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This commit is contained in:
svatantrya
2026-01-21 00:08:47 -04:00
parent fa98283df6
commit dcaab2ed6d
6 changed files with 814 additions and 667 deletions
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4
bal-pusher.sh
View File

@@ -1,12 +1,12 @@
RUST_LOG=trace
BAL_PUSHER_DB_FILE="$(pwd)/bal.db"
export BAL_PUSHER_DB_FILE="$(pwd)/bal.db"
#export BAL_PUSHER_BITCOIN_COOKIE_FILE=/~/.bitcoin/.cookie
#export BAL_PUSHER_REGTEST_COOKIE_FILE=/~/.bitcoin/regtest/.cookie
#export BAL_PUSHER_TESTNET_COOKIE_FILE=/~/.bitcoin/testnet3/.cookie
#export BAL_PUSHER_SIGNET_COOKIE_FILE=/~/.bitcoin/signet/.cookie
BAL_PUSHER_ZMQ_LISTENER=tcp://127.0.0.1:28332
export BAL_PUSHER_ZMQ_LISTENER=tcp://127.0.0.1:28332
export BAL_PUSHER_SEND_STATS=true
export WELIST_SERVER_URL=http://localhost:8085
export BAL_SERVER_URL="http://127.0.0.1:9133"

1
bal-server.sh
View File

@@ -11,6 +11,7 @@ export BAL_SERVER_INFO="BAL devel willexecutor server"
export BAL_SERVER_BIND_ADDRESS="127.0.0.1"
export BAL_SERVER_BIND_PORT=9133
export BAL_SERVER_PUB_KEY_PATH="$WORKING_DIR/public_key.pem"
export BAL_SERVER_EXPOSE_STATS=true;
#export BAL_SERVER_BITCOIN_ADDRESS="your bitcoin address or xpub to recive payments here"
#export BAL_SERVER_BITCOIN_FIXED_FEE=50000

681
src/bin/bal-pusher.rs
View File

@@ -2,212 +2,197 @@ extern crate bitcoincore_rpc;
extern crate zmq;
use bitcoin::Network;
use bitcoincore_rpc::{bitcoin, Auth, Client, Error, RpcApi};
use bitcoincore_rpc::{Auth, Client, Error, RpcApi, bitcoin};
use bitcoincore_rpc_json::GetBlockchainInfoResult;
use sqlite::{Value};
use serde::Serialize;
use byteorder::{LittleEndian, ReadBytesExt};
use hex;
use log::{debug, error, info, trace, warn};
use serde::Deserialize;
use serde::Serialize;
use serde_json::json;
use sqlite::{Value, Connection};
use std::collections::HashMap;
use std::env;
use log::{info,warn,error,trace,debug};
use zmq::{Context, Socket, DEALER, DONTWAIT};
use std::error::Error as StdError;
use std::io::Cursor;
use std::str;
use std::{thread, time::Duration};
use std::collections::HashMap;
use byteorder::{LittleEndian, ReadBytesExt};
use std::io::Cursor;
use hex;
use std::error::Error as StdError;
use zmq::{Context, DEALER, DONTWAIT, Socket};
use reqwest::Client as rClient;
use base64::{Engine as _, engine::general_purpose};
use openssl::hash::MessageDigest;
use openssl::pkey::{PKey};
use openssl::pkey::PKey;
use openssl::sign::Signer;
use openssl::sign::Verifier;
use base64::{engine::general_purpose, Engine as _};
use reqwest::Client as rClient;
use std::fs;
use std::time::Instant;
const LOCKTIME_THRESHOLD:i64 = 5000000;
const VERSION:&str = "0.0.2";
#[derive(Debug, Clone,Serialize, Deserialize)]
const LOCKTIME_THRESHOLD: i64 = 5000000;
const VERSION: &str = "0.0.2";
#[derive(Debug, Clone, Serialize, Deserialize)]
struct MyConfig {
zmq_listener: String,
requests_file: String,
db_file: String,
bitcoin_dir: String,
regtest: NetworkParams,
testnet: NetworkParams,
signet: NetworkParams,
mainnet: NetworkParams,
send_stats: bool,
url: String,
secret_code: String,
ssl_key_path: String
zmq_listener: String,
db_file: String,
bitcoin_dir: String,
regtest: NetworkParams,
testnet: NetworkParams,
signet: NetworkParams,
mainnet: NetworkParams,
send_stats: bool,
url: String,
ssl_key_path: String,
}
impl Default for MyConfig {
fn default() -> Self {
MyConfig {
zmq_listener: "tcp://127.0.0.1:28332".to_string(),
requests_file: "rawrequests.log".to_string(),
db_file: "../bal.db".to_string(),
bitcoin_dir: "".to_string(),
regtest: get_network_params_default(Network::Regtest),
testnet: get_network_params_default(Network::Testnet),
signet: get_network_params_default(Network::Signet),
mainnet: get_network_params_default(Network::Bitcoin),
send_stats: false,
url: "http://localhost/".to_string(),
secret_code: "xxx".to_string(),
ssl_key_path: "privkey.pem".to_string(),
zmq_listener: env::var("BAL_PUSHER_ZMQ_LISTENER").unwrap_or("tcp://127.0.0.1:28332".to_string()),
db_file: env::var("BAL_PUSHER_DB_FILE").unwrap_or("bal.db".to_string()),
bitcoin_dir: env::var("BAL_PUSHER_BITCOIN_DIR").unwrap_or("".to_string()),
regtest: get_network_params_default(Network::Regtest),
testnet: get_network_params_default(Network::Testnet),
signet: get_network_params_default(Network::Signet),
mainnet: get_network_params_default(Network::Bitcoin),
send_stats: env::var("BAL_PUSHER_SEND_STATS").unwrap_or("false".to_string()).parse::<bool>().unwrap(),
url: env::var("BAL_SERVER_URL").unwrap_or("http://localhost/".to_string()),
ssl_key_path: env::var("SSL_KEY_PATH").unwrap_or("privkey.pem".to_string()),
}
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
struct NetworkParams {
host: String,
port: u16,
dir_path: String,
db_field: String,
cookie_file: String,
rpc_user: String,
rpc_pass: String,
host: String,
port: u16,
dir_path: String,
db_field: String,
cookie_file: String,
rpc_user: String,
rpc_pass: String,
}
fn get_network_params(cfg: &MyConfig,network:Network)-> &NetworkParams{
match network{
fn get_network_params(cfg: &MyConfig, network: Network) -> &NetworkParams {
match network {
Network::Testnet => &cfg.testnet,
Network::Signet => &cfg.signet,
Network::Regtest => &cfg.regtest,
_ => &cfg.mainnet
_ => &cfg.mainnet,
}
}
fn get_network_params_default(network:Network) -> NetworkParams{
fn get_network_params_default(network: Network) -> NetworkParams {
match network {
Network::Testnet => NetworkParams{
host: "http://i27.0.0.1".to_string(),
port: 18332,
dir_path: "testnet3/".to_string(),
db_field: "testnet".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
Network::Testnet => NetworkParams {
host: "http://i27.0.0.1".to_string(),
port: 18332,
dir_path: "testnet3/".to_string(),
db_field: "testnet".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
},
Network::Signet => NetworkParams{
host: "http://127.0.0.1".to_string(),
port: 18332,
dir_path: "signet/".to_string(),
db_field: "signet".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
Network::Signet => NetworkParams {
host: "http://127.0.0.1".to_string(),
port: 18332,
dir_path: "signet/".to_string(),
db_field: "signet".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
},
Network::Regtest => NetworkParams{
host: "http://127.0.0.1".to_string(),
port: 18443,
