#include #include "wallet2_api_c.h" #include "wallet2_api.h" #include #include "helpers.hpp" #ifdef __cplusplus extern "C" { #endif // PendingTransaction int MONERO_PendingTransaction_status(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->status(); } const char* MONERO_PendingTransaction_errorString(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); std::string str = pendingTx->errorString(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } bool MONERO_PendingTransaction_commit(void* pendingTx_ptr, const char* filename, bool overwrite) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->commit(std::string(filename), overwrite); } uint64_t MONERO_PendingTransaction_amount(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->amount(); } uint64_t MONERO_PendingTransaction_dust(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->dust(); } uint64_t MONERO_PendingTransaction_fee(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->fee(); } const char* MONERO_PendingTransaction_txid(void* pendingTx_ptr, const char* separator) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); std::vector txid = pendingTx->txid(); return vectorToString(txid, std::string(separator)); } uint64_t MONERO_PendingTransaction_txCount(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->txCount(); } const char* MONERO_PendingTransaction_subaddrAccount(void* pendingTx_ptr, const char* separator) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); std::vector subaddrAccount = pendingTx->subaddrAccount(); return vectorToString(subaddrAccount, std::string(separator)); } const char* MONERO_PendingTransaction_subaddrIndices(void* pendingTx_ptr, const char* separator) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); std::vector> subaddrIndices = pendingTx->subaddrIndices(); return vectorToString(subaddrIndices, std::string(separator)); } const char* MONERO_PendingTransaction_multisigSignData(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); std::string str = pendingTx->multisigSignData(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } void MONERO_PendingTransaction_signMultisigTx(void* pendingTx_ptr) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); return pendingTx->signMultisigTx(); } const char* MONERO_PendingTransaction_signersKeys(void* pendingTx_ptr, const char* separator) { Monero::PendingTransaction *pendingTx = reinterpret_cast(pendingTx_ptr); std::vector txid = pendingTx->signersKeys(); return vectorToString(txid, std::string(separator)); } // UnsignedTransaction int MONERO_UnsignedTransaction_status(void* unsignedTx_ptr) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return unsignedTx->status(); } const char* MONERO_UnsignedTransaction_errorString(void* unsignedTx_ptr) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); std::string str = unsignedTx->errorString(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_UnsignedTransaction_amount(void* unsignedTx_ptr, const char* separator) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return vectorToString(unsignedTx->amount(), std::string(separator)); } const char* MONERO_UnsignedTransaction_fee(void* unsignedTx_ptr, const char* separator) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return vectorToString(unsignedTx->fee(), std::string(separator)); } const char* MONERO_UnsignedTransaction_mixin(void* unsignedTx_ptr, const char* separator) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return vectorToString(unsignedTx->mixin(), std::string(separator)); } const char* MONERO_UnsignedTransaction_confirmationMessage(void* unsignedTx_ptr) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); std::string str = unsignedTx->confirmationMessage(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_UnsignedTransaction_paymentId(void* unsignedTx_ptr, const char* separator) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return vectorToString(unsignedTx->paymentId(), std::string(separator)); } const char* MONERO_UnsignedTransaction_recipientAddress(void* unsignedTx_ptr, const char* separator) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return vectorToString(unsignedTx->recipientAddress(), std::string(separator)); } uint64_t MONERO_UnsignedTransaction_minMixinCount(void* unsignedTx_ptr) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return unsignedTx->minMixinCount(); } uint64_t MONERO_UnsignedTransaction_txCount(void* unsignedTx_ptr) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return unsignedTx->txCount(); } bool MONERO_UnsignedTransaction_sign(void* unsignedTx_ptr, const char* signedFileName) { Monero::UnsignedTransaction *unsignedTx = reinterpret_cast(unsignedTx_ptr); return unsignedTx->sign(std::string(signedFileName)); } // TransactionInfo int MONERO_TransactionInfo_direction(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->direction(); } bool MONERO_TransactionInfo_isPending(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->isPending(); } bool MONERO_TransactionInfo_isFailed(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->isFailed(); } bool MONERO_TransactionInfo_isCoinbase(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->isCoinbase(); } uint64_t MONERO_TransactionInfo_amount(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->amount(); } uint64_t MONERO_TransactionInfo_fee(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->fee(); } uint64_t MONERO_TransactionInfo_blockHeight(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->blockHeight(); } const char* MONERO_TransactionInfo_description(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); std::string str = txInfo->description(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_TransactionInfo_subaddrIndex(void* txInfo_ptr, const char* separator) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); std::set subaddrIndex = txInfo->subaddrIndex(); return vectorToString(subaddrIndex, std::string(separator)); } uint32_t MONERO_TransactionInfo_subaddrAccount(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->subaddrAccount(); } const