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Remove obsolete Local* code.

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This commit is contained in:
Arthur Britto
2012-05-20 01:52:23 -07:00
parent 7ce0a16d21
commit 0010656ff8
4 changed files with 3 additions and 857 deletions
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2
src/Application.cpp
View File

@@ -123,8 +123,6 @@ void Application::run()
mMasterLedger.setSynced();
// temporary
mWallet.load();
// mWallet.syncToLedger(true, &(*secondLedger));
mNetOps.setStateTimer(0);
// temporary

34
src/Ledger.cpp
View File

@@ -185,40 +185,6 @@ Transaction::pointer Ledger::getTransaction(const uint256& transID) const
bool Ledger::unitTest()
{
#if 0
uint160 la1=theApp->getWallet().addFamily(CKey::PassPhraseToKey("This is my payphrase!"), false);
uint160 la2=theApp->getWallet().addFamily(CKey::PassPhraseToKey("Another payphrase"), false);
LocalAccount::pointer l1=theApp->getWallet().getLocalAccount(la1, 0);
LocalAccount::pointer l2=theApp->getWallet().getLocalAccount(la2, 0);
assert(l1->getAddress()==la1);
#ifdef DEBUG
std::cerr << "Account1: " << la1.humanAccountID() << std::endl;
std::cerr << "Account2: " << la2.humanAccountID() << std::endl;
#endif
Ledger::pointer ledger=boost::make_shared<Ledger>(la1, 100000);
ledger=make_shared<Ledger>(*ledger, 0); // can't use make_shared
AccountState::pointer as=ledger->getAccountState(la1);
assert(as);
assert(as->getBalance()==100000);
assert(as->getSeq()==0);
as = ledger->getAccountState(la2);
assert(!as);
Transaction::pointer t=boost::make_shared<Transaction>(l1, l2->getAddress(), 2500, 0, 1);
assert(!!t->getID());
Ledger::TransResult tr=ledger->applyTransaction(t);
#ifdef DEBUG
std::cerr << "Transaction: " << tr << std::endl;
#endif
assert(tr==TR_SUCCESS);
#endif
return true;
}

771
src/Wallet.cpp
View File

@@ -16,341 +16,9 @@
#include "Application.h"
#include "utils.h"
// TEMPORARY
#ifndef CHECK_NEW_FAMILIES
#define CHECK_NEW_FAMILIES 500
#endif
//
// LocalAccount - an account
//
#if 0
LocalAccount::LocalAccount(boost::shared_ptr<LocalAccountFamily> family, int familySeq) :
mPublicKey(family->getPublicKey(familySeq)), mFamily(family), mAccountFSeq(familySeq)
{
mAccount.setAccountPublic(mPublicKey->GetPubKey());
if (theApp != NULL) mPublicKey = theApp->getPubKeyCache().store(mAccount, mPublicKey);
}
std::string LocalAccount::getFullName() const
{
std::string ret(mFamily->getFamily().humanFamilyGenerator());
ret.append(":");
ret.append(boost::lexical_cast<std::string>(mAccountFSeq));
return ret;
}
bool LocalAccount::isLocked() const
{
return mFamily->isLocked();
}
std::string LocalAccount::getFamilyName() const
{
return mFamily->getFamily().humanFamilyGenerator();
}
AccountState::pointer LocalAccount::getAccountState() const
{
return theApp->getOPs().getAccountState(mAccount);
}
uint64 LocalAccount::getEffectiveBalance() const
{
AccountState::pointer as = getAccountState();
if (!as) return 0;
return as->getBalance();
}
Json::Value LocalAccount::getJson() const
{
Json::Value ret(Json::objectValue);
ret["Family"] = getFamilyName();
ret["AccountID"] = getAddress().humanAccountID();
ret["AccountPublic"] = getAddress().humanAccountPublic();
ret["FullName"] = getFullName();
ret["Issued"] = Json::Value(isIssued());
ret["IsLocked"] = mFamily->isLocked();
AccountState::pointer as = getAccountState();
if (!as) ret["State"] = "None";
else
{