dir_path: "regtest/".to_string(),
db_field: "regtest".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
Network::Regtest => NetworkParams {
host: "http://127.0.0.1".to_string(),
port: 18443,
dir_path: "regtest/".to_string(),
db_field: "regtest".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
},
_ => NetworkParams{
host: "http://127.0.0.1".to_string(),
port: 8332,
dir_path: "".to_string(),
db_field: "bitcoin".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
_ => NetworkParams {
host: "http://127.0.0.1".to_string(),
port: 8332,
dir_path: "".to_string(),
db_field: "bitcoin".to_string(),
cookie_file: "".to_string(),
rpc_user: "".to_string(),
rpc_pass: "".to_string(),
},
}
}
fn get_cookie_filename(network: &NetworkParams) ->Result<String,Box<dyn StdError>>{
if network.cookie_file !=""{
fn get_cookie_filename(network: &NetworkParams) -> Result<String, Box<dyn StdError>> {
if network.cookie_file != "" {
Ok(network.cookie_file.clone())
}else{
} else {
match env::var_os("HOME") {
Some(home) => {
match home.to_str(){
Some(home_str) => {
let cookie_file_path = format!("{}/.bitcoin/{}.cookie",home_str, network.dir_path);
Ok(cookie_file_path)
},
None => Err("wrong HOME value".into())
Some(home) => match home.to_str() {
Some(home_str) => {
let cookie_file_path =
format!("{}/.bitcoin/{}.cookie", home_str, network.dir_path);
Ok(cookie_file_path)
}
None => Err("wrong HOME value".into()),
},
None => Err("Please Set HOME environment variable".into())
None => Err("Please Set HOME environment variable".into()),
}
}
}
fn get_client_from_username(url: &String, network: &NetworkParams) -> Result<(Client,GetBlockchainInfoResult),Box<dyn StdError>>{
fn get_client_from_username(
url: &String,
network: &NetworkParams,
) -> Result<(Client, GetBlockchainInfoResult), Box<dyn StdError>> {
if network.rpc_user != "" {
match Client::new(&url[..],Auth::UserPass(network.rpc_user.to_string(),network.rpc_pass.to_string())){
Ok(client) => match client.get_blockchain_info(){
Ok(bcinfo) => Ok((client,bcinfo)),
Err(err) => Err(err.into())
}
Err(err)=>Err(err.into())
match Client::new(
&url[..],
Auth::UserPass(network.rpc_user.to_string(), network.rpc_pass.to_string()),
) {
Ok(client) => match client.get_blockchain_info() {
Ok(bcinfo) => Ok((client, bcinfo)),
Err(err) => Err(err.into()),
},
Err(err) => Err(err.into()),
}
}else{
} else {
Err("Failed".into())
}
}
fn get_client_from_cookie(url: &String,network: &NetworkParams)->Result<(Client,GetBlockchainInfoResult),Box<dyn StdError>>{
match get_cookie_filename(network){
Ok(cookie) => {
match Client::new(&url[..], Auth::CookieFile(cookie.into())) {
Ok(client) => {
match client.get_blockchain_info(){
Ok(bcinfo) => {
Ok((client,bcinfo))
},
Err(err) => {
Err(err.into())
}
}
},
Err(err)=>Err(err.into())
}
fn get_client_from_cookie(
url: &String,
network: &NetworkParams,
) -> Result<(Client, GetBlockchainInfoResult), Box<dyn StdError>> {
match get_cookie_filename(network) {
Ok(cookie) => match Client::new(&url[..], Auth::CookieFile(cookie.into())) {
Ok(client) => match client.get_blockchain_info() {
Ok(bcinfo) => Ok((client, bcinfo)),
Err(err) => Err(err.into()),
},
Err(err) => Err(err.into()),
},
Err(err)=>Err(err.into())
Err(err) => Err(err.into()),
}
}
fn get_client(network: &NetworkParams) -> Result<(Client,GetBlockchainInfoResult),Box<dyn StdError>>{
let url = format!("{}:{}/",network.host,&network.port);
match get_client_from_username(&url,network){
Ok(client) =>{Ok(client)},
Err(_) =>{
match get_client_from_cookie(&url,&network){
Ok(client)=>{
Ok(client)
},
Err(err)=> Err(err.into())
}
}
fn get_client(
network: &NetworkParams,
) -> Result<(Client, GetBlockchainInfoResult), Box<dyn StdError>> {
let url = format!("{}:{}/", network.host, &network.port);
match get_client_from_username(&url, network) {
Ok(client) => Ok(client),
Err(_) => match get_client_from_cookie(&url, &network) {
Ok(client) => Ok(client),
Err(err) => Err(err.into()),
},
}
}
async fn main_result(cfg: &MyConfig, network_params: &NetworkParams) -> Result<(), Error> {
/*let url = args.next().expect("Usage: <rpc_url> <username> <password>");
let user = args.next().expect("no user given");
let pass = args.next().expect("no pass given");
*/
//let network = Network::Regtest
match get_client(network_params){
Ok((rpc,bcinfo)) => {
match get_client(network_params) {
Ok((rpc, bcinfo)) => {
info!("connected");
//let best_block_hash = rpc.get_best_block_hash()?;
//info!("best block hash: {}", best_block_hash);
@@ -224,41 +209,44 @@ async fn main_result(cfg: &MyConfig, network_params: &NetworkParams) -> Result<(
// time_sum += <u32 as Into<u64>>::into(block.header.time);
//}
//let average_time = time_sum/11;
info!("median time: {}",bcinfo.median_time);
info!("median time: {}", bcinfo.median_time);
//info!("height time: {}",bcinfo.median_time);
info!("blocks: {}",bcinfo.blocks);
debug!("best block hash: {}",bcinfo.best_block_hash);
info!("blocks: {}", bcinfo.blocks);
debug!("best block hash: {}", bcinfo.best_block_hash);
let average_time = bcinfo.median_time;
let db = sqlite::open(&cfg.db_file).unwrap();
info!("db open {}",&cfg.db_file);
let sqlquery = "SELECT * FROM tbl_tx WHERE network = :network AND status = :status AND ( locktime < :bestblock_height OR locktime > :locktime_threshold AND locktime < :bestblock_time);";
let query_tx = db.prepare(sqlquery).unwrap().into_iter();
trace!("query_tx: {}",sqlquery);
trace!(":locktime_threshold: {}", LOCKTIME_THRESHOLD );
trace!("query_tx: {}", sqlquery);
trace!(":locktime_threshold: {}", LOCKTIME_THRESHOLD);
trace!(":bestblock_time: {}", average_time);
trace!(":bestblock_height: {}", bcinfo.blocks);
trace!(":network: {}", network_params.db_field.clone());
trace!(":status: {}", 0);
//let query_tx = db.prepare("SELECT * FROM tbl_tx where status = :status").unwrap().into_iter();
let mut pushed_txs:Vec<String> = Vec::new();
let mut pushed_txs: Vec<String> = Vec::new();
let mut invalid_txs: std::collections::HashMap<String, String> = HashMap::new();
for row in query_tx.bind::<&[(_, Value)]>(&[
(":locktime_threshold", (LOCKTIME_THRESHOLD as i64).into()),
(":bestblock_time", (average_time as i64).into()),
(":bestblock_height", (bcinfo.blocks as i64).into()),
(":network", network_params.db_field.clone().into()),
(":status", 0.into()),
][..])