char* MONERO_TransactionInfo_label(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); std::string str = txInfo->label(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } uint64_t MONERO_TransactionInfo_confirmations(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->confirmations(); } uint64_t MONERO_TransactionInfo_unlockTime(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->unlockTime(); } const char* MONERO_TransactionInfo_hash(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); std::string str = txInfo->hash(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } uint64_t MONERO_TransactionInfo_timestamp(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->timestamp(); } const char* MONERO_TransactionInfo_paymentId(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); std::string str = txInfo->paymentId(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } int MONERO_TransactionInfo_transfers_count(void* txInfo_ptr) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->transfers().size(); } uint64_t MONERO_TransactionInfo_transfers_amount(void* txInfo_ptr, int index) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); return txInfo->transfers()[index].amount; } const char* MONERO_TransactionInfo_transfers_address(void* txInfo_ptr, int index) { Monero::TransactionInfo *txInfo = reinterpret_cast(txInfo_ptr); std::string str = txInfo->transfers()[index].address; const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // TransactionHistory int MONERO_TransactionHistory_count(void* txHistory_ptr) { Monero::TransactionHistory *txHistory = reinterpret_cast(txHistory_ptr); return txHistory->count(); } void* MONERO_TransactionHistory_transaction(void* txHistory_ptr, int index) { Monero::TransactionHistory *txHistory = reinterpret_cast(txHistory_ptr); return reinterpret_cast(txHistory->transaction(index)); } void* MONERO_TransactionHistory_transactionById(void* txHistory_ptr, const char* id) { Monero::TransactionHistory *txHistory = reinterpret_cast(txHistory_ptr); return reinterpret_cast(txHistory->transaction(std::string(id))); } void MONERO_TransactionHistory_refresh(void* txHistory_ptr) { Monero::TransactionHistory *txHistory = reinterpret_cast(txHistory_ptr); return txHistory->refresh(); } void MONERO_TransactionHistory_setTxNote(void* txHistory_ptr, const char* txid, const char* note) { Monero::TransactionHistory *txHistory = reinterpret_cast(txHistory_ptr); return txHistory->setTxNote(std::string(txid), std::string(note)); } // AddressBokRow // std::string extra; const char* MONERO_AddressBookRow_extra(void* addressBookRow_ptr) { Monero::AddressBookRow *addressBookRow = reinterpret_cast(addressBookRow_ptr); std::string str = addressBookRow->extra; const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getAddress() const {return m_address;} const char* MONERO_AddressBookRow_getAddress(void* addressBookRow_ptr) { Monero::AddressBookRow *addressBookRow = reinterpret_cast(addressBookRow_ptr); std::string str = addressBookRow->getAddress(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getDescription() const {return m_description;} const char* MONERO_AddressBookRow_getDescription(void* addressBookRow_ptr) { Monero::AddressBookRow *addressBookRow = reinterpret_cast(addressBookRow_ptr); std::string str = addressBookRow->getDescription(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getPaymentId() const {return m_paymentId;} const char* MONERO_AddressBookRow_getPaymentId(void* addressBookRow_ptr) { Monero::AddressBookRow *addressBookRow = reinterpret_cast(addressBookRow_ptr); std::string str = addressBookRow->getPaymentId(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::size_t getRowId() const {return m_rowId;} size_t MONERO_AddressBookRow_getRowId(void* addressBookRow_ptr) { Monero::AddressBookRow *addressBookRow = reinterpret_cast(addressBookRow_ptr); return addressBookRow->getRowId(); } // AddressBook // virtual std::vector getAll() const = 0; int MONERO_AddressBook_getAll_size(void* addressBook_ptr) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->getAll().size(); } void* MONERO_AddressBook_getAll_byIndex(void* addressBook_ptr, int index) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->getAll()[index]; } // virtual bool addRow(const std::string &dst_addr , const std::string &payment_id, const std::string &description) = 0; bool MONERO_AddressBook_addRow(void* addressBook_ptr, const char* dst_addr , const char* payment_id, const char* description) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->addRow(std::string(dst_addr), std::string(payment_id), std::string(description)); } // virtual bool deleteRow(std::size_t rowId) = 0; bool MONERO_AddressBook_deleteRow(void* addressBook_ptr, size_t rowId) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->deleteRow(rowId); } // virtual bool setDescription(std::size_t index, const std::string &description) = 0; bool MONERO_AddressBook_setDescription(void* addressBook_ptr, size_t rowId, const char* description) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->setDescription(rowId, std::string(description)); } // virtual void refresh() = 0; void MONERO_AddressBook_refresh(void* addressBook_ptr) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->refresh(); } // virtual std::string errorString() const = 0; const char* MONERO_AddressBook_errorString(void* addressBook_ptr) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); std::string str = addressBook->errorString(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual int errorCode() const = 0; int MONERO_AddressBook_errorCode(void* addressBook_ptr) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->errorCode(); } // virtual int lookupPaymentID(const std::string &payment_id) const = 0; int MONERO_AddressBook_lookupPaymentID(void* addressBook_ptr, const char* payment_id) { Monero::AddressBook *addressBook = reinterpret_cast(addressBook_ptr); return addressBook->lookupPaymentID(std::string(payment_id)); } // CoinsInfo