the constness. This is safe, as they update the entire
// structure, including the hash.
const bool fOverwintered;
const int32_t nVersion;
const uint32_t nVersionGroupId;
const std::vector<CTxIn> vin;
const std::vector<CTxOut> vout;
const uint32_t nLockTime;
const uint32_t nExpiryHeight;
const CAmount valueBalance;
const std::vector<SpendDescription> vShieldedSpend;
const std::vector<OutputDescription> vShieldedOutput;
const std::vector<JSDescription> vjoinsplit;
const uint256 joinSplitPubKey;
const joinsplit_sig_t joinSplitSig = {{0}};
const binding_sig_t bindingSig = {{0}};
/** Construct a CTransaction that qualifies as IsNull() */
CTransaction();
/** Convert a CMutableTransaction into a CTransaction. */
CTransaction(const CMutableTransaction &tx);
CTransaction(CMutableTransaction &&tx);
CTransaction& operator=(const CTransaction& tx);
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
uint32_t header;
if (ser_action.ForRead()) {
// When deserializing, unpack the 4 byte header to extract fOverwintered and nVersion.
READWRITE(header);
*const_cast<bool*>(&fOverwintered) = header >> 31;
*const_cast<int32_t*>(&this->nVersion) = header & 0x7FFFFFFF;
} else {
header = GetHeader();
READWRITE(header);
}
if (fOverwintered) {
READWRITE(*const_cast<uint32_t*>(&this->nVersionGroupId));
}
bool isOverwinterV3 =
fOverwintered &&
nVersionGroupId == OVERWINTER_VERSION_GROUP_ID &&
nVersion == OVERWINTER_TX_VERSION;
bool isSaplingV4 =
fOverwintered &&
nVersionGroupId == SAPLING_VERSION_GROUP_ID &&
nVersion == SAPLING_TX_VERSION;
if (fOverwintered && !(isOverwinterV3 || isSaplingV4)) {
throw std::ios_base::failure("Unknown transaction format");
}
READWRITE(*const_cast<std::vector<CTxIn>*>(&vin));
READWRITE(*const_cast<std::vector<CTxOut>*>(&vout));
READWRITE(*const_cast<uint32_t*>(&nLockTime));
if (isOverwinterV3 || isSaplingV4) {
READWRITE(*const_cast<uint32_t*>(&nExpiryHeight));
}
if (isSaplingV4) {
READWRITE(*const_cast<CAmount*>(&valueBalance));
READWRITE(*const_cast<std::vector<SpendDescription>*>(&vShieldedSpend));
READWRITE(*const_cast<std::vector<OutputDescription>*>(&vShieldedOutput));
}
if (nVersion >= 2) {
auto os = WithVersion(&s, static_cast<int>(header));
::SerReadWrite(os, *const_cast<std::vector<JSDescription>*>(&vjoinsplit), ser_action);
if (vjoinsplit.size() > 0) {
READWRITE(*const_cast<uint256*>(&joinSplitPubKey));
READWRITE(*const_cast<joinsplit_sig_t*>(&joinSplitSig));
}
}
if (isSaplingV4 && !(vShieldedSpend.empty() && vShieldedOutput.empty())) {
READWRITE(*const_cast<binding_sig_t*>(&bindingSig));
}
if (ser_action.ForRead())
UpdateHash();
}
template <typename Stream>
CTransaction(deserialize_type, Stream& s) : CTransaction(CMutableTransaction(deserialize, s)) {}
bool IsNull() const {
return vin.empty() && vout.empty();
}
const uint256& GetHash() const {
return hash;
}
uint32_t GetHeader() const {
// When serializing v1 and v2, the 4 byte header is nVersion
uint32_t header = this->nVersion;
// When serializing Overwintered tx, the 4 byte header is the combination of fOverwintered and nVersion
if (fOverwintered) {
header |= 1 << 31;
}
return header;
}
/*
* Context for the two methods below:
* As at most one of vpub_new and vpub_old is non-zero in every JoinSplit,
* we can think of a JoinSplit as an input or output according to which one
* it is (e.g. if vpub_new is non-zero the joinSplit is "giving value" to
* the outputs in the transaction). Similarly, we can think of the Sapling
* shielded part of the transaction as an input or output according to
* whether valueBalance - the sum of shielded input values minus the sum of
* shielded output values - is positive or negative.
*/
// Return sum of txouts, (negative valueBalance or zero) and JoinSplit vpub_old.
CAmount GetValueOut() const;
// GetValueIn() is a method on CCoinsViewCache, because
// inputs must be known to compute value in.