.unwrap()
.map(|row| row.unwrap())
for row in query_tx
.bind::<&[(_, Value)]>(
&[
(":locktime_threshold", (LOCKTIME_THRESHOLD as i64).into()),
(":bestblock_time", (average_time as i64).into()),
(":bestblock_height", (bcinfo.blocks as i64).into()),
(":network", network_params.db_field.clone().into()),
(":status", 0.into()),
][..],
)
.unwrap()
.map(|row| row.unwrap())
{
let tx = row.read::<&str, _>("tx");
let txid = row.read::<&str, _>("txid");
let locktime = row.read::<i64,_>("locktime");
info!("to be pushed: {}: {}",txid, locktime);
match rpc.send_raw_transaction(tx){
let locktime = row.read::<i64, _>("locktime");
info!("to be pushed: {}: {}", txid, locktime);
match rpc.send_raw_transaction(tx) {
Ok(o) => {
/*let mut file = OpenOptions::new()
.append(true) // Set the append option
@@ -268,9 +256,9 @@ async fn main_result(cfg: &MyConfig, network_params: &NetworkParams) -> Result<(
file.write_all(data.as_bytes())?;
drop(file);
*/
info!("tx: {} pusshata PUSHED\n{}",txid,o);
info!("tx: {} pusshata PUSHED\n{}", txid, o);
pushed_txs.push(txid.to_string());
},
}
Err(err) => {
/*let mut file = OpenOptions::new()
.append(true) // Set the append option
@@ -280,184 +268,233 @@ async fn main_result(cfg: &MyConfig, network_params: &NetworkParams) -> Result<(
file.write_all(data.as_bytes())?;
drop(file);
*/
warn!("Error: {}\n{}",err,txid);
warn!("Error: {}\n{}", err, txid);
//store err in invalid_txs
invalid_txs.insert(txid.to_string(), err.to_string());
},
}
};
}
if pushed_txs.len() > 0 {
let sql = format!("UPDATE tbl_tx SET status = 1 WHERE txid in ('{}');",pushed_txs.join("','"));
trace!("sqlok: {}",&sql);
let sql = format!(
"UPDATE tbl_tx SET status = 1 WHERE txid in ('{}');",
pushed_txs.join("','")
);
trace!("sqlok: {}", &sql);
let _ = db.execute(&sql);
}
if invalid_txs.len() > 0 {
for (txid,txerr) in &invalid_txs{
for (txid, txerr) in &invalid_txs {
//let _ = db.execute(format!("UPDATE tbl_tx SET status = 2 WHERE txid in ('{}'Yp);",invalid_txs.join("','")));
let sql = format!("UPDATE tbl_tx SET status = 2, push_err='{txerr}' WHERE txid = '{txid}'");
trace!("sqlerror: {}",&sql);
let sql = format!(
"UPDATE tbl_tx SET status = 2, push_err='{txerr}' WHERE txid = '{txid}'"
);
trace!("sqlerror: {}", &sql);
let _ = db.execute(&sql);
}
}
let _ = send_stats_report(cfg, bcinfo).await;
let _ = calculate_stats(&db,network_params.db_field.clone()).await;
}
Err(erx)=>{
panic!("impossible to get client {}",erx)
Err(erx) => {
panic!("impossible to get client {}", erx)
}
}
Ok(())
}
async fn send_stats_report(cfg: &MyConfig, bcinfo: GetBlockchainInfoResult) -> Result<(),reqwest::Error>{
async fn calculate_stats(db: &Connection,chain: String) -> Result<(), reqwest::Error> {
//let sql = "drop table if exists tbl_stats;";
let sql = "DELETE FROM tbl_stats WHERE chain = '{chain}';";
if let Err(err) = db.execute(&sql){
error!("error deleting from tbl_stats where chain:{chain} error: {err}");
}
let sql = format!("INSERT INTO tbl_stats (
report_date, chain, totals, waiting, sent, failed,
waiting_profit, sent_profit, missed_profit, unique_inputs
)
VALUES (
CURRENT_TIMESTAMP,
'{chain}',
(SELECT COUNT(*) FROM tbl_tx WHERE network = '{chain}'),
(SELECT COUNT(*) FROM tbl_tx WHERE status = 0 AND network = '{chain}'),
(SELECT COUNT(*) FROM tbl_tx WHERE status = 1 AND network = '{chain}'),
(SELECT COUNT(*) FROM tbl_tx WHERE status = 2 AND network = '{chain}'),
(SELECT IFNULL(SUM(our_fees),0) FROM tbl_tx WHERE status = 0 AND network = '{chain}'),
(SELECT IFNULL(SUM(our_fees),0) FROM tbl_tx WHERE status = 1 AND network = '{chain}'),
(SELECT IFNULL(SUM(our_fees),0) FROM tbl_tx WHERE status = 2 AND network = '{chain}'),
(SELECT COUNT(DISTINCT tbl_inp.in_txid) -- or appropriate input identifier
FROM tbl_inp
JOIN tbl_tx ON tbl_inp.txid = tbl_tx.txid
WHERE tbl_tx.status = 0 AND tbl_tx.network = '{chain}')
)
ON CONFLICT(chain) DO UPDATE SET
report_date = excluded.report_date,
totals = excluded.totals,
waiting = excluded.waiting,
sent = excluded.sent,
failed = excluded.failed,
waiting_profit = excluded.waiting_profit,
sent_profit = excluded.sent_profit,
missed_profit = excluded.missed_profit,
unique_inputs = excluded.unique_inputs;
");
/*
let sql = format!("CREATE TABLE tbl_stats AS
SELECT
CURRENT_TIMESTAMP AS report_date,
'{chain}' as chain,
(SELECT COUNT(*) FROM tbl_tx WHERE network ='{chain}') AS totals,
(SELECT COUNT(*) FROM tbl_tx WHERE status = 0 AND network ='{chain}') AS waiting,
(SELECT COUNT(*) FROM tbl_tx WHERE status = 1 AND network ='{chain}') AS sent,
(SELECT COUNT(*) FROM tbl_tx WHERE status = 2 AND network ='{chain}') AS failed,
(SELECT SUM(our_fees) FROM tbl_tx WHERE status = 0 AND network ='{chain}') AS waiting_profit,
(SELECT SUM(our_fees) OR 0 FROM tbl_tx WHERE status = 1 AND network ='{chain}') AS sent_profit,
(SELECT SUM(our_fees) FROM tbl_tx WHERE status = 2 AND network ='{chain}') AS missed_profit,
(SELECT COUNT(*) FROM tbl_inp JOIN tbl_tx ON(tbl_inp.txid = tbl_tx.txid) WHERE tbl_tx.status=0 AND tbl_tx.network ='{chain}') AS unique_inputs;
");
let sql = "UPDATE tbl_stats set
totals = (SELECT COUNT(*) FROM tbl_tx WHERE network ='{chain}'),
waiting = (SELECT COUNT(*) FROM tbl_tx WHERE status = 0 AND network ='{chain}'),
sent = (SELECT COUNT(*) FROM tbl_tx WHERE status = 1 AND network ='{chain}'),
failed = (SELECT COUNT(*) FROM tbl_tx WHERE status = 1 AND network ='{chain}'),
waiting_profit = (SELECT SUM(our_fees) FROM tbl_tx WHERE status = 0 AND network ='{chain}'),
sent_profit = (SELECT SUM(our_fees) FROM tbl_tx WHERE status = 0 AND network ='{chain}'),
missed_profit = (SELECT SUM(our_fees) FROM tbl_tx WHERE status = 0 AND network ='{chain}')
unique_inputs = (SELECT COUNT(*) FROM tbl_inp JOIN tbl_tx ON(tbl_inp.txid = tbl_tx.txid) WHERE tbl_tx.status=0 AND tbl_tx.network ='{chain}')
WHERE chain = '{chain}'
*/
if let Err(err) = db.execute(&sql){
error!("error inserting creating stats table {err}");
}
else{
info!("tbl_stats creation success");
}
Ok(())
}
async fn send_stats_report(
cfg: &MyConfig,
bcinfo: GetBlockchainInfoResult,