assert(as->getAccountID().getAccountID() == mAccount.getAccountID());
Json::Value acct(Json::objectValue);
as->addJson(acct);
ret["State"] = acct;
}
return ret;
}
bool LocalAccount::isIssued() const
{
return mAccountFSeq < mFamily->getSeq();
}
CKey::pointer LocalAccount::getPrivateKey()
{
return mFamily->getPrivateKey(mAccountFSeq);
}
//
// LocalAccountFamily - a sequences of accounts
//
LocalAccountFamily::LocalAccountFamily(const NewcoinAddress& familyGenerator) :
mFamily(familyGenerator), mLastSeq(0), mRootPrivateKey(NULL)
{
}
LocalAccountFamily::~LocalAccountFamily()
{
lock();
}
NewcoinAddress LocalAccountFamily::getAccount(int seq, bool keep)
{
std::map<int, LocalAccount::pointer>::iterator ait=mAccounts.find(seq);
if(ait!=mAccounts.end()) return ait->second->getAddress();
LocalAccount::pointer lae=boost::make_shared<LocalAccount>(shared_from_this(), seq);
mAccounts.insert(std::make_pair(seq, lae));
return lae->getAddress();
}
void LocalAccountFamily::unlock(BIGNUM* privateKey)
{
if(mRootPrivateKey==NULL) mRootPrivateKey=privateKey;
#ifdef CHECK_NEW_FAMILIES
std::cerr << "CheckingFamily" << std::endl;
for(int i=0; i<CHECK_NEW_FAMILIES; i++)
{
EC_KEY *pubkey=CKey::GeneratePublicDeterministicKey(mFamily, i);
EC_KEY *privkey=CKey::GeneratePrivateDeterministicKey(mFamily, mRootPrivateKey, i);
int cmp=EC_POINT_cmp(EC_KEY_get0_group(pubkey), EC_KEY_get0_public_key(pubkey),
EC_KEY_get0_public_key(privkey), NULL);
if(cmp!=0)
{
std::cerr << BN_bn2hex(mRootPrivateKey) << std::endl;
std::cerr << "family=" << mFamily.humanFamilyGenerator() << std::endl;
std::cerr << "i=" << i << std::endl;
std::cerr << "Key mismatch" << std::endl;
assert(false);
}
EC_KEY_free(pubkey);
EC_KEY_free(privkey);
}
#endif
}
void LocalAccountFamily::lock()
{
if(mRootPrivateKey!=NULL)
{
BN_free(mRootPrivateKey);
mRootPrivateKey=NULL;
}
}
CKey::pointer LocalAccountFamily::getPublicKey(int seq)
{
return boost::make_shared<CKey>(mFamily, seq);
}
CKey::pointer LocalAccountFamily::getPrivateKey(int seq)
{
if(!mRootPrivateKey) return CKey::pointer();
std::cerr << "PrivKey(" << mFamily.humanFamilyGenerator() << "," << seq << ")" << std::endl;
return boost::make_shared<CKey>(mFamily, mRootPrivateKey, seq);
}
Json::Value LocalAccountFamily::getJson() const
{
Json::Value ret(Json::objectValue);
ret["FullName"]=getFamily().humanFamilyGenerator();
ret["IsLocked"]=isLocked();
if(!getComment().empty()) ret["Comment"]=getComment();
return ret;
}
LocalAccountFamily::pointer LocalAccountFamily::readFamily(const NewcoinAddress& family)
{
std::string sql="SELECT * from LocalAcctFamilies WHERE FamilyGenerator='";
sql.append(family.humanFamilyGenerator());
sql.append("';");
std::string comment;
uint32 seq;
if(1)
{
ScopedLock sl(theApp->getWalletDB()->getDBLock());
Database *db=theApp->getWalletDB()->getDB();
if(!db->executeSQL(sql) || !db->startIterRows())
return LocalAccountFamily::pointer();
db->getStr("Comment", comment);
seq=db->getBigInt("Seq");
db->endIterRows();
}
LocalAccountFamily::pointer fam=boost::make_shared<LocalAccountFamily>(family);
fam->setComment(comment);
fam->setSeq(seq);
return fam;
}
void LocalAccountFamily::write(bool is_new)
{
std::string sql="INSERT INTO LocalAcctFamilies (FamilyGenerator,Seq,Comment) VALUES ('";
sql.append(mFamily.humanFamilyGenerator());
sql.append("','");
sql.append(boost::lexical_cast<std::string>(mLastSeq));
sql.append("',");
std::string f;