uint64_t MONERO_CoinsInfo_blockHeight(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->blockHeight(); } // virtual std::string hash() const = 0; const char* MONERO_CoinsInfo_hash(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); std::string str = coinsInfo->hash(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual size_t internalOutputIndex() const = 0; size_t MONERO_CoinsInfo_internalOutputIndex(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->internalOutputIndex(); } // virtual uint64_t globalOutputIndex() const = 0; uint64_t MONERO_CoinsInfo_globalOutputIndex(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->globalOutputIndex(); } // virtual bool spent() const = 0; bool MONERO_CoinsInfo_spent(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->spent(); } // virtual bool frozen() const = 0; bool MONERO_CoinsInfo_frozen(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->frozen(); } // virtual uint64_t spentHeight() const = 0; uint64_t MONERO_CoinsInfo_spentHeight(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->spentHeight(); } // virtual uint64_t amount() const = 0; uint64_t MONERO_CoinsInfo_amount(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->amount(); } // virtual bool rct() const = 0; bool MONERO_CoinsInfo_rct(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->rct(); } // virtual bool keyImageKnown() const = 0; bool MONERO_CoinsInfo_keyImageKnown(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->keyImageKnown(); } // virtual size_t pkIndex() const = 0; size_t MONERO_CoinsInfo_pkIndex(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->pkIndex(); } // virtual uint32_t subaddrIndex() const = 0; uint32_t MONERO_CoinsInfo_subaddrIndex(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->subaddrIndex(); } // virtual uint32_t subaddrAccount() const = 0; uint32_t MONERO_CoinsInfo_subaddrAccount(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->subaddrAccount(); } // virtual std::string address() const = 0; const char* MONERO_CoinsInfo_address(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); std::string str = coinsInfo->address(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual std::string addressLabel() const = 0; const char* MONERO_CoinsInfo_addressLabel(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); std::string str = coinsInfo->addressLabel(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual std::string keyImage() const = 0; const char* MONERO_CoinsInfo_keyImage(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); std::string str = coinsInfo->keyImage(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual uint64_t unlockTime() const = 0; uint64_t MONERO_CoinsInfo_unlockTime(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->unlockTime(); } // virtual bool unlocked() const = 0; bool MONERO_CoinsInfo_unlocked(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->internalOutputIndex(); } // virtual std::string pubKey() const = 0; const char* MONERO_CoinsInfo_pubKey(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); std::string str = coinsInfo->pubKey(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual bool coinbase() const = 0; bool MONERO_CoinsInfo_coinbase(void* coinsInfo_ptr) { Monero::CoinsInfo *coinsInfo = reinterpret_cast(coinsInfo_ptr); return coinsInfo->internalOutputIndex(); } // coins // virtual ~Coins() = 0; // virtual int count() const = 0; int MONERO_Coins_count(void* coins_ptr) { Monero::Coins *coins = reinterpret_cast(coins_ptr); return coins->count(); } // virtual CoinsInfo * coin(int index) const = 0; void* MONERO_Coins_coin(void* coins_ptr, int index) { Monero::Coins *coins = reinterpret_cast(coins_ptr); return coins->coin(index); } // virtual std::vector getAll() const = 0; // virtual void refresh() = 0; void MONERO_Coins_refresh(void* coins_ptr) { Monero::Coins *coins = reinterpret_cast(coins_ptr); return coins->refresh(); } // virtual void setFrozen(int index) = 0; void MONERO_Coins_setFrozen(void* coins_ptr, int index) { Monero::Coins *coins = reinterpret_cast(coins_ptr); return coins->setFrozen(index); } // virtual void thaw(int index) = 0; void MONERO_Coins_thaw(void* coins_ptr, int index) { Monero::Coins *coins = reinterpret_cast(coins_ptr); return coins->thaw(index); } // virtual bool isTransferUnlocked(uint64_t unlockTime, uint64_t blockHeight) = 0; bool MONERO_Coins_isTransferUnlocked(void* coins_ptr, uint64_t unlockTime, uint64_t blockHeight) { Monero::Coins *coins = reinterpret_cast(coins_ptr); return coins->isTransferUnlocked(unlockTime, blockHeight); } // SubaddressRow // std::string extra; const char* MONERO_SubaddressRow_extra(void* subaddressRow_ptr) { Monero::SubaddressRow *subaddressRow = reinterpret_cast(subaddressRow_ptr); std::string str = subaddressRow->extra; const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getAddress() const {return m_address;} const char* MONERO_SubaddressRow_getAddress(void* subaddressRow_ptr) { Monero::SubaddressRow *subaddressRow = reinterpret_cast(subaddressRow_ptr); std::string str = subaddressRow->getAddress(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getLabel() const {return m_label;} const char* MONERO_SubaddressRow_getLabel(void* subaddressRow_ptr) { Monero::SubaddressRow *subaddressRow = reinterpret_cast(subaddressRow_ptr); std::string str = subaddressRow->getLabel(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::size_t getRowId() const {return m_rowId;} size_t MONERO_SubaddressRow_getRowId(void* subaddressRow_ptr) { Monero::SubaddressRow *subaddressRow = reinterpret_cast(subaddressRow_ptr); return subaddressRow->getRowId(); } // Subaddress int MONERO_Subaddress_getAll_size(void* subaddress_ptr) { Monero::Subaddress *subaddress = reinterpret_cast(subaddress_ptr); return subaddress->getAll().size(); } void* MONERO_Subaddress_getAll_byIndex(void* subaddress_ptr, int index) { Monero::Subaddress *subaddress = reinterpret_cast(subaddress_ptr); return subaddress->getAll()[index]; } // virtual void addRow(uint32_t