) -> Result<(), reqwest::Error> {
if cfg.send_stats {
debug!("sending report to welist");
let welist_url=env::var("WELIST_SERVER_URL").unwrap_or("https://welist.bitcoin-after.life".to_string());
let welist_url = env::var("WELIST_SERVER_URL")
.unwrap_or("https://welist.bitcoin-after.life".to_string());
let client = rClient::new();
let url = format!("{}/ping",welist_url);
debug!("welist url: {}",url);
let chain=bcinfo.chain.to_string().to_lowercase();
let message = format!("{0}{1}{2}{3}{4}",cfg.url,chain,bcinfo.blocks,bcinfo.median_time,bcinfo.best_block_hash);
trace!("message to be sent: {}",message);
let sign = sign_message(cfg.ssl_key_path.as_str(),&message.as_str());
let response = client.post(url)
.header("User-Agent", format!("bal-pusher/{}",VERSION))
let url = format!("{}/ping", welist_url);
debug!("welist url: {}", url);
let chain = bcinfo.chain.to_string().to_lowercase();
let message = format!(
"{0}{1}{2}{3}{4}",
cfg.url, chain, bcinfo.blocks, bcinfo.median_time, bcinfo.best_block_hash
);
trace!("message to be sent: {}", message);
let sign = sign_message(cfg.ssl_key_path.as_str(), &message.as_str());
let response = client
.post(url)
.header("User-Agent", format!("bal-pusher/{}", VERSION))
.json(&json!(
{
"url": cfg.url,
"chain": chain,
"height": bcinfo.blocks,
"median_time": bcinfo.median_time,
"last_block_hash": bcinfo.best_block_hash,
"signature": sign,
}))
.send().await?;
{
"url": cfg.url,
"chain": chain,
"height": bcinfo.blocks,
"median_time": bcinfo.median_time,
"last_block_hash": bcinfo.best_block_hash,
"signature": sign,
}))
.send()
.await?;
if !response.status().is_success() {
warn!("Non-success response: {} {}", response.status(), response.status().canonical_reason().unwrap_or(""));
warn!(
"Non-success response: {} {}",
response.status(),
response.status().canonical_reason().unwrap_or("")
);
}
let body = &(response.text().await?);
info!("Report to welist({})\tSent: {}", welist_url,body);
}else {
info!("Report to welist({})\tSent: {}", welist_url, body);
} else {
debug!("Not sending stats");
}
Ok(())
}
fn sign_message(private_key_path: &str, message: &str) -> String {
let key_data = fs::read(private_key_path).unwrap();
let key_data = fs::read(private_key_path).unwrap();
let private_key = PKey::private_key_from_pem(&key_data).unwrap();
let mut signer = Signer::new_without_digest(&private_key).unwrap();
let mut signer = Signer::new_without_digest(&private_key).unwrap();
let signature = signer.sign_oneshot_to_vec(message.as_bytes()).unwrap();
let signature_b64 = general_purpose::STANDARD.encode(&signature);
signature_b64
}
fn parse_env(cfg: &mut MyConfig){
match env::var("BAL_PUSHER_ZMQ_LISTENER") {
Ok(value) => {
cfg.zmq_listener = value;},
Err(_) => {},
}
match env::var("BAL_PUSHER_REQUEST_FILE") {
Ok(value) => {
cfg.requests_file = value;},
Err(_) => {},
}
match env::var("BAL_PUSHER_DB_FILE") {
Ok(value) => {
cfg.db_file = value;},
Err(_) => {},
}
match env::var("BAL_PUSHER_BITCOIN_DIR") {
Ok(value) => {
cfg.bitcoin_dir = value;},
Err(_) => {},
}
match env::var("BAL_PUSHER_SEND_STATS") {
Ok(value) => {
cfg.send_stats = value.parse::<bool>().unwrap();
},
Err(_) => {},
}
match env::var("BAL_SERVER_URL") {
Ok(value) => {
cfg.url= value;},
Err(_) => {},
}
match env::var("WELIST_SECRET_CODE") {
Ok(value) => {
cfg.secret_code = value;},
Err(_) => {},
}
match env::var("SSL_KEY_PATH") {
Ok(value) => {
cfg.ssl_key_path = value;},
Err(_) => {},
}
cfg.regtest = parse_env_netconfig(cfg,"regtest");
cfg.signet = parse_env_netconfig(cfg,"signet");
cfg.testnet = parse_env_netconfig(cfg,"testnet");
drop(parse_env_netconfig(cfg,"bitcoin"));
fn parse_env(cfg: &mut MyConfig) {
cfg.regtest = parse_env_netconfig(cfg, "regtest");
cfg.signet = parse_env_netconfig(cfg, "signet");
cfg.testnet = parse_env_netconfig(cfg, "testnet");
drop(parse_env_netconfig(cfg, "bitcoin"));
}
fn parse_env_netconfig(cfg_lock: &mut MyConfig, chain: &str) -> NetworkParams{
//fn parse_env_netconfig(cfg_lock: &MutexGuard<MyConfig>, chain: &str) -> &NetworkParams{
let cfg = match chain{
fn parse_env_netconfig(cfg_lock: &mut MyConfig, chain: &str) -> NetworkParams {
//fn parse_env_netconfig(cfg_lock: &MutexGuard<MyConfig>, chain: &str) -> &NetworkParams{
let cfg = match chain {
"regtest" => &mut cfg_lock.regtest,
"signet" => &mut cfg_lock.signet,
"testnet" => &mut cfg_lock.testnet,
&_ => &mut cfg_lock.mainnet,
};
match env::var(format!("BAL_PUSHER_{}_HOST",chain.to_uppercase())) {
Ok(value) => { cfg.host= value; },
Err(_) => {},
}
match env::var(format!("BAL_PUSHER_{}_PORT",chain.to_uppercase())) {
match env::var(format!("BAL_PUSHER_{}_HOST", chain.to_uppercase())) {
Ok(value) => {
match value.parse::<u64>(){
Ok(value) =>{ cfg.port = value.try_into().unwrap(); },
Err(_) => {},
}
cfg.host = value;
}
Err(_) => {},
Err(_) => {}
}
match env::var(format!("BAL_PUSHER_{}_DIR_PATH",chain.to_uppercase())) {
Ok(value) => { cfg.dir_path = value; },
Err(_) => {},
match env::var(format!("BAL_PUSHER_{}_PORT", chain.to_uppercase())) {
Ok(value) => match value.parse::<u64>() {
Ok(value) => {
cfg.port = value.try_into().unwrap();
}
Err(_) => {}
},
Err(_) => {}
}
match env::var(format!("BAL_PUSHER_{}_DB_FIELD",chain.to_uppercase())) {
Ok(value) => { cfg.db_field = value; },
Err(_) => {},
match env::var(format!("BAL_PUSHER_{}_DIR_PATH", chain.to_uppercase())) {
Ok(value) => {
cfg.dir_path = value;
}
Err(_) => {}
}
match env::var(format!("BAL_PUSHER_{}_COOKIE_FILE",chain.to_uppercase())) {
Ok(value) => {
cfg.cookie_file = value; },
Err(_) => {},
match env::var(format!("BAL_PUSHER_{}_DB_FIELD", chain.to_uppercase())) {
Ok(value) => {
cfg.db_field = value;
}
Err(_) => {}
}
match env::var(format!("BAL_PUSHER_{}_RPC_USER",chain.to_uppercase())) {
Ok(value) => { cfg.rpc_user = value; },
Err(_) => {},
match env::var(format!("BAL_PUSHER_{}_COOKIE_FILE", chain.to_uppercase())) {
Ok(value) => {
cfg.cookie_file = value;
}
Err(_) => {}
}
match env::var(format!("BAL_PUSHER_{}_RPC_PASSWORD",chain.to_uppercase())) {
Ok(value) => { cfg.rpc_pass = value; },
Err(_) => {},