theApp->getWalletDB()->getDB()->escape((const unsigned char *) mComment.c_str(), mComment.size(), f);
sql.append(f);
sql.append(");");
ScopedLock sl(theApp->getWalletDB()->getDBLock());
theApp->getWalletDB()->getDB()->executeSQL(sql);
}
std::string LocalAccountFamily::getSQLFields()
{
return "(FamilyGenerator,Seq,Comment)";
}
std::string LocalAccountFamily::getSQL() const
{ // familyname(40), seq, comment
std::string ret("('");
ret.append(mFamily.humanFamilyGenerator());
ret.append("','");
ret.append(boost::lexical_cast<std::string>(mLastSeq));
ret.append("',");
std::string esc;
theApp->getWalletDB()->getDB()->escape((const unsigned char *) mComment.c_str(), mComment.size(), esc);
ret.append(esc);
ret.append(")");
return ret;
}
LocalAccount::pointer LocalAccountFamily::get(int seq)
{
std::map<int, LocalAccount::pointer>::iterator act=mAccounts.find(seq);
if(act!=mAccounts.end()) return act->second;
LocalAccount::pointer ret=boost::make_shared<LocalAccount>(shared_from_this(), seq);
mAccounts.insert(std::make_pair(seq, ret));
return ret;
}
#endif
Wallet::Wallet() : mLedger(0) {
}
#if 0
NewcoinAddress Wallet::addFamily(const NewcoinAddress& familySeed, bool lock)
{
LocalAccountFamily::pointer fam(doPrivate(familySeed, true, !lock));
return fam ? fam->getFamily() : NewcoinAddress();
}
// Create a family. Return the family public generator and the seed.
NewcoinAddress Wallet::addRandomFamily(NewcoinAddress& familySeed)
{
familySeed.setFamilySeedRandom();
return addFamily(familySeed, false);
}
NewcoinAddress Wallet::addFamily(const std::string& payPhrase, bool lock)
{
NewcoinAddress familySeed;
familySeed.setFamilySeed(CKey::PassPhraseToKey(payPhrase));
return addFamily(familySeed, lock);
}
NewcoinAddress Wallet::addFamily(const NewcoinAddress& familyGenerator)
{
LocalAccountFamily::pointer fam(doPublic(familyGenerator, true, true));
return fam ? fam->getFamily() : NewcoinAddress();
}
NewcoinAddress Wallet::findFamilyPK(const NewcoinAddress& familyGenerator)
{
LocalAccountFamily::pointer fam(doPublic(familyGenerator, false, true));
return fam ? fam->getFamily() : NewcoinAddress();
}
void Wallet::getFamilies(std::vector<NewcoinAddress>& familyIDs)
{
boost::recursive_mutex::scoped_lock sl(mLock);
familyIDs.reserve(mFamilies.size());
for(std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.begin(); fit!=mFamilies.end(); ++fit)
familyIDs.push_back(fit->first);
}
// Look up a family in the wallet.
bool Wallet::getFamilyInfo(const NewcoinAddress& family, std::string& comment)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(family);
if(fit==mFamilies.end())
return false;
assert(fit->second->getFamily()==family);
comment=fit->second->getComment();
return true;
}
bool Wallet::getFullFamilyInfo(const NewcoinAddress& family, std::string& comment,
std::string& pubGen, bool& isLocked)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(family);
if(fit==mFamilies.end()) return false;
assert(fit->second->getFamily()==family);
comment=fit->second->getComment();
pubGen=fit->second->getPubGenHex();
isLocked=fit->second->isLocked();
return true;
}
Json::Value Wallet::getFamilyJson(const NewcoinAddress& family)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(family);
if(fit==mFamilies.end()) return Json::Value(Json::nullValue);
assert(fit->second->getFamily()==family);
return fit->second->getJson();
}
#endif
void Wallet::start()
{
// We need our node identity before we begin networking.
