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Monero C++ Library

A C++ library for creating Monero applications using native bindings to monero v0.18.3.4 'Fluorine Fermi'.

  • Supports fully client-side wallets by wrapping wallet2.h.
  • Supports multisig, view-only, and offline wallets.
  • Uses a clearly defined data model and API specification intended to be intuitive and robust.
  • Query wallet transactions, transfers, and outputs by their properties.
  • Receive notifications when wallets sync, send, or receive.
  • Tested by over 100 tests in monero-java and monero-ts using JNI and WebAssembly bindings.

Sample code

// create a wallet from a seed phrase
monero_wallet_config wallet_config;
wallet_config.m_seed = "hefty value later extra artistic firm radar yodel talent future fungal nutshell because sanity awesome nail unjustly rage unafraid cedar delayed thumbs comb custom sanity";
wallet_config.m_path = "MyWalletRestored";
wallet_config.m_password = "supersecretpassword123";
wallet_config.m_network_type = monero_network_type::STAGENET;
wallet_config.m_server = monero_rpc_connection("http://localhost:38081", "superuser", "abctesting123");
wallet_config.m_restore_height = 380104;
wallet_config.m_seed_offset = "";
monero_wallet* wallet_restored = monero_wallet_full::create_wallet(wallet_config);

// synchronize the wallet and receive progress notifications
struct : monero_wallet_listener {
  void on_sync_progress(uint64_t height, uint64_t start_height, uint64_t end_height, double percent_done, const string& message) {
    // feed a progress bar?
  }
} my_sync_listener;
wallet_restored->sync(my_sync_listener);

// start syncing the wallet continuously in the background
wallet_restored->start_syncing();

// get balance, account, subaddresses
string restored_primary = wallet_restored->get_primary_address();
uint64_t balance = wallet_restored->get_balance(); // can specify account and subaddress indices
monero_account account = wallet_restored->get_account(1, true); // get account with subaddresses
uint64_t unlocked_account_balance = account.m_unlocked_balance.get(); // get boost::optional value

// query a transaction by hash
monero_tx_query tx_query;
tx_query.m_hash = "314a0f1375db31cea4dac4e0a51514a6282b43792269b3660166d4d2b46437ca";
vector<shared_ptr<monero_tx_wallet>> txs = wallet_restored->get_txs(tx_query);
shared_ptr<monero_tx_wallet> tx = txs[0];
for (const shared_ptr<monero_transfer> transfer : tx->get_transfers()) {
  bool is_incoming = transfer->is_incoming().get();
  uint64_t in_amount = transfer->m_amount.get();
  int account_index = transfer->m_account_index.get();
}
monero_utils::free(txs);

// query incoming transfers to account 1
monero_transfer_query transfer_query;
transfer_query.m_is_incoming = true;
transfer_query.m_account_index = 1;
vector<shared_ptr<monero_transfer>> transfers = wallet_restored->get_transfers(transfer_query);
monero_utils::free(transfers);

// query unspent outputs
monero_output_query output_query;
output_query.m_is_spent = false;
vector<shared_ptr<monero_output_wallet>> outputs = wallet_restored->get_outputs(output_query);
monero_utils::free(outputs);

// create and sync a new wallet with a random seed phrase
wallet_config = monero_wallet_config();
wallet_config.m_path = "MyWalletRandom";
wallet_config.m_password = "supersecretpassword123";
wallet_config.m_network_type = monero_network_type::STAGENET;
wallet_config.m_server = monero_rpc_connection("http://localhost:38081", "superuser", "abctesting123");
wallet_config.m_language = "English";
monero_wallet* wallet_random = monero_wallet_full::create_wallet(wallet_config);
wallet_random->sync();

// synchronize in the background every 5 seconds
wallet_random->start_syncing(5000);

// get wallet info
string random_seed = wallet_random->get_seed();
string random_primary = wallet_random->get_primary_address();
uint64_t random_height = wallet_random->get_height();
bool random_is_synced = wallet_random->is_synced();