accountIndex, const std::string &label) = 0; void MONERO_Subaddress_addRow(void* subaddress_ptr, uint32_t accountIndex, const char* label) { Monero::Subaddress *subaddress = reinterpret_cast(subaddress_ptr); return subaddress->addRow(accountIndex, std::string(label)); } // virtual void setLabel(uint32_t accountIndex, uint32_t addressIndex, const std::string &label) = 0; void MONERO_Subaddress_setLabel(void* subaddress_ptr, uint32_t accountIndex, uint32_t addressIndex, const char* label) { Monero::Subaddress *subaddress = reinterpret_cast(subaddress_ptr); return subaddress->setLabel(accountIndex, addressIndex, std::string(label)); } // virtual void refresh(uint32_t accountIndex) = 0; void MONERO_Subaddress_refresh(void* subaddress_ptr, uint32_t accountIndex) { Monero::Subaddress *subaddress = reinterpret_cast(subaddress_ptr); return subaddress->refresh(accountIndex); } // SubaddressAccountRow // std::string extra; const char* MONERO_SubaddressAccountRow_extra(void* subaddressAccountRow_ptr) { Monero::SubaddressAccountRow *subaddressAccountRow = reinterpret_cast(subaddressAccountRow_ptr); std::string str = subaddressAccountRow->extra; const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getAddress() const {return m_address;} const char* MONERO_SubaddressAccountRow_getAddress(void* subaddressAccountRow_ptr) { Monero::SubaddressAccountRow *subaddressAccountRow = reinterpret_cast(subaddressAccountRow_ptr); std::string str = subaddressAccountRow->getAddress(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getLabel() const {return m_label;} const char* MONERO_SubaddressAccountRow_getLabel(void* subaddressAccountRow_ptr) { Monero::SubaddressAccountRow *subaddressAccountRow = reinterpret_cast(subaddressAccountRow_ptr); std::string str = subaddressAccountRow->getLabel(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getBalance() const {return m_balance;} const char* MONERO_SubaddressAccountRow_getBalance(void* subaddressAccountRow_ptr) { Monero::SubaddressAccountRow *subaddressAccountRow = reinterpret_cast(subaddressAccountRow_ptr); std::string str = subaddressAccountRow->getBalance(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::string getUnlockedBalance() const {return m_unlockedBalance;} const char* MONERO_SubaddressAccountRow_getUnlockedBalance(void* subaddressAccountRow_ptr) { Monero::SubaddressAccountRow *subaddressAccountRow = reinterpret_cast(subaddressAccountRow_ptr); std::string str = subaddressAccountRow->getUnlockedBalance(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // std::size_t getRowId() const {return m_rowId;} size_t MONERO_SubaddressAccountRow_getRowId(void* subaddressAccountRow_ptr) { Monero::SubaddressAccountRow *subaddressAccountRow = reinterpret_cast(subaddressAccountRow_ptr); return subaddressAccountRow->getRowId(); } // struct SubaddressAccount // { // virtual ~SubaddressAccount() = 0; // virtual std::vector getAll() const = 0; int MONERO_SubaddressAccount_getAll_size(void* subaddressAccount_ptr) { Monero::SubaddressAccount *subaddress = reinterpret_cast(subaddressAccount_ptr); return subaddress->getAll().size(); } void* MONERO_SubaddressAccount_getAll_byIndex(void* subaddressAccount_ptr, int index) { Monero::SubaddressAccount *subaddress = reinterpret_cast(subaddressAccount_ptr); return subaddress->getAll()[index]; } // virtual void addRow(const std::string &label) = 0; void MONERO_SubaddressAccount_addRow(void* subaddressAccount_ptr, const char* label) { Monero::SubaddressAccount *subaddress = reinterpret_cast(subaddressAccount_ptr); return subaddress->addRow(std::string(label)); } // virtual void setLabel(uint32_t accountIndex, const std::string &label) = 0; void MONERO_SubaddressAccount_setLabel(void* subaddressAccount_ptr, uint32_t accountIndex, const char* label) { Monero::SubaddressAccount *subaddress = reinterpret_cast(subaddressAccount_ptr); return subaddress->setLabel(accountIndex, std::string(label)); } // virtual void refresh() = 0; void MONERO_SubaddressAccount_refresh(void* subaddressAccount_ptr) { Monero::SubaddressAccount *subaddress = reinterpret_cast(subaddressAccount_ptr); return subaddress->refresh(); } // MultisigState // bool isMultisig; bool MONERO_MultisigState_isMultisig(void* multisigState_ptr) { Monero::MultisigState *multisigState = reinterpret_cast(multisigState_ptr); return multisigState->isMultisig; } // bool isReady; bool MONERO_MultisigState_isReady(void* multisigState_ptr) { Monero::MultisigState *multisigState = reinterpret_cast(multisigState_ptr); return multisigState->isReady; } // uint32_t threshold; uint32_t MONERO_MultisigState_threshold(void* multisigState_ptr) { Monero::MultisigState *multisigState = reinterpret_cast(multisigState_ptr); return multisigState->threshold; } // uint32_t total; uint32_t MONERO_MultisigState_total(void* multisigState_ptr) { Monero::MultisigState *multisigState = reinterpret_cast(multisigState_ptr); return multisigState->total; } // DeviceProgress // virtual double progress() const { return m_progress; } bool MONERO_DeviceProgress_progress(void* deviceProgress_ptr) { Monero::DeviceProgress *deviceProgress = reinterpret_cast(deviceProgress_ptr); return deviceProgress->progress(); } // virtual bool indeterminate() const { return m_indeterminate; } bool MONERO_DeviceProgress_indeterminate(void* deviceProgress_ptr) { Monero::DeviceProgress *deviceProgress = reinterpret_cast(deviceProgress_ptr); return deviceProgress->indeterminate(); } // Wallet const char* MONERO_Wallet_seed(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->seed(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_getSeedLanguage(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getSeedLanguage(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } void MONERO_Wallet_setSeedLanguage(void* wallet_ptr, const char* arg) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setSeedLanguage(std::string(arg)); } int MONERO_Wallet_status(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->status(); } const