@@ -444,445 +112,10 @@ bool Wallet::nodeIdentityCreate() {
return true;
}
void Wallet::load()
{
#if 0
std::string sql("SELECT * FROM LocalAcctFamilies;");
ScopedLock sl(theApp->getWalletDB()->getDBLock());
Database *db=theApp->getWalletDB()->getDB();
if(!db->executeSQL(sql))
{
#ifdef DEBUG
std::cerr << "Unable to load wallet" << std::endl;
#endif
return;
}
if(!db->startIterRows()) return;
do {
std::string strGenerator, strComment;
db->getStr("FamilyGenerator", strGenerator);
db->getStr("Comment", strComment);
int seq=db->getBigInt("Seq");
NewcoinAddress familyGenerator;
familyGenerator.setFamilyGenerator(strGenerator);
LocalAccountFamily::pointer f(doPublic(familyGenerator, true, false));
if(f)
{
assert(f->getFamily().getFamilyGenerator()==familyGenerator.getFamilyGenerator());
f->setSeq(seq);
f->setComment(strComment);
}
else assert(false);
} while(db->getNextRow());
db->endIterRows();
#endif
}
#if 0
// YYY Perhaps this should take a comment.
LocalAccount::pointer Wallet::getNewLocalAccount(const NewcoinAddress& family)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit = mFamilies.find(family);
if (fit == mFamilies.end()) return LocalAccount::pointer();
uint32 seq = fit->second->getSeq();
NewcoinAddress acct = fit->second->getAccount(seq, true);
fit->second->setSeq(seq + 1); // FIXME: writeout new seq
std::map<NewcoinAddress, LocalAccount::pointer>::iterator ait = mAccounts.find(acct);
if (ait != mAccounts.end()) return ait->second;
LocalAccount::pointer lac = boost::make_shared<LocalAccount>(fit->second, seq);
mAccounts.insert(std::make_pair(acct, lac));
sl.unlock();
return lac;
}
LocalAccount::pointer Wallet::getLocalAccount(const NewcoinAddress& family, int seq)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(family);
if(fit==mFamilies.end()) return LocalAccount::pointer();
NewcoinAddress acct=fit->second->getAccount(seq, true);
std::map<NewcoinAddress, LocalAccount::pointer>::iterator ait=mAccounts.find(acct);
if(ait!=mAccounts.end()) return ait->second;
LocalAccount::pointer lac=boost::make_shared<LocalAccount>(fit->second, seq);
mAccounts.insert(std::make_pair(acct, lac));
sl.unlock();
return lac;
}
LocalAccount::pointer Wallet::getLocalAccount(const NewcoinAddress& acctID)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccount::pointer>::iterator ait=mAccounts.find(acctID);
if(ait==mAccounts.end()) return LocalAccount::pointer();
return ait->second;
}
LocalAccount::pointer Wallet::findAccountForTransaction(uint64 amount)
{
boost::recursive_mutex::scoped_lock sl(mLock);
for(std::map<NewcoinAddress, LocalAccount::pointer>::iterator it=mAccounts.begin(); it!=mAccounts.end(); ++it)
if(!it->second->isLocked() && (it->second->getEffectiveBalance()>=amount) )
return it->second;
return LocalAccount::pointer();
}
LocalAccount::pointer Wallet::parseAccount(const std::string& specifier)
{ // <family>:<seq> or <acct_id>
std::cerr << "Parse(" << specifier << ")" << std::endl;
size_t colon=specifier.find(':');
if(colon == std::string::npos)
{
std::cerr << "nocolon" << std::endl;
NewcoinAddress na;
if (na.setAccountID(specifier))
{
return getLocalAccount(na);
}
else
{
return LocalAccount::pointer();
}
}
if (colon==0) return LocalAccount::pointer();
std::string family=specifier.substr(0, colon);
std::string seq=specifier.substr(colon+1);
if(seq.empty()) return LocalAccount::pointer();
std::cerr << "family(" << family << "), seq(" << seq << ")" << std::endl;
NewcoinAddress familyParsed;
NewcoinAddress familyFound;
if (familyParsed.setFamilyGenerator(family))
{
familyFound = findFamilyPK(familyParsed);
}
if (familyParsed.setFamilySeed(family))
{
// XXX Was private generator, should derive public generator.