// receive notifications when funds are received, confirmed, and unlocked
struct : monero_wallet_listener {
  void on_output_received(const monero_output_wallet& output) {
    cout << "Wallet received funds!" << endl;
    uint64_t amount = output.m_amount.get();
    string tx_hash = output.m_tx->m_hash.get();
    bool is_confirmed = output.m_tx->m_is_confirmed.get();
    bool is_locked = dynamic_pointer_cast<monero_tx_wallet>(output.m_tx)->m_is_locked.get();
    int account_index = output.m_account_index.get();
    int subaddress_index = output.m_subaddress_index.get();
    FUNDS_RECEIVED = true;
  }
} my_listener;
wallet_random->add_listener(my_listener);

// send funds from the restored wallet to the random wallet
monero_tx_config tx_config;
tx_config.m_account_index = 0;
tx_config.m_address = wallet_random->get_address(1, 0);
tx_config.m_amount = 50000;
tx_config.m_relay = true;
shared_ptr<monero_tx_wallet> sent_tx = wallet_restored->create_tx(tx_config);
bool in_pool = sent_tx->m_in_tx_pool.get();  // true
monero_utils::free(sent_tx);

// mine with 7 threads to push the network along
int num_threads = 7;
bool is_background = false;
bool ignore_battery = false;
wallet_restored->start_mining(num_threads, is_background, ignore_battery);

// wait for the next block to be added to the chain
uint64_t next_height = wallet_random->wait_for_next_block();

// stop mining
wallet_restored->stop_mining();

// create config to send funds to multiple destinations in the random wallet
tx_config = monero_tx_config();
tx_config.m_account_index = 1; // withdraw funds from this account
tx_config.m_subaddress_indices = vector<uint32_t>();
tx_config.m_subaddress_indices.push_back(0);
tx_config.m_subaddress_indices.push_back(1); // withdraw funds from these subaddresses within the account
tx_config.m_priority = monero_tx_priority::UNIMPORTANT; // no rush
tx_config.m_relay = false; // create transaction and relay to the network if true
vector<shared_ptr<monero_destination>> destinations; // specify the recipients and their amounts
destinations.push_back(make_shared<monero_destination>(wallet_random->get_address(1, 0), 50000));
destinations.push_back(make_shared<monero_destination>(wallet_random->get_address(2, 0), 50000));
tx_config.m_destinations = destinations;

// create the transaction, confirm with the user, and relay to the network
shared_ptr<monero_tx_wallet> created_tx = wallet_restored->create_tx(tx_config);
uint64_t fee = created_tx->m_fee.get(); // "Are you sure you want to send ...?"
wallet_restored->relay_tx(*created_tx); // recipient receives notification within 5 seconds
monero_utils::free(created_tx);

// save and close the wallets
wallet_restored->close(true);
wallet_random->close(true);
delete wallet_restored;
delete wallet_random;

Documentation

Using monero-cpp in your project

This project may be compiled as part of another application or built as a shared or static library.

For example, monero-java compiles this project to a shared library to support Java JNI bindings, while monero-ts compiles this project to WebAssembly binaries.

Linux

  1. Clone the project repository if applicable: git clone --recurse-submodules https://github.com/woodser/monero-cpp.git

  2. Update dependencies: sudo apt update && sudo apt install build-essential cmake pkg-config libssl-dev libzmq3-dev libunbound-dev libsodium-dev libunwind8-dev liblzma-dev libreadline6-dev libexpat1-dev libpgm-dev qttools5-dev-tools libhidapi-dev libusb-1.0-0-dev libprotobuf-dev protobuf-compiler libudev-dev libboost-chrono-dev libboost-date-time-dev libboost-filesystem-dev libboost-locale-dev libboost-program-options-dev libboost-regex-dev libboost-serialization-dev libboost-system-dev libboost-thread-dev python3 ccache doxygen graphviz nettle-dev libevent-dev

  3. Follow instructions to install unbound for Linux to your home directory (e.g. ~/unbound-1.19.0).

    For example, install expat:

    cd ~
    wget https://github.com/libexpat/libexpat/releases/download/R_2_4_8/expat-2.4.8.tar.bz2
    tar -xf expat-2.4.8.tar.bz2
    sudo rm expat-2.4.8.tar.bz2
    cd expat-2.4.8
    ./configure --enable-static --disable-shared
    make
    sudo make install
    cd ../
    