char* MONERO_Wallet_errorString(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->errorString(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } bool MONERO_Wallet_setPassword(void* wallet_ptr, const char* password) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setPassword(std::string(password)); } const char* MONERO_Wallet_getPassword(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getPassword(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } bool MONERO_Wallet_setDevicePin(void* wallet_ptr, const char* pin) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setDevicePin(std::string(pin)); } bool MONERO_Wallet_setDevicePassphrase(void* wallet_ptr, const char* passphrase) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setDevicePassphrase(std::string(passphrase)); } const char* MONERO_Wallet_address(void* wallet_ptr, uint64_t accountIndex, uint64_t addressIndex) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->address(accountIndex, addressIndex); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_path(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->path(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } int MONERO_Wallet_nettype(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->nettype(); } uint8_t MONERO_Wallet_useForkRules(void* wallet_ptr, uint8_t version, int64_t early_blocks) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->useForkRules(version, early_blocks); } const char* MONERO_Wallet_integratedAddress(void* wallet_ptr, const char* payment_id) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->integratedAddress(std::string(payment_id)); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_secretViewKey(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->secretViewKey(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_publicViewKey(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->publicViewKey(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_secretSpendKey(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->secretSpendKey(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_publicSpendKey(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->publicSpendKey(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_publicMultisigSignerKey(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->publicMultisigSignerKey(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } void MONERO_Wallet_stop(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); wallet->stop(); } bool MONERO_Wallet_store(void* wallet_ptr, const char* path) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->store(std::string(path)); } const char* MONERO_Wallet_filename(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->filename(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_keysFilename(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->keysFilename(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual bool init(const std::string &daemon_address, uint64_t upper_transaction_size_limit = 0, const std::string &daemon_username = "", const std::string &daemon_password = "", bool use_ssl = false, bool lightWallet = false, const std::string &proxy_address = "") = 0; bool MONERO_Wallet_init(void* wallet_ptr, const char* daemon_address, uint64_t upper_transaction_size_limit, const char* daemon_username, const char* daemon_password, bool use_ssl, bool lightWallet, const char* proxy_address) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->init(std::string(daemon_address), upper_transaction_size_limit, std::string(daemon_username), std::string(daemon_password), use_ssl, lightWallet, std::string(proxy_address)); } bool MONERO_Wallet_createWatchOnly(void* wallet_ptr, const char* path, const char* password, const char* language) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->createWatchOnly(std::string(path), std::string(password), std::string(language)); } void MONERO_Wallet_setRefreshFromBlockHeight(void* wallet_ptr, uint64_t refresh_from_block_height) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setRefreshFromBlockHeight(refresh_from_block_height); } uint64_t MONERO_Wallet_getRefreshFromBlockHeight(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->getRefreshFromBlockHeight(); } void MONERO_Wallet_setRecoveringFromSeed(void* wallet_ptr, bool recoveringFromSeed) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setRecoveringFromSeed(recoveringFromSeed); } void MONERO_Wallet_setRecoveringFromDevice(void* wallet_ptr, bool recoveringFromDevice) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setRecoveringFromDevice(recoveringFromDevice); } void MONERO_Wallet_setSubaddressLookahead(void* wallet_ptr, uint32_t major, uint32_t minor) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setSubaddressLookahead(major, minor); } bool MONERO_Wallet_connectToDaemon(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->connectToDaemon(); } int MONERO_Wallet_connected(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->connected(); } void MONERO_Wallet_setTrustedDaemon(void* wallet_ptr, bool arg) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setTrustedDaemon(arg); } bool MONERO_Wallet_trustedDaemon(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->trustedDaemon(); } bool MONERO_Wallet_setProxy(void* wallet_ptr, const char* address) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setProxy(std::string(address)); } uint64_t MONERO_Wallet_balance(void* wallet_ptr, uint32_t accountIndex) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->balance(accountIndex); } uint64_t MONERO_Wallet_unlockedBalance(void* wallet_ptr, uint32_t accountIndex) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->unlockedBalance(accountIndex); } // TODO bool MONERO_Wallet_watchOnly(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->watchOnly(); } bool MONERO_Wallet_isDeterministic(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->isDeterministic(); } uint64_t MONERO_Wallet_blockChainHeight(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->blockChainHeight(); } uint64_t