; // nothing
}
return familyFound.isValid()
? getLocalAccount(familyFound, boost::lexical_cast<int>(seq))
: LocalAccount::pointer();
}
NewcoinAddress Wallet::peekKey(const NewcoinAddress& family, int seq)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(family);
if(fit==mFamilies.end()) return NewcoinAddress();
return fit->second->getAccount(seq, false);
}
void Wallet::delFamily(const NewcoinAddress& familyName)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(familyName);
if(fit==mFamilies.end()) return;
std::map<int, LocalAccount::pointer>& acctMap=fit->second->getAcctMap();
for(std::map<int, LocalAccount::pointer>::iterator it=acctMap.begin(); it!=acctMap.end(); ++it)
mAccounts.erase(it->second->getAddress());
mFamilies.erase(familyName);
}
// Look for and possible create a family based on its generator.
// --> pubKey: hex
// --> do_create: Add to mFamilies
// --> do_db: write out db
LocalAccountFamily::pointer Wallet::doPublic(const NewcoinAddress& familyGenerator, bool do_create, bool do_db)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(familyGenerator);
if(fit!=mFamilies.end()) // already added
{
return fit->second;
}
if(!do_create)
{
return LocalAccountFamily::pointer();
}
LocalAccountFamily::pointer fam;
if(do_db)
{
fam=LocalAccountFamily::readFamily(familyGenerator);
if(fam) do_create=false;
}
if(do_create)
{
fam=boost::make_shared<LocalAccountFamily>(familyGenerator);
mFamilies.insert(std::make_pair(familyGenerator, fam));
if(do_db) fam->write(true);
}
sl.unlock();
return fam;
}
// Look for and possible create a family based on its seed.
LocalAccountFamily::pointer Wallet::doPrivate(const NewcoinAddress& familySeed, bool do_create, bool do_unlock)
{
NewcoinAddress familyGenerator;
familyGenerator.setFamilyGenerator(familySeed);
boost::recursive_mutex::scoped_lock sl(mLock);
LocalAccountFamily::pointer fam;
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator it=mFamilies.find(familyGenerator);
if(it==mFamilies.end())
{ // family not found
fam=LocalAccountFamily::readFamily(familyGenerator);
if(!fam)
{
if(!do_create)
{
return LocalAccountFamily::pointer();
}
fam=boost::make_shared<LocalAccountFamily>(familyGenerator);
mFamilies.insert(std::make_pair(familyGenerator, fam));
fam->write(true);
}
}
else fam=it->second;
if(do_unlock && fam->isLocked())
fam->unlock(familySeed.getFamilyPrivateKey());
sl.unlock();
return fam;
}
bool Wallet::lock(const NewcoinAddress& family)
{
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.find(family);
if(fit==mFamilies.end()) return false;
fit->second->lock();
return true;
}
#endif
void Wallet::lock()
{
#if 0
boost::recursive_mutex::scoped_lock sl(mLock);
for(std::map<NewcoinAddress, LocalAccountFamily::pointer>::iterator fit=mFamilies.begin();
fit!=mFamilies.end(); ++fit)
fit->second->lock();
#endif
}
bool Wallet::unitTest()
{ // Create 100 keys for each of 1,000 families and ensure all keys match
#if 0
Wallet pub, priv;
uint256 privBase(time(NULL)^(getpid()<<16));
// privBase.SetHex("102031459e");
for(int i=0; i<1000; i++, privBase++)
{
NewcoinAddress fam=priv.addFamily(privBase, false);
#ifdef DEBUG
std::cerr << "Priv: " << privBase.GetHex() << " Fam: " << fam.GetHex() << std::endl;
#endif
#if 0
std::string pubGen=priv.getPubGenHex(fam);
#ifdef DEBUG
std::cerr << "Pub: " << pubGen << std::endl;
#endif
if(pub.addFamily(pubGen)!=fam)