match env::var(format!("BAL_PUSHER_{}_RPC_USER", chain.to_uppercase())) {
Ok(value) => {
cfg.rpc_user = value;
}
Err(_) => {}
}
match env::var(format!("BAL_PUSHER_{}_RPC_PASSWORD", chain.to_uppercase())) {
Ok(value) => {
cfg.rpc_pass = value;
}
Err(_) => {}
}
cfg.clone()
}
fn get_default_config()-> MyConfig {
let file = confy::get_configuration_file_path("bal-pusher",None).expect("Error while getting path");
info!("Default configuration file path is: {:#?}", file);
confy::load("bal-pusher",None).expect("cant_load")
}
fn check_zmq_connection(endpoint: &str) -> bool {
trace!("check zmq connection");
@@ -466,11 +503,11 @@ fn check_zmq_connection(endpoint: &str) -> bool {
Ok(sock) => sock,
Err(_) => return false,
};
if socket.connect(endpoint).is_err() {
return false;
}
// Try to send an empty message non-blocking
socket.send("", DONTWAIT).is_ok()
}
@@ -492,18 +529,18 @@ impl ConnectionMonitor {
max_consecutive_timeouts: max_timeouts,
}
}
fn update(&mut self) {
self.last_message_time = Instant::now();
self.consecutive_timeouts = 0;
}
fn check_connection(&mut self) -> ConnectionStatus {
let elapsed = self.last_message_time.elapsed();
if elapsed > self.timeout {
self.consecutive_timeouts += 1;
if self.consecutive_timeouts >= self.max_consecutive_timeouts {
ConnectionStatus::Lost(elapsed)
} else {
@@ -513,7 +550,7 @@ impl ConnectionMonitor {
ConnectionStatus::Healthy
}
}
fn reset(&mut self) {
self.consecutive_timeouts = 0;
self.last_message_time = Instant::now();
@@ -527,78 +564,66 @@ enum ConnectionStatus {
}
#[tokio::main]
async fn main()-> std::io::Result<()>{
async fn main() -> std::io::Result<()> {
env_logger::init();
let mut cfg: MyConfig = match env::var("BAL_PUSHER_CONFIG_FILE") {
Ok(value) => {
match confy::load_path(&value){
Ok(val) => {
info!("The configuration file path is: {:#?}", value);
val
},
Err(err) => {
error!("{}",err);
get_default_config()
}
}
},
Err(_) => {
get_default_config()
},
};
let mut cfg = MyConfig::default();
let dbfile = env::var("BAL_PUSHER_DB_FILE").unwrap();
parse_env(&mut cfg);
let mut args = std::env::args();
let _exe_name = args.next().unwrap();
let arg_network = match args.next(){
let arg_network = match args.next() {
Some(nargs) => nargs,
None => "bitcoin".to_string()
None => "bitcoin".to_string(),
};
let network = match arg_network.as_str(){
let network = match arg_network.as_str() {
"testnet" => Network::Testnet,
"signet" => Network::Signet,
"regtest" => Network::Regtest,
_ => Network::Bitcoin,
};
info!("Network: {}",arg_network);
let network_params = get_network_params(&cfg,network);
info!("Network: {}", arg_network);
let network_params = get_network_params(&cfg, network);
let context = Context::new();
let socket: Socket = context.socket(zmq::SUB).unwrap();
let zmq_address = cfg.zmq_listener.clone();
info!("zmq listening on: {}",zmq_address);
info!("zmq listening on: {}", zmq_address);
socket.connect(&zmq_address).unwrap();
socket.set_subscribe(b"").unwrap();
socket.set_subscribe(b"").unwrap();
let _ = main_result(&cfg,network_params).await;
let _ = main_result(&cfg, network_params).await;
info!("waiting new blocks..");
let mut last_seq:Vec<u8>=[0;4].to_vec();
let mut counter=0;
let max=100;
let mut last_seq: Vec<u8> = [0; 4].to_vec();
let mut counter = 0;
let max = 100;
loop {
let message = socket.recv_multipart(0).unwrap();
let topic = message[0].clone();
let body = message[1].clone();
let seq = message[2].clone();
last_seq = seq;
debug!("ZMQ:GET TOPIC: {}", String::from_utf8(topic.clone()).expect("invalid topic"));
debug!(
"ZMQ:GET TOPIC: {}",
String::from_utf8(topic.clone()).expect("invalid topic")
);
trace!("ZMQ:GET BODY: {}", hex::encode(&body));
if topic == b"hashblock" {
info!("NEW BLOCK: {}", hex::encode(&body));
let _ = main_result(&cfg,network_params).await;
info!("NEW BLOCK: {}", hex::encode(&body));
let _ = main_result(&cfg, network_params).await;
}
thread::sleep(Duration::from_millis(100)); // Sleep for 100ms
}
}
fn seq_to_str(seq:&Vec<u8>) -> String{
if seq.len()==4{
fn seq_to_str(seq: &Vec<u8>) -> String {
if seq.len() == 4 {
let mut rdr = Cursor::new(seq);
let sequence = rdr.read_u32::<LittleEndian>().expect("Failed to read integer");
let sequence = rdr
.read_u32::<LittleEndian>()
.expect("Failed to read integer");
return sequence.to_string();
}
"Unknown".to_string()

579
src/bin/bal-server.rs
View File

@@ -1,37 +1,39 @@
use bytes::Bytes;
use http_body_util::{ combinators::BoxBody, BodyExt, Empty, Full };
use http_body_util::{BodyExt, Empty, Full, combinators::BoxBody};
use hyper::server::conn::http1;
use hyper::service::service_fn;
use hyper::{ Method, Request, Response, StatusCode };
use tokio::net::TcpListener;
use hyper::{Method, Request, Response, StatusCode};
use hyper_util::rt::TokioIo;
use tokio::net::TcpListener;
use std::net::IpAddr;
use std::env;
use std::net::IpAddr;
//use std::time::{SystemTime,UNIX_EPOCH};
use std::fs;
use std::sync::{ Arc, Mutex, MutexGuard };
use std::sync::{Arc, Mutex, MutexGuard};
//use std::net::SocketAddr;
use sqlite::{Connection, State, Value};
use std::collections::HashMap;
use sqlite::{ State, Value, Connection };
use bitcoin::{ consensus, Transaction, Network };
use bitcoin::{Network, Transaction, consensus};
use hex_conservative::FromHex;
use regex::Regex;
use serde::{ Serialize, Deserialize};
use log::{ info, error, trace, debug};
use serde_json;
use chrono::Utc;
use hex_conservative::FromHex;
use log::{debug, error, info, trace};
use regex::Regex;
use serde::{Deserialize, Serialize};
use serde_json;
use bal_server::db::{ create_database, get_next_address_index, insert_xpub, save_new_address, get_last_used_address_by_ip, execute_insert };
use bal_server::db::{
create_database, execute_insert, get_last_used_address_by_ip, get_next_address_index,
insert_xpub, save_new_address,
};
use bal_server::xpub::new_address_from_xpub;
const VERSION:&str=env!("CARGO_PKG_VERSION");
const NETWORKS : [&str; 4]= ["bitcoin","testnet","signet","regtest"];
#[derive(Debug, Clone,Serialize, Deserialize)]
const VERSION: &str = env!("CARGO_PKG_VERSION");