MONERO_Wallet_approximateBlockChainHeight(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->approximateBlockChainHeight(); } uint64_t MONERO_Wallet_estimateBlockChainHeight(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->estimateBlockChainHeight(); } uint64_t MONERO_Wallet_daemonBlockChainHeight(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->daemonBlockChainHeight(); } uint64_t MONERO_Wallet_daemonBlockChainTargetHeight(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->daemonBlockChainTargetHeight(); } bool MONERO_Wallet_synchronized(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->synchronized(); } const char* MONERO_Wallet_displayAmount(uint64_t amount) { std::string str = Monero::Wallet::displayAmount(amount); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // static uint64_t amountFromString(const std::string &amount); uint64_t MONERO_Wallet_amountFromString(const char* amount) { return Monero::Wallet::amountFromString(amount); } // static uint64_t amountFromDouble(double amount); uint64_t MONERO_Wallet_amountFromDouble(double amount) { return Monero::Wallet::amountFromDouble(amount); } // static std::string genPaymentId(); const char* MONERO_Wallet_genPaymentId() { std::string str = Monero::Wallet::genPaymentId(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // static bool paymentIdValid(const std::string &paiment_id); bool MONERO_Wallet_paymentIdValid(const char* paiment_id) { return Monero::Wallet::paymentIdValid(std::string(paiment_id)); } bool MONERO_Wallet_addressValid(const char* str, int nettype) { // Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return Monero::Wallet::addressValid(std::string(str), nettype); } bool MONERO_Wallet_keyValid(const char* secret_key_string, const char* address_string, bool isViewKey, int nettype) { std::string error; return Monero::Wallet::keyValid(std::string(secret_key_string), std::string(address_string), isViewKey, nettype, error); } const char* MONERO_Wallet_keyValid_error(const char* secret_key_string, const char* address_string, bool isViewKey, int nettype) { std::string str; Monero::Wallet::keyValid(std::string(secret_key_string), std::string(address_string), isViewKey, nettype, str); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_paymentIdFromAddress(const char* strarg, int nettype) { std::string str = Monero::Wallet::paymentIdFromAddress(std::string(strarg), nettype); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } uint64_t MONERO_Wallet_maximumAllowedAmount() { return Monero::Wallet::maximumAllowedAmount(); } void MONERO_Wallet_init3(void* wallet_ptr, const char* argv0, const char* default_log_base_name, const char* log_path, bool console) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->init(argv0, default_log_base_name, log_path, console); } void MONERO_Wallet_startRefresh(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->startRefresh(); } void MONERO_Wallet_pauseRefresh(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->pauseRefresh(); } bool MONERO_Wallet_refresh(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->refresh(); } void MONERO_Wallet_refreshAsync(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->refreshAsync(); } bool MONERO_Wallet_rescanBlockchain(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->rescanBlockchain(); } void MONERO_Wallet_rescanBlockchainAsync(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->rescanBlockchainAsync(); } void MONERO_Wallet_setAutoRefreshInterval(void* wallet_ptr, int millis) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setAutoRefreshInterval(millis); } int MONERO_Wallet_autoRefreshInterval(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->autoRefreshInterval(); } void MONERO_Wallet_addSubaddressAccount(void* wallet_ptr, const char* label) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->addSubaddressAccount(std::string(label)); } size_t MONERO_Wallet_numSubaddressAccounts(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->numSubaddressAccounts(); } size_t MONERO_Wallet_numSubaddresses(void* wallet_ptr, uint32_t accountIndex) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->numSubaddresses(accountIndex); } void MONERO_Wallet_addSubaddress(void* wallet_ptr, uint32_t accountIndex, const char* label) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->addSubaddress(accountIndex, std::string(label)); } const char* MONERO_Wallet_getSubaddressLabel(void* wallet_ptr, uint32_t accountIndex, uint32_t addressIndex) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getSubaddressLabel(accountIndex, addressIndex); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } void MONERO_Wallet_setSubaddressLabel(void* wallet_ptr, uint32_t accountIndex, uint32_t addressIndex, const char* label) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setSubaddressLabel(accountIndex, addressIndex, std::string(label)); } const char* MONERO_Wallet_getMultisigInfo(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getMultisigInfo(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } void* MONERO_Wallet_createTransaction(void* wallet_ptr, const char* dst_addr, const char* payment_id, uint64_t amount, uint32_t mixin_count, int pendingTransactionPriority, uint32_t subaddr_account) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->createTransaction(std::string(dst_addr), std::string(payment_id), amount, mixin_count, Monero::PendingTransaction::Priority_Low, subaddr_account /*, subaddr_indices */); } void* MONERO_Wallet_loadUnsignedTx(void* wallet_ptr, const char* fileName) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->loadUnsignedTx(std::string(fileName)); } bool MONERO_Wallet_submitTransaction(void* wallet_ptr, const char* fileName) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->submitTransaction(std::string(fileName)); } bool MONERO_Wallet_exportKeyImages(void* wallet_ptr, const char* filename, bool all) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->exportKeyImages(std::string(filename), all); } bool