{
assert(false);
return false;
}
if(pub.getPubGenHex(fam)!=pubGen)
{
#ifdef DEBUG
std::cerr << std::endl;
std::cerr << "PuK: " << pub.getPubGenHex(fam) << std::endl;
std::cerr << "PrK: " << priv.getPubGenHex(fam) << std::endl;
std::cerr << "Fam: " << fam.GetHex() << std::endl;
#endif
assert(false);
return false;
}
#endif
for(int j=0; j<100; j++)
{
LocalAccount::pointer lpub=pub.getLocalAccount(fam, j);
LocalAccount::pointer lpriv=priv.getLocalAccount(fam, j);
if(!lpub || !lpriv)
{
assert(false);
return false;
}
NewcoinAddress lpuba=lpub->getAddress();
NewcoinAddress lpriva=lpriv->getAddress();
#ifdef DEBUG
// std::cerr << "pubA(" << j << "): " << lpuba.GetHex() << std::endl;
// std::cerr << "prvA(" << j << "): " << lpriva.GetHex() << std::endl;
std::cerr << "." << std::flush;
#endif
if(!lpuba || (lpuba!=lpriva))
{
assert(false);
return false;
}
}
std::cerr << std::endl;
pub.delFamily(fam);
priv.delFamily(fam);
}
#endif
{
// Create 100 keys for each of 1,000 families and ensure all keys match
return true;
}
#if 0
// We can't replicate the transaction logic in the wallet
// The right way is to apply the transactions to the ledger
// And then sync all affected accounts to the ledger
void Wallet::applyTransaction(Transaction::pointer txn)
{
TransStatus st=txn->getStatus();
bool shouldBePaid=(st==INCLUDED) || (st==HELD) || (st==NEW);
LocalTransaction::pointer ltx;
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<uint256, LocalTransaction::pointer>::iterator lti=mTransactions.find(txn->getID());
if(lti!=mTransactions.end()) ltx=lti->second;
std::map<NewcoinAddress, LocalAccount::pointer>::iterator lac=mAccounts.find(txn->getToAccount());
if(lac != mAccounts.end())
{ // this is to a local account
if(!ltx)
{ // this is to a local account, and we don't have a local transaction for it
ltx=boost::make_shared<LocalTransaction>
(txn->getToAccount(), txn->getAmount(), txn->getIdent());
ltx->setTransaction(txn);
mTransactions.insert(std::make_pair<uint256, LocalTransaction::pointer>(txn->getID(), ltx));
ltx->setCredited();
lac->second->credit(txn->getAmount()-txn->getFee());
}
}
lac = mAccounts.find(txn->getFromAccount());
if(lac == mAccounts.end()) return;
if ( (st!=INVALID) && (lac->second->getTxnSeq()==txn->getFromAccountSeq()) )
lac->second->incTxnSeq();
if(!ltx)
{ // we don't have this transactions
if(shouldBePaid)
{ // we need it
ltx=boost::make_shared<LocalTransaction>
(txn->getToAccount(), txn->getAmount(), txn->getIdent());
ltx->setTransaction(txn);
mTransactions.insert(std::make_pair<uint256, LocalTransaction::pointer>(txn->getID(), ltx));
lac->second->debit(txn->getAmount());
ltx->setPaid();
}
}
else
{ // we have this transaction in some form (ltx->second)
if( (st==COMMITTED) || (st==INVALID) )
{ // we need to remove it
if(ltx->isPaid())
{
lac->second->credit(txn->getAmount());
ltx->setUnpaid();
}
mTransactions.erase(txn->getID());
}
else if(ltx->isPaid() && !shouldBePaid)
{ // we paid for this transaction and it didn't happen
lac->second->credit(txn->getAmount());
ltx->setUnpaid();
}
else if(!ltx->isPaid() && shouldBePaid)
{ // this transaction happened, and we haven't paid locally
lac->second->debit(txn->getAmount());
ltx->setPaid();
}
}
}
#endif
#if 0
void Wallet::addLocalTransactions(Json::Value& ret)
{
boost::recursive_mutex::scoped_lock sl(mLock);