    For example, install unbound:

    cd ~
    wget https://www.nlnetlabs.nl/downloads/unbound/unbound-1.19.0.tar.gz
    tar xzf unbound-1.19.0.tar.gz
    sudo apt update
    sudo apt install -y build-essential
    sudo apt install -y libssl-dev
    sudo apt install -y libexpat1-dev
    sudo apt-get install -y bison
    sudo apt-get install -y flex
    cd unbound-1.19.0
    ./configure --with-libexpat=/usr --with-ssl=/usr --enable-static-exe
    make
    sudo make install
    cd ../
    
  4. Build monero-project, located as a submodule at ./external/monero-project. Install dependencies as needed for your system, then build with: make release-static -j8

  5. Link to this library's source files in your application, or build monero-cpp to a shared library in ./build: ./bin/build_libmonero_cpp.sh

macOS

  1. Clone the project repository if applicable: git clone --recurse-submodules https://github.com/woodser/monero-cpp.git

  2. Follow instructions to install unbound for macOS to your home directory (e.g. ~/unbound-1.19.0).

    For example:

    cd ~
    wget https://nlnetlabs.nl/downloads/unbound/unbound-1.19.0.tar.gz
    tar xzf unbound-1.19.0.tar.gz
    cd ~/unbound-1.19.0
    ./configure --with-ssl=/opt/homebrew/Cellar/openssl@3/3.2.1/ --with-libexpat=/opt/homebrew/Cellar/expat/2.5.0
    make
    sudo make install
    
  3. Build monero-project, located as a submodule at ./external/monero-project. Install dependencies as needed for your system, then build with e.g.: make release-static -j6

  4. Link to this library's source files in your application, or build monero-cpp to a shared library in ./build: ./bin/build_libmonero_cpp.sh

Windows

  1. Download and install MSYS2.

  2. Press the Windows button and launch MSYS2 MINGW64 for 64 bit systems or MSYS2 MINGW32 for 32 bit.

  3. Update packages: pacman -Syu and confirm at prompts.

  4. Relaunch MSYS2 (if necessary) and install dependencies:

    For 64 bit:

    pacman -S mingw-w64-x86_64-toolchain make mingw-w64-x86_64-cmake mingw-w64-x86_64-boost mingw-w64-x86_64-openssl mingw-w64-x86_64-zeromq mingw-w64-x86_64-libsodium mingw-w64-x86_64-hidapi mingw-w64-x86_64-unbound mingw-w64-x86_64-protobuf git mingw-w64-x86_64-libusb gettext base-devel mingw-w64-x86_64-icu
    

    For 32 bit:

    pacman -S  mingw-w64-i686-toolchain make mingw-w64-i686-cmake mingw-w64-i686-boost mingw-w64-i686-openssl mingw-w64-i686-zeromq mingw-w64-i686-libsodium mingw-w64-i686-hidapi mingw-w64-i686-unbound mingw-w64-i686-protobuf git mingw-w64-i686-libusb gettext base-devel mingw-w64-i686-icu
    
  5. Clone repo if installing standalone (skip if building as part of another repo like monero-java or monero-ts): git clone --recurse-submodules https://github.com/woodser/monero-cpp.git

  6. Build monero-project, located as a submodule at ./external/monero-project. Install dependencies as needed for your system, then build with:

    For 64 bit: make release-static-win64

    For 32 bit: make release-static-win32

  7. Link to this library's source files in your application, or build monero-cpp to a shared library (libmonero-cpp.dll) in ./build: ./bin/build_libmonero_cpp.sh

Running sample code and tests

  1. In CMakeLists.txt, set the flags to build:

      set(BUILD_LIBRARY ON)
      set(BUILD_SAMPLE ON)
      set(BUILD_SCRATCHPAD ON)
      set(BUILD_TESTS ON)
    
  2. ./bin/build_libmonero_cpp.sh

  3. Run the app, for example: ./build/sample_code

Related projects

License

This project is licensed under MIT.

Donations

Please consider donating to support the development of this project. 🙏


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