MONERO_Wallet_importKeyImages(void* wallet_ptr, const char* filename) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->importKeyImages(std::string(filename)); } bool MONERO_Wallet_exportOutputs(void* wallet_ptr, const char* filename, bool all) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->exportOutputs(std::string(filename), all); } bool MONERO_Wallet_importOutputs(void* wallet_ptr, const char* filename) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->importOutputs(std::string(filename)); } void* MONERO_Wallet_history(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->history(); } void* MONERO_Wallet_addressBook(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->addressBook(); } // virtual Coins * coins() = 0; void* MONERO_Wallet_coins(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->coins(); } // virtual Subaddress * subaddress() = 0; void* MONERO_Wallet_subaddress(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->subaddress(); } // virtual SubaddressAccount * subaddressAccount() = 0; void* MONERO_Wallet_subaddressAccount(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->subaddressAccount(); } // virtual uint32_t defaultMixin() const = 0; uint32_t MONERO_Wallet_defaultMixin(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->defaultMixin(); } // virtual void setDefaultMixin(uint32_t arg) = 0; void MONERO_Wallet_setTefaultMixin(void* wallet_ptr, uint32_t arg) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setDefaultMixin(arg); } // virtual bool setCacheAttribute(const std::string &key, const std::string &val) = 0; bool MONERO_Wallet_setCacheAttribute(void* wallet_ptr, const char* key, const char* val) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setCacheAttribute(std::string(key), std::string(val)); } // virtual std::string getCacheAttribute(const std::string &key) const = 0; const char* MONERO_Wallet_getCacheAttribute(void* wallet_ptr, const char* key) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getCacheAttribute(std::string(key)); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual bool setUserNote(const std::string &txid, const std::string ¬e) = 0; bool MONERO_Wallet_setUserNote(void* wallet_ptr, const char* txid, const char* note) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setUserNote(std::string(txid), std::string(note)); } // virtual std::string getUserNote(const std::string &txid) const = 0; const char* MONERO_Wallet_getUserNote(void* wallet_ptr, const char* txid) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getUserNote(std::string(txid)); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } const char* MONERO_Wallet_getTxKey(void* wallet_ptr, const char* txid) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = wallet->getTxKey(std::string(txid)); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } bool MONERO_Wallet_rescanSpent(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->rescanSpent(); } void MONERO_Wallet_setOffline(void* wallet_ptr, bool offline) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->setOffline(offline); } // virtual bool isOffline() const = 0; bool MONERO_Wallet_isOffline(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->isOffline(); } void MONERO_Wallet_segregatePreForkOutputs(void* wallet_ptr, bool segregate) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->segregatePreForkOutputs(segregate); } // virtual void segregationHeight(uint64_t height) = 0; void MONERO_Wallet_segregationHeight(void* wallet_ptr, uint64_t height) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->segregationHeight(height); } // virtual void keyReuseMitigation2(bool mitigation) = 0; void MONERO_Wallet_keyReuseMitigation2(void* wallet_ptr, bool mitigation) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->keyReuseMitigation2(mitigation); } // virtual bool lightWalletLogin(bool &isNewWallet) const = 0; // virtual bool lightWalletImportWalletRequest(std::string &payment_id, uint64_t &fee, bool &new_request, bool &request_fulfilled, std::string &payment_address, std::string &status) = 0; // virtual bool lockKeysFile() = 0; bool MONERO_Wallet_lockKeysFile(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->lockKeysFile(); } // virtual bool unlockKeysFile() = 0; bool MONERO_Wallet_unlockKeysFile(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->unlockKeysFile(); } // virtual bool isKeysFileLocked() = 0; bool MONERO_Wallet_isKeysFileLocked(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->isKeysFileLocked(); } // virtual Device getDeviceType() const = 0; int MONERO_Wallet_getDeviceType(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->getDeviceType(); } // virtual uint64_t coldKeyImageSync(uint64_t &spent, uint64_t &unspent) = 0; uint64_t MONERO_Wallet_coldKeyImageSync(void* wallet_ptr, uint64_t spent, uint64_t unspent) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->coldKeyImageSync(spent, unspent); } // virtual void deviceShowAddress(uint32_t accountIndex, uint32_t addressIndex, const std::string &paymentId) = 0; const char* MONERO_Wallet_deviceShowAddress(void* wallet_ptr, uint32_t accountIndex, uint32_t addressIndex) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); std::string str = ""; wallet->deviceShowAddress(accountIndex, addressIndex, str); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // virtual bool reconnectDevice() = 0; const char* MONERO_Wallet_reconnectDevice(void* wallet_ptr); uint64_t MONERO_Wallet_getBytesReceived(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->getBytesReceived(); } uint64_t MONERO_Wallet_getBytesSent(void* wallet_ptr) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return wallet->getBytesSent(); } void* MONERO_WalletManager_createWallet(const char* path, const char* password, const char* language, int networkType) { Monero::Wallet *wallet = Monero::WalletManagerFactory::getWalletManager()->createWallet( std::string(path), std::string(password), std::string(language), static_cast(networkType)); return