// Return sum of (positive valueBalance or zero) and JoinSplit vpub_new
CAmount GetShieldedValueIn() const;
// Compute priority, given priority of inputs and (optionally) tx size
double ComputePriority(double dPriorityInputs, unsigned int nTxSize=0) const;
// Compute modified tx size for priority calculation (optionally given tx size)
unsigned int CalculateModifiedSize(unsigned int nTxSize=0) const;
bool IsMint() const
{
return IsCoinImport() || IsCoinBase();
}
bool IsCoinBase() const
{
return (vin.size() == 1 && vin[0].prevout.IsNull());
}
int64_t UnlockTime(uint32_t voutNum) const;
bool IsCoinImport() const
{
return (vin.size() == 1 && vin[0].prevout.n == 10e8);
}
bool IsPegsImport() const
{
return (ASSETCHAINS_SELFIMPORT=="PEGSCC" && vin[0].prevout.n == 10e8);
}
friend bool operator==(const CTransaction& a, const CTransaction& b)
{
return a.hash == b.hash;
}
friend bool operator!=(const CTransaction& a, const CTransaction& b)
{
return a.hash != b.hash;
}
// verus hash will be the same for a given txid, output number, block height, and blockhash of 100 blocks past
static uint256 _GetVerusPOSHash(CPOSNonce *pNonce, const uint256 &txid, int32_t voutNum, int32_t height, const uint256 &pastHash, int64_t value)
{
pNonce->SetPOSEntropy(pastHash, txid, voutNum);
CVerusHashWriter hashWriter = CVerusHashWriter(SER_GETHASH, PROTOCOL_VERSION);
hashWriter << ASSETCHAINS_MAGIC;
// we only use the new style of POS hash after changeover and 100 blocks of enforced proper nonce updating
if (CPOSNonce::NewPOSActive(height))
{
hashWriter << *pNonce;
hashWriter << height;
return ArithToUint256(UintToArith256(hashWriter.GetHash()) / value);
}
else
{
hashWriter << pastHash;
hashWriter << height;
hashWriter << txid;
hashWriter << voutNum;
return ArithToUint256(UintToArith256(hashWriter.GetHash()) / value);
}
}
// Nonce is modified to include the transaction information
uint256 GetVerusPOSHash(CPOSNonce *pNonce, int32_t voutNum, int32_t height, const uint256 &pastHash) const
{
uint256 txid = GetHash();
if (voutNum >= vout.size())
return uint256S("ff0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f0f");
return _GetVerusPOSHash(pNonce, txid, voutNum, height, pastHash, (uint64_t)vout[voutNum].nValue);
}
std::string ToString() const;
};
/** A mutable version of CTransaction. */
struct CMutableTransaction
{
bool fOverwintered;
int32_t nVersion;
uint32_t nVersionGroupId;
std::vector<CTxIn> vin;
std::vector<CTxOut> vout;
uint32_t nLockTime;
uint32_t nExpiryHeight;
CAmount valueBalance;
std::vector<SpendDescription> vShieldedSpend;
std::vector<OutputDescription> vShieldedOutput;
std::vector<JSDescription> vjoinsplit;
uint256 joinSplitPubKey;
CTransaction::joinsplit_sig_t joinSplitSig = {{0}};
CTransaction::binding_sig_t bindingSig = {{0}};
CMutableTransaction();
CMutableTransaction(const CTransaction& tx);
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>
inline void SerializationOp(Stream& s, Operation ser_action) {
uint32_t header;
if (ser_action.ForRead()) {
// When deserializing, unpack the 4 byte header to extract fOverwintered and nVersion.
READWRITE(header);
fOverwintered = header >> 31;
this->nVersion = header & 0x7FFFFFFF;
} else {
// When serializing v1 and v2, the 4 byte header is nVersion
header = this->nVersion;
// When serializing Overwintered tx, the 4 byte header is the combination of fOverwintered and nVersion
if (fOverwintered) {
header |= 1 << 31;
}
READWRITE(header);
}
if (fOverwintered) {
READWRITE(nVersionGroupId);
}
bool isOverwinterV3 =
fOverwintered &&
nVersionGroupId == OVERWINTER_VERSION_GROUP_ID &&
nVersion == OVERWINTER_TX_VERSION;
bool isSaplingV4 =
fOverwintered &&
nVersionGroupId == SAPLING_VERSION_GROUP_ID &&
nVersion == SAPLING_TX_VERSION;
if (fOverwintered && !(isOverwinterV3 || isSaplingV4)) {
throw std::ios_base::failure("Unknown transaction format");
}
READWRITE(vin);
READWRITE(vout);
READWRITE(nLockTime);
if (isOverwinterV3 || isSaplingV4) {
READWRITE(nExpiryHeight);
}
if (isSaplingV4) {
READWRITE(valueBalance);
READWRITE(vShieldedSpend);
READWRITE(vShieldedOutput);
}
if (nVersion >= 2) {
auto os = WithVersion(&s, static_cast<int>(header));
::SerReadWrite(os, vjoinsplit, ser_action);
if (vjoinsplit.size() > 0) {
READWRITE(joinSplitPubKey);
READWRITE(joinSplitSig);
}
}
if (isSaplingV4 && !(vShieldedSpend.empty() && vShieldedOutput.empty())) {
READWRITE(bindingSig);
}
}
template <typename Stream>
CMutableTransaction(deserialize_type, Stream& s) {
Unserialize(s);
}
/** Compute the hash of this CMutableTransaction. This is computed on the
* fly, as opposed to GetHash() in CTransaction, which uses a cached result.
*/
uint256 GetHash() const;
};
#endif // BITCOIN_PRIMITIVES_TRANSACTION_H