const NETWORKS: [&str; 4] = ["bitcoin", "testnet", "signet", "regtest"];
#[derive(Debug, Clone, Serialize, Deserialize)]
struct NetConfig {
address: String,
fixed_fee: u64,
@@ -42,146 +44,220 @@ struct NetConfig {
}
impl NetConfig {
fn default_network(name:String, network: Network) -> Self {
fn default_network(name: String, network: Network) -> Self {
NetConfig {
address: "".to_string(),
fixed_fee: 50000,
xpub: false,
address: "".to_string(),
fixed_fee: 50000,
xpub: false,
name,
network,
enabled: false,
enabled: false,
}
}
}
#[derive(Debug, Serialize, Deserialize,Clone)]
#[derive(Debug, Serialize, Deserialize, Clone)]
struct MyConfig {
regtest: NetConfig,
signet: NetConfig,
testnet: NetConfig,
mainnet: NetConfig,
info: String,
bind_address: String,
bind_port: u16, // Changed to u16 for port numbers
db_file: String,
pub_key_path: String,
regtest: NetConfig,
signet: NetConfig,
testnet: NetConfig,
mainnet: NetConfig,
info: String,
bind_address: String,
bind_port: u16, // Changed to u16 for port numbers
db_file: String,
pub_key_path: String,
expose_stats: bool,
}
#[derive(Debug,Serialize, Deserialize)]
#[derive(Debug, Serialize, Deserialize)]
pub struct Info {
pub address: String,
pub base_fee: u64,
pub chain: String,
pub info: String,
pub version: String
pub address: String,
pub base_fee: u64,
pub chain: String,
pub info: String,
pub version: String,
}
#[derive(Debug, Serialize, Deserialize)]
pub struct Stats {
pub report_date: String,
pub chain: String,
pub totals:i64,
pub waiting:i64,
pub sent:i64,
pub failed:i64,
pub waiting_profit:i64,
pub sent_profit:i64,
pub missed_profit:i64,
pub unique_inputs:i64,
}
impl Default for MyConfig {
fn default() -> Self {
MyConfig {
regtest: NetConfig::default_network("regtest".to_string(), Network::Regtest),
signet: NetConfig::default_network("signet".to_string(), Network::Signet),
testnet: NetConfig::default_network("testnet".to_string(), Network::Testnet),
mainnet: NetConfig::default_network("bitcoin".to_string(), Network::Bitcoin),
bind_address: "127.0.0.1".to_string(),
bind_port: 9137,
db_file: "bal.db".to_string(),
info: "Will Executor Server".to_string(),
pub_key_path: "public_key.pem".to_string(),
regtest: NetConfig::default_network("regtest".to_string(), Network::Regtest),
signet: NetConfig::default_network("signet".to_string(), Network::Signet),
testnet: NetConfig::default_network("testnet".to_string(), Network::Testnet),
mainnet: NetConfig::default_network("bitcoin".to_string(), Network::Bitcoin),
bind_address: "127.0.0.1".to_string(),
bind_port: 9137,
db_file: "bal.db".to_string(),
info: "Will Executor Server".to_string(),
pub_key_path: "public_key.pem".to_string(),
expose_stats:env::var("BAL_SERVER_EXPOSE_STATS").unwrap_or("false".to_string()).parse::<bool>().unwrap(),
}
}
}
impl MyConfig {
fn get_net_config(&self, param: &str) -> &NetConfig{
fn get_net_config(&self, param: &str) -> &NetConfig {
match param {
"regtest" => &self.regtest,
"testnet" => &self.testnet,
"signet" => &self.signet,
_ => &self.mainnet,
_ => &self.mainnet,
}
}
}
async fn echo_version(
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
async fn echo_version() -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
Ok(Response::new(full(VERSION)))
}
async fn echo_home(cfg: &MyConfig
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
debug!("echo_home: {}", cfg.info );
async fn echo_home(cfg: &MyConfig) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
debug!("echo_home: {}", cfg.info);
Ok(Response::new(full(cfg.info.clone())))
}
async fn echo_pub_key(
cfg: &MyConfig,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
let pub_key = fs::read_to_string(&cfg.pub_key_path)
.expect(format!("Failed to read public key file {}",cfg.pub_key_path).as_str());
.expect(format!("Failed to read public key file {}", cfg.pub_key_path).as_str());
Ok(Response::new(full(pub_key)))
}
async fn echo_info(
param: &str,
cfg: &MyConfig,
remote_addr: String,
async fn echo_stats(
param: &str,
cfg: &MyConfig,
remote_addr: &String,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
info!("echo info!!!{}",param);
let netconfig=MyConfig::get_net_config(cfg,param);
if !netconfig.enabled {
debug!("network disabled {}",param);
return Ok(Response::new(full("network disabled")));
info!("echo stats!!! {} - {}", param,cfg.expose_stats);
let netconfig = MyConfig::get_net_config(cfg, param);
if !netconfig.enabled {
debug!("network disabled {}", param);
return Ok(Response::new(full("network disabled")));
}
let sql = format!("SELECT
report_date,
chain,
totals,
waiting,
sent,
failed,
waiting_profit,
sent_profit,
missed_profit,
unique_inputs FROM tbl_stats where chain = '{}'
", netconfig.name);
let mut stats:Vec<Stats>=vec![];
let db = sqlite::open(&cfg.db_file).unwrap();
db.iterate(&sql,|pairs|{
let row: HashMap<_, _> = pairs.into_iter().map(|(k,v)| (k.to_string(), v.map(|s| s))).collect();
//let row:HashMap<_,_>= pairs.into_iter().collect();
println!("row report date {}",row["report_date"].clone().unwrap());
dbg!(&row);
stats.push(Stats{
report_date: row["report_date"].clone().unwrap().to_string(),
chain: row["chain"].clone().unwrap().to_string(),
totals: row["totals"].clone().unwrap().parse::<i64>().unwrap(),
waiting: row["waiting"].clone().unwrap().parse::<i64>().unwrap(),
sent: row["sent"].clone().unwrap().parse::<i64>().unwrap(),
failed: row["failed"].clone().unwrap().parse::<i64>().unwrap(),
waiting_profit: row["waiting_profit"].clone().unwrap().parse::<i64>().unwrap(),
sent_profit: row["sent_profit"].clone().unwrap().parse::<i64>().unwrap(),
missed_profit:row["missed_profit"].clone().unwrap().parse::<i64>().unwrap(),
unique_inputs: row["unique_inputs"].clone().unwrap().parse::<i64>().unwrap(),
});
true
});
match serde_json::to_string(&stats) {
Ok(json_data) => {
debug!("echo info reply: {}", json_data);
return Ok(Response::new(full(json_data)));
}
let address = match netconfig.xpub{
false => {
let address = netconfig.address.to_string();
trace!("is address: {}",&address);
address
},
true => {
let db = sqlite::open(&cfg.db_file).unwrap();
