Extract information from Monero's blockchain into custom lmdb databases
Monero is using lmdb databases to store its blockchain.
Although one can interact directly with the blockchain to get information from it using Monero C++ libraries, searching and retrieving some information maybe be not very efficient.
This in this example, it is shown how to create your own custom lmdb databases based on information from the blockchain using lmdb++ interface to the lmdb database.
Custom databases
The example creates the following lmdb databases based on the information available in the blockchain:
key_images- key: input key image as string; value: tx_hash as stringtx_public_keys- key: tx public key as string; value: tx_hash as stringpayments_id- key: tx payment id as string; value: tx_hash as stringencrypted_payments_id- key: encrypted tx payment id as string; value: tx_hash as stringoutput_public_keys- key: output public key as string; value: tx_hash as stringoutput_amounts- key: output public key as string; value: amount as uint64_toutput_info- key: output timestamp as uint64; value: struct {out_pub_key as public_key, tx_hash as hash, tx_pub_key as public_key, amount as uint64_t, index_in_tx as uint64_t}
Prerequisite
Everything here was done and tested using Monero 0.9.4 on Xubuntu 16.04 x86_64.
Instruction for Monero 0.9 compilation and Monero headers and libraries setup are as shown here:
C++ code
The main part of the example is main.cpp.
int main(int ac, const char* av[]) {
// get command line options
xmreg::CmdLineOptions opts {ac, av};
//
// *** paring and basing setup skipped to save some space ***
//
// create instance of our MicroCore
xmreg::MicroCore mcore;
// initialize the core using the blockchain path
if (!mcore.init(blockchain_path.string()))
{
cerr << "Error accessing blockchain." << endl;
return 1;
}
// get the high level cryptonote::Blockchain object to interact
// with the blockchain lmdb database
cryptonote::Blockchain& core_storage = mcore.get_core();
uint64_t start_height = 0UL;
// the directory MUST already exist. Make it manually
path mylmdb_location = blockchain_path.parent_path() / path("lmdb2");
// file in which last number of block analyzed is will be stored
path last_height_file = mylmdb_location / path("last_height.txt");
// instance of MyLMDB class that interacts with the custom database
xmreg::MyLMDB mylmdb {mylmdb_location.string()};
// the infinte loop that first reads all tx in the blockchain
// and then makes an interation every 60s to process new
// blockchain in the real time as they come
while (true)
{
string last_height_str = xmreg::read(last_height_file.string());
if (!last_height_str.empty())
{
boost::trim(last_height_str);
start_height = boost::lexical_cast<uint64_t>(last_height_str) + 1;
}
// get the current blockchain height. Just to check
uint64_t height = xmreg::MyLMDB::get_blockchain_height(blockchain_path.string());
cout << "Current blockchain height:" << height << endl;
for (uint64_t blk_height = start_height; blk_height < height; ++blk_height)
{
cryptonote::block blk;
try
{
blk = core_storage.get_db().get_block_from_height(blk_height);
}
catch (std::exception &e)
{
cerr << e.what() << endl;
return 1;
}
// get all transactions in the block found
// initialize the first list with transaction for solving
// the block i.e. coinbase.
list<cryptonote::transaction> txs {blk.miner_tx};
list<crypto::hash> missed_txs;
if (!mcore.get_core().get_transactions(blk.tx_hashes, txs, missed_txs))
{
cerr << "Cant find transactions in block: " << height << endl;
return 1;
}
if (blk_height % 1 == 0)
{
fmt::print("analyzing blk {:d}/{:d}\n", blk_height, height);
}
for (const cryptonote::transaction& tx : txs)
{
crypto::hash tx_hash = get_transaction_hash(tx);
if (!mylmdb.write_key_images(tx))
{
cerr << "write_key_images failed in tx " << tx_hash << endl;
return 1;
}
if (!mylmdb.write_output_public_keys(tx))
{
cerr << "write_output_public_keys failed in tx " << tx_hash << endl;
return 1;
}
if (!mylmdb.write_tx_public_key(tx))
{
cerr << "write_tx_public_key failed in tx " << tx_hash << endl;
return 1;
}
if (!mylmdb.write_payment_id(tx))
{
cerr << "write_payment_id failed in tx " << tx_hash << endl;
return 1;
}
if (!mylmdb.write_encrypted_payment_id(tx))
{
cerr << "write_payment_id failed in tx " << tx_hash << endl;
return 1;
}
}
// save the height of just analyzed block into the last_height_file
{
ofstream out_file(last_height_file.string());
out_file << blk_height;
}
} // for (uint64_t i = start_height; i < height; ++i)
uint64_t what_to_search {0};
if (search_enabled)
{
cout << "What to search "
