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2d79bba36b
- add missing header end comments - ensure alphabetical ordering - update copyright year and license
261 lines
8.6 KiB
C++
261 lines
8.6 KiB
C++
// Copyright (c) 2009-2010 Satoshi Nakamoto
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// Copyright (c) 2009-2014 The Bitcoin developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include "script/sign.h"
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#include "core.h"
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#include "key.h"
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#include "keystore.h"
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#include "script/standard.h"
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#include "uint256.h"
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#include <boost/foreach.hpp>
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using namespace std;
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typedef vector<unsigned char> valtype;
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bool Sign1(const CKeyID& address, const CKeyStore& keystore, uint256 hash, int nHashType, CScript& scriptSigRet)
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{
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CKey key;
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if (!keystore.GetKey(address, key))
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return false;
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vector<unsigned char> vchSig;
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if (!key.Sign(hash, vchSig))
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return false;
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vchSig.push_back((unsigned char)nHashType);
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scriptSigRet << vchSig;
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return true;
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}
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bool SignN(const vector<valtype>& multisigdata, const CKeyStore& keystore, uint256 hash, int nHashType, CScript& scriptSigRet)
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{
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int nSigned = 0;
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int nRequired = multisigdata.front()[0];
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for (unsigned int i = 1; i < multisigdata.size()-1 && nSigned < nRequired; i++)
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{
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const valtype& pubkey = multisigdata[i];
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CKeyID keyID = CPubKey(pubkey).GetID();
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if (Sign1(keyID, keystore, hash, nHashType, scriptSigRet))
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++nSigned;
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}
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return nSigned==nRequired;
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}
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//
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// Sign scriptPubKey with private keys stored in keystore, given transaction hash and hash type.
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// Signatures are returned in scriptSigRet (or returns false if scriptPubKey can't be signed),
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// unless whichTypeRet is TX_SCRIPTHASH, in which case scriptSigRet is the redemption script.
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// Returns false if scriptPubKey could not be completely satisfied.
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//
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bool Solver(const CKeyStore& keystore, const CScript& scriptPubKey, uint256 hash, int nHashType,
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CScript& scriptSigRet, txnouttype& whichTypeRet)
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{
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scriptSigRet.clear();
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vector<valtype> vSolutions;
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if (!Solver(scriptPubKey, whichTypeRet, vSolutions))
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return false;
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CKeyID keyID;
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switch (whichTypeRet)
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{
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case TX_NONSTANDARD:
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case TX_NULL_DATA:
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return false;
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case TX_PUBKEY:
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keyID = CPubKey(vSolutions[0]).GetID();
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return Sign1(keyID, keystore, hash, nHashType, scriptSigRet);
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case TX_PUBKEYHASH:
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keyID = CKeyID(uint160(vSolutions[0]));
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if (!Sign1(keyID, keystore, hash, nHashType, scriptSigRet))
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return false;
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else
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{
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CPubKey vch;
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keystore.GetPubKey(keyID, vch);
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scriptSigRet << vch;
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}
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return true;
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case TX_SCRIPTHASH:
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return keystore.GetCScript(uint160(vSolutions[0]), scriptSigRet);
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case TX_MULTISIG:
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scriptSigRet << OP_0; // workaround CHECKMULTISIG bug
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return (SignN(vSolutions, keystore, hash, nHashType, scriptSigRet));
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}
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return false;
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}
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bool SignSignature(const CKeyStore &keystore, const CScript& fromPubKey, CMutableTransaction& txTo, unsigned int nIn, int nHashType)
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{
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assert(nIn < txTo.vin.size());
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CTxIn& txin = txTo.vin[nIn];
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// Leave out the signature from the hash, since a signature can't sign itself.
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// The checksig op will also drop the signatures from its hash.