match get_last_used_address_by_ip(&db,&netconfig.name,&netconfig.address,&remote_addr){
Some(address)=>address,
None => {
let next = get_next_address_index(&db,&netconfig.name,&netconfig.address);
let address = new_address_from_xpub(&netconfig.address,next.1,netconfig.network).unwrap();
save_new_address(&db,next.0,&address.0,&address.1,&remote_addr);
debug!("save new address {} {}",address.0,address.1);
trace!("next {} {}",next.0,next.1);
address.0
}
Err(err) => Ok(Response::new(full(format!("error:{}", err)))),
}
}
async fn echo_info(
param: &str,
cfg: &MyConfig,
remote_addr: &String,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
info!("echo info!!!{}", param);
let netconfig = MyConfig::get_net_config(cfg, param);
if !netconfig.enabled {
debug!("network disabled {}", param);
return Ok(Response::new(full("network disabled")));
}
let address = match netconfig.xpub {
false => {
let address = netconfig.address.to_string();
trace!("is address: {}", &address);
address
}
true => {
let db = sqlite::open(&cfg.db_file).unwrap();
match get_last_used_address_by_ip(
&db,
&netconfig.name,
&netconfig.address,
&remote_addr,
) {
Some(address) => address,
None => {
let next = get_next_address_index(&db, &netconfig.name, &netconfig.address);
let address =
new_address_from_xpub(&netconfig.address, next.1, netconfig.network)
.unwrap();
save_new_address(&db, next.0, &address.0, &address.1, &remote_addr);
debug!("save new address {} {}", address.0, address.1);
trace!("next {} {}", next.0, next.1);
address.0
}
}
};
let info = Info{
address,
base_fee: netconfig.fixed_fee,
chain: netconfig.network.to_string(),
info: cfg.info.to_string(),
version: VERSION.to_string()
};
trace!("address: {:#?}",info);
match serde_json::to_string(&info){
Ok(json_data) => {
debug!("echo info reply: {}", json_data);
return Ok(Response::new(full(json_data)));
},
Err(err) => Ok(Response::new(full(format!("error:{}",err))))
}
};
let info = Info {
address,
base_fee: netconfig.fixed_fee,
chain: netconfig.network.to_string(),
info: cfg.info.to_string(),
version: VERSION.to_string(),
};
trace!("address: {:#?}", info);
match serde_json::to_string(&info) {
Ok(json_data) => {
debug!("echo info reply: {}", json_data);
return Ok(Response::new(full(json_data)));
}
Err(err) => Ok(Response::new(full(format!("error:{}", err)))),
}
}
async fn echo_search(whole_body: &Bytes,
cfg: &MyConfig,
async fn echo_search(
whole_body: &Bytes,
cfg: &MyConfig,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
info!("echo search!!!");
let strbody = std::str::from_utf8(whole_body).unwrap();
info!("{}",strbody);
info!("{}", strbody);
let mut response = Response::new(full("Bad data received".to_owned()));
*response.status_mut() = StatusCode::BAD_REQUEST;
if !strbody.is_empty() && strbody.len()<=70 {
*response.status_mut() = StatusCode::BAD_REQUEST;
if !strbody.is_empty() && strbody.len() <= 70 {
let db = sqlite::open(&cfg.db_file).unwrap();
let mut statement = db.prepare("SELECT * FROM tbl_tx WHERE txid = ? LIMIT 1").unwrap();
let mut statement = db
.prepare("SELECT * FROM tbl_tx WHERE txid = ? LIMIT 1")
.unwrap();
statement.bind((1, strbody)).unwrap();
if let Ok(State::Row) = statement.next() {
@@ -232,36 +308,35 @@ async fn echo_search(whole_body: &Bytes,
None
}
};
response = match serde_json::to_string(&response_data){
response = match serde_json::to_string(&response_data) {
Ok(json_data) => Response::new(full(json_data)),
Err(_) => { response }
Err(_) => response,
};
return Ok(response);
}
}
Ok(response)
}
async fn echo_push(whole_body: &Bytes,
cfg: &MyConfig,
param: &str,
async fn echo_push(
whole_body: &Bytes,
cfg: &MyConfig,
param: &str,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
//let whole_body = req.collect().await?.to_bytes();
let strbody = std::str::from_utf8(whole_body).unwrap();
let mut response = Response::new(full("Bad data received".to_owned()));
let mut response_not_enable = Response::new(full("Network not enabled".to_owned()));
*response.status_mut() = StatusCode::BAD_REQUEST;
*response_not_enable.status_mut()=StatusCode::BAD_REQUEST;
let netconfig = MyConfig::get_net_config(cfg,param);
if !netconfig.enabled{
return Ok(response_not_enable);
*response.status_mut() = StatusCode::BAD_REQUEST;
*response_not_enable.status_mut() = StatusCode::BAD_REQUEST;
let netconfig = MyConfig::get_net_config(cfg, param);
if !netconfig.enabled {
return Ok(response_not_enable);
}
let req_time = Utc::now().timestamp_nanos_opt().unwrap(); // Returns i64
let db = sqlite::open(&cfg.db_file).unwrap();
let lines = strbody.split("\n");
let sqltxshead = "INSERT INTO tbl_tx (txid, wtxid, ntxid, tx, locktime, reqid, network, our_address, our_fees)".to_string();
let mut sqltxs = "".to_string();
@@ -273,75 +348,86 @@ async fn echo_push(whole_body: &Bytes,
let mut union_inps = true;
let mut union_outs = true;
let mut already_present = false;
let mut ptx:Vec<(usize, Value)> = vec![];
let mut pinps:Vec<(usize, Value)> = vec![];
let mut pouts:Vec<(usize, Value)> = vec![];
let mut ptx: Vec<(usize, Value)> = vec![];
let mut pinps: Vec<(usize, Value)> = vec![];
let mut pouts: Vec<(usize, Value)> = vec![];
let mut linenum = 1;
let mut lineinp = 1;
let mut lineout = 1;
for line in lines {
if line.is_empty(){
trace!("line len is: {}",line.len());
continue
if line.is_empty() {
trace!("line len is: {}", line.len());
continue;
}
let linea = format!("{req_time}:{line}");
info!("New Tx: {}", linea);
let raw_tx = match Vec::<u8>::from_hex(line) {
let raw_tx = match Vec::<u8>::from_hex(line) {
Ok(raw_tx) => raw_tx,
Err(err) => {
error!("rawtx error: {}",err);
continue
error!("rawtx error: {}", err);
continue;
}
};
if !raw_tx.is_empty(){
trace!("len: {}",raw_tx.len());
let tx: Transaction = match consensus::deserialize(&raw_tx){
if !raw_tx.is_empty() {
trace!("len: {}", raw_tx.len());
let tx: Transaction = match consensus::deserialize(&raw_tx) {
Ok(tx) => tx,
Err(err) => {error!("error: unable to parse tx: {}\n{}",line,err);continue}
Err(err) => {
error!("error: unable to parse tx: {}\n{}", line, err);