<< "[0 - nothing, 1 - key_image, 2- out_public_key, "
<< "3 - tx_public_key, 4 - payment id, 5 - encrypted payment id"
<< endl;
cout << "Your choise [0-6]: ";
cin >> what_to_search;
}
vector<string> found_txs;
string to_search;
switch (what_to_search)
{
case 1:
cout << "Enter key_image to find: "; cin >> to_search;
cout << "Searching for: <" << to_search << ">" << endl;
if(!mylmdb.search(to_search, found_txs, "key_images"))
{
cout << " - not found" << endl;
}
break;
case 2:
cout << "Enter output public_key to find: "; cin >> to_search;
cout << "Searching for: <" << to_search << ">" << endl;
if(!mylmdb.search(to_search, found_txs, "output_public_keys"))
{
cout << " - not found" << endl;
}
// now find the amount for this output
if (!found_txs.empty())
{
uint64_t amount;
if (mylmdb.get_output_amount(to_search, amount))
{
cout << " - amount found for this output: "
<< XMR_AMOUNT(amount)
<< endl;
}
}
break;
case 3:
cout << "Enter tx public key to find: "; cin >> to_search;
cout << "Searching for: <" << to_search << ">" << endl;
if(!mylmdb.search(to_search, found_txs, "tx_public_keys"))
{
cout << " - not found" << endl;
}
break;
case 4:
cout << "Enter tx payment_id to find: "; cin >> to_search;
cout << "Searching for: <" << to_search << ">" << endl;
if(!mylmdb.search(to_search, found_txs, "payments_id"))
{
cout << " - not found" << endl;
}
break;
case 5:
cout << "Enter encrypted tx payment_id to find: "; cin >> to_search;
cout << "Searching for: <" << to_search << ">" << endl;
if(!mylmdb.search(to_search, found_txs, "encrypted_payments_id"))
{
cout << " - not found" << endl;
}
break;
}
if (search_enabled)
{
cout << "Found " << found_txs.size() << " tx:" << endl;
for (const string& found_tx: found_txs)
{
fmt::print(" - tx hash: {:s}\n", found_tx);
}
}
else
{
cout << "Wait for 60 seconds " << flush;
for (size_t i = 0; i < 20; ++i)
{
cout << "." << flush;
std::this_thread::sleep_for(std::chrono::seconds(3));
}
}
cout << endl;
} //while (true)
return 0;
}Compile this example
The dependencies are same as those for Monero, so I assume Monero compiles correctly. If so then to download and compile this example, the following steps can be executed:
# download the source code
git clone https://github.com/moneroexamples/lmdbcpp-monero.git
# enter the downloaded sourced code folder
cd lmdbcpp-monero
# create the makefile
cmake .
# compile
makeAfter successful compilation, executable xmrlmdbcpp should be created.
When executed, it will look for the Monero blockchain lmdb database in its
default location, i.e., ~/.bitmonero/lmdb. Once found, it will start extracting
information, block by block, and constructing the custom database. This
can be time consuming, and the new database can be large. At the moment it is
about 12GB!
Once the database is constructed, the xmrlmdbcpp
will run in a loop, with 60s breaks, to keep updating itself as new blocks
are added to the Monero blockchain. There is default 10 blocks of delay.
The reason is to minimize adding orphaned blocks in the custom lmdb database.
The number 10 was chosen as default because this is a default number of blocks
before funds get spendable in Monero.
By default, the custom lmdb database will be located in ~/.bitmonero/lmdb2
folder.
To run it in the background on a headless server,
execute xmrlmdbcpp inside screen or tmux sessions.
Program options
./xmrlmdbcpp -h
xmrlmdbcpp, save key_images and public_keys into a custom lmdb database:
-h [ --help ] [=arg(=1)] (=0) produce help message
-b [ --bc-path ] arg path to lmdb blockchain
-n [ --no-confirmations ] arg (=10) no of blocks before they are added to the
custom lmdb
-t [ --testnet ] [=arg(=1)] (=0) is the address from testnet network
-s [ --search ] [=arg(=1)] (=0) search for tx from user inputExample output
./xmrlmdbcppBlockchain path: "/home/mwo/.bitmonero/lmdb"
2016-May-28 12:59:25.670173 Blockchain initialized. last block: 1056841, d0.h0.m5.s7 time ago, current difficulty: 1471793108
1056842
Current blockchain height:1056842
analyzing blk 1056841/1056842
Wait for 60 seconds ....................
1056842
Current blockchain height:1056842
Wait for 60 seconds ........Other examples
Other examples can be found on github. Please know that some of the examples/repositories are not finished and may not work as intended.
How can you help?
Constructive criticism, code and website edits are always good. They can be made through github.
Some Monero are also welcome:
48daf1rG3hE1Txapcsxh6WXNe9MLNKtu7W7tKTivtSoVLHErYzvdcpea2nSTgGkz66RFP4GKVAsTV14v6G3oddBTHfxP6tU
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