reinterpret_cast(wallet); } void* MONERO_WalletManager_openWallet(const char* path, const char* password, int networkType) { Monero::Wallet *wallet = Monero::WalletManagerFactory::getWalletManager()->openWallet( std::string(path), std::string(password), static_cast(networkType)); return reinterpret_cast(wallet); } void* MONERO_WalletManager_recoveryWallet(const char* path, const char* password, const char* mnemonic, int networkType, uint64_t restoreHeight, uint64_t kdfRounds, const char* seedOffset) { // (const std::string &path, const std::string &password, const std::string &mnemonic, // NetworkType nettype = MAINNET, uint64_t restoreHeight = 0, uint64_t kdf_rounds = 1, // const std::string &seed_offset = {}) Monero::Wallet *wallet = Monero::WalletManagerFactory::getWalletManager()->recoveryWallet( std::string(path), std::string(password), std::string(mnemonic), static_cast(networkType), restoreHeight, kdfRounds, std::string(seedOffset)); return reinterpret_cast(wallet); } bool MONERO_WalletManager_closeWallet(void* wallet_ptr, bool store) { Monero::Wallet *wallet = reinterpret_cast(wallet_ptr); return Monero::WalletManagerFactory::getWalletManager()->closeWallet( wallet, store); } bool MONERO_WalletManager_walletExists(const char* path) { return Monero::WalletManagerFactory::getWalletManager()->walletExists(std::string(path)); } // virtual bool verifyWalletPassword(const std::string &keys_file_name, const std::string &password, bool no_spend_key, uint64_t kdf_rounds = 1) const = 0; bool MONERO_WalletManager_verifyWalletPassword(const char* keys_file_name, const char* password, bool no_spend_key, uint64_t kdf_rounds) { return Monero::WalletManagerFactory::getWalletManager()->verifyWalletPassword(std::string(keys_file_name), std::string(password), no_spend_key, kdf_rounds); } // virtual bool queryWalletDevice(Wallet::Device& device_type, const std::string &keys_file_name, const std::string &password, uint64_t kdf_rounds = 1) const = 0; // bool MONERO_WalletManager_queryWalletDevice(int device_type, const char* keys_file_name, const char* password, uint64_t kdf_rounds) { // return Monero::WalletManagerFactory::getWalletManager()->queryWalletDevice(device_type, std::string(keys_file_name), std::string(password), kdf_rounds); //} // virtual std::vector findWallets(const std::string &path) = 0; const char* MONERO_WalletManager_findWallets(const char* path, const char* separator) { return vectorToString(Monero::WalletManagerFactory::getWalletManager()->findWallets(std::string(path)), std::string(separator)); } const char* MONERO_WalletManager_errorString() { std::string str = Monero::WalletManagerFactory::getWalletManager()->errorString(); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } void MONERO_WalletManager_setDaemonAddress(const char* address) { return Monero::WalletManagerFactory::getWalletManager()->setDaemonAddress(std::string(address)); } bool MONERO_WalletManager_setProxy(const char* address) { return Monero::WalletManagerFactory::getWalletManager()->setProxy(std::string(address)); } // virtual bool connected(uint32_t *version = NULL) = 0; // virtual uint64_t blockchainHeight() = 0; uint64_t MONERO_WalletManager_blockchainHeight() { return Monero::WalletManagerFactory::getWalletManager()->blockchainHeight(); } // virtual uint64_t blockchainTargetHeight() = 0; uint64_t MONERO_WalletManager_blockchainTargetHeight() { return Monero::WalletManagerFactory::getWalletManager()->blockchainTargetHeight(); } // virtual uint64_t networkDifficulty() = 0; uint64_t MONERO_WalletManager_networkDifficulty() { return Monero::WalletManagerFactory::getWalletManager()->networkDifficulty(); } // virtual double miningHashRate() = 0; double MONERO_WalletManager_miningHashRate() { return Monero::WalletManagerFactory::getWalletManager()->miningHashRate(); } // virtual uint64_t blockTarget() = 0; uint64_t MONERO_WalletManager_blockTarget() { return Monero::WalletManagerFactory::getWalletManager()->blockTarget(); } // virtual bool isMining() = 0; bool MONERO_WalletManager_isMining() { return Monero::WalletManagerFactory::getWalletManager()->isMining(); } // virtual bool startMining(const std::string &address, uint32_t threads = 1, bool background_mining = false, bool ignore_battery = true) = 0; bool MONERO_WalletManager_startMining(const char* address, uint32_t threads, bool backgroundMining, bool ignoreBattery) { return Monero::WalletManagerFactory::getWalletManager()->startMining(std::string(address), threads, backgroundMining, ignoreBattery); } // virtual bool stopMining() = 0; bool MONERO_WalletManager_stopMining(const char* address) { return Monero::WalletManagerFactory::getWalletManager()->stopMining(); } // virtual std::string resolveOpenAlias(const std::string &address, bool &dnssec_valid) const = 0; const char* MONERO_WalletManager_resolveOpenAlias(const char* address, bool dnssec_valid) { std::string str = Monero::WalletManagerFactory::getWalletManager()->resolveOpenAlias(std::string(address), dnssec_valid); const std::string::size_type size = str.size(); char *buffer = new char[size + 1]; //we need extra char for NUL memcpy(buffer, str.c_str(), size + 1); return buffer; } // WalletManagerFactory void MONERO_WalletManagerFactory_setLogLevel(int level) { Monero::WalletManagerFactory::setLogLevel(level); } // DEBUG functions // As it turns out we need a bit more functions to make sure that the library is working. // 0) void // 1) bool // 2) int // 3) uint64_t // 4) void* // 5) const char* void MONERO_DEBUG_test0() { return; } bool MONERO_DEBUG_test1(bool x) { return x; } int MONERO_DEBUG_test2(int x) { return x; } uint64_t MONERO_DEBUG_test3(uint64_t x) { return x; } void* MONERO_DEBUG_test4(uint64_t x) { int y = x; return reinterpret_cast(&y); } const char* MONERO_DEBUG_test5() { const char *text = "This is a const char* text"; return text; } const char* MONERO_DEBUG_test5_std() { std::string text ("This is a std::string text"); const char *text2 = "This is a text"; return text2; } #ifdef __cplusplus } #endif