for(std::map<uint256, LocalTransaction::pointer>::iterator it=mTransactions.begin();
it!=mTransactions.end(); ++it)
ret[it->first.GetHex()]=it->second->getJson();
}
#endif
bool Wallet::getTxJson(const uint256& txn, Json::Value& ret)
{
#if 0
boost::recursive_mutex::scoped_lock sl(mLock);
std::map<uint256, LocalTransaction::pointer>::iterator it = mTransactions.find(txn);
if (it == mTransactions.end()) return false;
ret = it->second->getJson();
#endif
return true;
}
bool Wallet::getTxsJson(const NewcoinAddress& account, Json::Value& ret)
{
#if 0
boost::recursive_mutex::scoped_lock sl(mLock);
for(std::map<uint256, LocalTransaction::pointer>::iterator it = mTransactions.begin(),
end = mTransactions.end(); it != end; ++it)
{
Transaction::pointer txn = it->second->getTransaction();
if(txn && (account == txn->getFromAccount())) // FIXME: Need a way to get all accounts a txn affects
ret[it->first.GetHex()] = it->second->getJson();
}
#endif
return true;
}
// vim:ts=4

53
src/Wallet.h
View File

@@ -16,8 +16,6 @@
#include "uint256.h"
#include "Serializer.h"
// #include "LocalAccount.h"
// #include "LocalTransaction.h"
class Ledger;
@@ -37,16 +35,6 @@ protected:
uint32 mLedger; // ledger we last synched to
#if 0
std::map<NewcoinAddress, LocalAccountFamily::pointer> mFamilies;
std::map<NewcoinAddress, LocalAccount::pointer> mAccounts;
std::map<uint256, LocalTransaction::pointer> mTransactions;
LocalAccountFamily::pointer doPrivate(const NewcoinAddress& familySeed, bool do_create, bool do_unlock);
LocalAccountFamily::pointer doPublic(const NewcoinAddress& familyGenerator, bool do_create, bool do_db);
#endif
// void addFamily(const NewcoinAddress& family, const std::string& pubKey, int seq, const std::string& name, const std::string& comment);
public:
Wallet();
@@ -59,47 +47,8 @@ public:
DH* getDh512() { return DHparams_dup(mDh512); }
DH* getDh1024() { return DHparams_dup(mDh1024); }
#if 0
NewcoinAddress addFamily(const std::string& passPhrase, bool lock);
NewcoinAddress addFamily(const NewcoinAddress& familySeed, bool lock);
NewcoinAddress addFamily(const NewcoinAddress& familyGenerator);
NewcoinAddress addRandomFamily(NewcoinAddress& familySeed);
NewcoinAddress findFamilyPK(const NewcoinAddress& familyGenerator);
void delFamily(const NewcoinAddress& familyName);
void getFamilies(std::vector<NewcoinAddress>& familyIDs);
bool lock(const NewcoinAddress& familyName);
#endif
void lock();
void load();
#if 0
// must be a known local account
LocalAccount::pointer parseAccount(const std::string& accountSpecifier);
LocalAccount::pointer getLocalAccount(const NewcoinAddress& famBase, int seq);
LocalAccount::pointer getLocalAccount(const NewcoinAddress& acctID);
LocalAccount::pointer getNewLocalAccount(const NewcoinAddress& family);
LocalAccount::pointer findAccountForTransaction(uint64 amount);
NewcoinAddress peekKey(const NewcoinAddress& family, int seq);
bool getFamilyInfo(const NewcoinAddress& family, std::string& comment);
// bool getFullFamilyInfo(const NewcoinAddress& family, std::string& comment, std::string& pubGen, bool& isLocked);
Json::Value getFamilyJson(const NewcoinAddress& family);
#endif
bool getTxJson(const uint256& txid, Json::Value& value);
bool getTxsJson(const NewcoinAddress& acctid, Json::Value& value);
void addLocalTransactions(Json::Value&);
void syncToLedger(bool force, Ledger* ledger);
static bool unitTest();
};
#endif
// vim:ts=4