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uint256 hash = SignatureHash(fromPubKey, txTo, nIn, nHashType);
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txnouttype whichType;
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if (!Solver(keystore, fromPubKey, hash, nHashType, txin.scriptSig, whichType))
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return false;
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if (whichType == TX_SCRIPTHASH)
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{
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// Solver returns the subscript that need to be evaluated;
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// the final scriptSig is the signatures from that
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// and then the serialized subscript:
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CScript subscript = txin.scriptSig;
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// Recompute txn hash using subscript in place of scriptPubKey:
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uint256 hash2 = SignatureHash(subscript, txTo, nIn, nHashType);
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txnouttype subType;
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bool fSolved =
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Solver(keystore, subscript, hash2, nHashType, txin.scriptSig, subType) && subType != TX_SCRIPTHASH;
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// Append serialized subscript whether or not it is completely signed:
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txin.scriptSig << static_cast<valtype>(subscript);
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if (!fSolved) return false;
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}
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// Test solution
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return VerifyScript(txin.scriptSig, fromPubKey, txTo, nIn, STANDARD_SCRIPT_VERIFY_FLAGS, 0);
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}
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bool SignSignature(const CKeyStore &keystore, const CTransaction& txFrom, CMutableTransaction& txTo, unsigned int nIn, int nHashType)
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{
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assert(nIn < txTo.vin.size());
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CTxIn& txin = txTo.vin[nIn];
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assert(txin.prevout.n < txFrom.vout.size());
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const CTxOut& txout = txFrom.vout[txin.prevout.n];
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return SignSignature(keystore, txout.scriptPubKey, txTo, nIn, nHashType);
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}
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static CScript PushAll(const vector<valtype>& values)
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{
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CScript result;
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BOOST_FOREACH(const valtype& v, values)
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result << v;
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return result;
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}
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static CScript CombineMultisig(CScript scriptPubKey, const CMutableTransaction& txTo, unsigned int nIn,
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const vector<valtype>& vSolutions,
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vector<valtype>& sigs1, vector<valtype>& sigs2)
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{
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// Combine all the signatures we've got:
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set<valtype> allsigs;
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BOOST_FOREACH(const valtype& v, sigs1)
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{
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if (!v.empty())
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allsigs.insert(v);
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}
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BOOST_FOREACH(const valtype& v, sigs2)
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{
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if (!v.empty())
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allsigs.insert(v);
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}
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// Build a map of pubkey -> signature by matching sigs to pubkeys:
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assert(vSolutions.size() > 1);
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unsigned int nSigsRequired = vSolutions.front()[0];
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unsigned int nPubKeys = vSolutions.size()-2;
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map<valtype, valtype> sigs;
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BOOST_FOREACH(const valtype& sig, allsigs)
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{
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for (unsigned int i = 0; i < nPubKeys; i++)
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{
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const valtype& pubkey = vSolutions[i+1];
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if (sigs.count(pubkey))
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continue; // Already got a sig for this pubkey
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if (CheckSig(sig, pubkey, scriptPubKey, txTo, nIn, 0, 0))
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{
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sigs[pubkey] = sig;
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break;
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}
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}
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}
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// Now build a merged CScript:
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unsigned int nSigsHave = 0;
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CScript result; result << OP_0; // pop-one-too-many workaround
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for (unsigned int i = 0; i < nPubKeys && nSigsHave < nSigsRequired; i++)
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{
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if (sigs.count(vSolutions[i+1]))
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{
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result << sigs[vSolutions[i+1]];
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++nSigsHave;
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}
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}
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// Fill any missing with OP_0:
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for (unsigned int i = nSigsHave; i < nSigsRequired; i++)
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result << OP_0;
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return result;
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}
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static CScript CombineSignatures(CScript scriptPubKey, const CTransaction& txTo, unsigned int nIn,
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const txnouttype txType, const vector<valtype>& vSolutions,
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vector<valtype>& sigs1, vector<valtype>& sigs2)
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{
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switch (txType)
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{
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case TX_NONSTANDARD:
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case TX_NULL_DATA:
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// Don't know anything about this, assume bigger one is correct:
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if (sigs1.size() >= sigs2.size())
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return PushAll(sigs1);
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return PushAll(sigs2);
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case TX_PUBKEY:
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case TX_PUBKEYHASH:
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// Signatures are bigger than placeholders or empty scripts:
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if (sigs1.empty() || sigs1[0].empty())
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return PushAll(sigs2);
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return PushAll(sigs1);
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case TX_SCRIPTHASH:
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if (sigs1.empty() || sigs1.back().empty())
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return PushAll(sigs2);
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else if (sigs2.empty() || sigs2.back().empty())
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return PushAll(sigs1);
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else
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{
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// Recur to combine:
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valtype spk = sigs1.back();
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CScript pubKey2(spk.begin(), spk.end());
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txnouttype txType2;
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vector<vector<unsigned char> > vSolutions2;
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Solver(pubKey2, txType2, vSolutions2);
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sigs1.pop_back();
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sigs2.pop_back();
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CScript result = CombineSignatures(pubKey2, txTo, nIn, txType2, vSolutions2, sigs1, sigs2);
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result << spk;
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return result;
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}
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case TX_MULTISIG:
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return CombineMultisig(scriptPubKey, txTo, nIn, vSolutions, sigs1, sigs2);
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}
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return CScript();
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}
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CScript CombineSignatures(CScript scriptPubKey, const CTransaction& txTo, unsigned int nIn,
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const CScript& scriptSig1, const CScript& scriptSig2)
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{
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txnouttype txType;
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vector<vector<unsigned char> > vSolutions;
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Solver(scriptPubKey, txType, vSolutions);
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vector<valtype> stack1;
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EvalScript(stack1, scriptSig1, CTransaction(), 0, SCRIPT_VERIFY_STRICTENC, 0);
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vector<valtype> stack2;
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EvalScript(stack2, scriptSig2, CTransaction(), 0, SCRIPT_VERIFY_STRICTENC, 0);
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return CombineSignatures(scriptPubKey, txTo, nIn, txType, vSolutions, stack1, stack2);
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}
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