continue;
}
};
let txid = tx.compute_txid().to_string();
trace!("txid: {}",txid);
trace!("txid: {}", txid);
let mut statement = db.prepare("SELECT * FROM tbl_tx WHERE txid = ?").unwrap();
statement.bind((1,&txid[..])).unwrap();
statement.bind((1, &txid[..])).unwrap();
if let Ok(State::Row) = statement.next() {
trace!("already present");
already_present=true;
already_present = true;
continue;
}
let ntxid = tx.compute_ntxid();
let wtxid = tx.compute_wtxid();
let mut found = false;
let locktime = tx.lock_time;
let mut our_address:String = "".to_string();
let mut our_fees:u64 = 0;
for input in tx.input{
let mut our_address: String = "".to_string();
let mut our_fees: u64 = 0;
for input in tx.input {
if !union_inps {
sqlinps = format!("{sqlinps} UNION ALL");
}else{
} else {
union_inps = false;
}
sqlinps = format!("{sqlinps} SELECT ?, ?, ?");
pinps.push((lineinp,Value::String(txid.to_string())));
pinps.push((lineinp+1,Value::String(input.previous_output.txid.to_string())));
pinps.push((lineinp+2,Value::String(input.previous_output.vout.to_string())));
pinps.push((lineinp, Value::String(txid.to_string())));
pinps.push((
lineinp + 1,
Value::String(input.previous_output.txid.to_string()),
));
pinps.push((
lineinp + 2,
Value::String(input.previous_output.vout.to_string()),
));
lineinp += 3;
}
if netconfig.fixed_fee ==0 {
if netconfig.fixed_fee == 0 {
found = true;
}
for (idx,output) in tx.output.into_iter().enumerate(){
for (idx, output) in tx.output.into_iter().enumerate() {
let script_pubkey = output.script_pubkey;
let address = match bitcoin::Address::from_script(script_pubkey.as_script(), netconfig.network){
let address = match bitcoin::Address::from_script(
script_pubkey.as_script(),
netconfig.network,
) {
Ok(address) => address.to_string(),
Err(_) => String::new(),
};
let amount = output.value;
our_fees = netconfig.fixed_fee;//search wllexecutor output
if netconfig.xpub{
let sql="select * from tbl_address where address=?";
our_fees = netconfig.fixed_fee; //search wllexecutor output
if netconfig.xpub {
let sql = "select * from tbl_address where address=?";
let mut stmt = db.prepare(sql).expect("failed to fetch addresses");
stmt.bind((1,Value::String(address.to_string()))).unwrap();
stmt.bind((1, Value::String(address.to_string()))).unwrap();
if let Ok(State::Row) = stmt.next() {
our_address = address.to_string();
}
@@ -352,58 +438,61 @@ async fn echo_push(whole_body: &Bytes,
our_fees = amount.to_sat();
our_address = netconfig.address.to_string();
found = true;
trace!("address and fees are correct {}: {}",our_address,our_fees);
trace!("address and fees are correct {}: {}", our_address, our_fees);
}
if !union_outs {
sqlouts = format!("{sqlouts} UNION ALL");
}else{
} else {
union_outs = false;
}
sqlouts = format!("{sqlouts} SELECT ?, ?, ?, ?");
pouts.push((lineout,Value::String(txid.to_string())));
pouts.push((lineout+1,Value::Integer(idx.try_into().unwrap())));
pouts.push((lineout+2,Value::String(script_pubkey.to_string())));
pouts.push((lineout+3,Value::Integer(amount.to_sat().try_into().unwrap())));
pouts.push((lineout, Value::String(txid.to_string())));
pouts.push((lineout + 1, Value::Integer(idx.try_into().unwrap())));
pouts.push((lineout + 2, Value::String(script_pubkey.to_string())));
pouts.push((
lineout + 3,
Value::Integer(amount.to_sat().try_into().unwrap()),
));
lineout += 4;
}
if !found {
error!("willexecutor output not found ");
return Ok(response)
return Ok(response);
} else {
if !union_tx {
sqltxs = format!("{sqltxs} UNION ALL");
}else{
} else {
union_tx = false;
}
sqltxs = format!("{sqltxs} SELECT ?, ?, ?, ?, ?, ?, ?, ?, ?");
ptx.push((linenum,Value::String(txid)));
ptx.push((linenum+1,Value::String(wtxid.to_string())));
ptx.push((linenum+2,Value::String(ntxid.to_string())));
ptx.push((linenum+3,Value::String(line.to_string())));
ptx.push((linenum+4,Value::String(locktime.to_string())));
ptx.push((linenum+5,Value::String(req_time.to_string())));
ptx.push((linenum+6,Value::String(netconfig.name.to_string())));
ptx.push((linenum+7,Value::String(our_address.to_string())));
ptx.push((linenum+8,Value::String(our_fees.to_string())));
ptx.push((linenum, Value::String(txid)));
ptx.push((linenum + 1, Value::String(wtxid.to_string())));
ptx.push((linenum + 2, Value::String(ntxid.to_string())));
ptx.push((linenum + 3, Value::String(line.to_string())));
ptx.push((linenum + 4, Value::String(locktime.to_string())));
ptx.push((linenum + 5, Value::String(req_time.to_string())));
ptx.push((linenum + 6, Value::String(netconfig.name.to_string())));
ptx.push((linenum + 7, Value::String(our_address.to_string())));
ptx.push((linenum + 8, Value::String(our_fees.to_string())));
linenum += 9;
}
}else{
trace!("rawTx len is: {}",raw_tx.len());
debug!("{}",&sqltxs);
} else {
trace!("rawTx len is: {}", raw_tx.len());
debug!("{}", &sqltxs);
}
}
}
if sqltxs.is_empty() && already_present {
return Ok(Response::new(full("already present")))
return Ok(Response::new(full("already present")));
}
let sqltxs = format!("{}{};", sqltxshead, sqltxs);
let sqlinps = format!("{}{};", sqlinpshead, sqlinps);
let sqlouts = format!("{}{};", sqloutshead, sqlouts);
if let Err(err) = execute_insert(&db, sqltxs, ptx, sqlinps, pinps, sqlouts, pouts){
debug!("{}",err);
if let Err(err) = execute_insert(&db, sqltxs, ptx, sqlinps, pinps, sqlouts, pouts) {
debug!("{}", err);
return Ok(response);
}
}
Ok(Response::new(full("thx")))
}
}
fn match_uri<'a>(path: &str, uri: &'a str) -> Option<&'a str> {
let re = Regex::new(path).unwrap();
@@ -415,53 +504,60 @@ fn match_uri<'a>(path: &str, uri: &'a str) -> Option<&'a str> {
None
}
async fn echo(
req: Request<hyper::body::Incoming>,
cfg: &MyConfig,
ip: &String
ip: &String,
) -> Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> {
let mut not_found = Response::new(empty());
*not_found.status_mut() = StatusCode::NOT_FOUND;
let mut ret: Result<Response<BoxBody<Bytes, hyper::Error>>, hyper::Error> = Ok(not_found);
let uri = req.uri().path().to_string();
let remote_addr = req.headers().get("X-Real-IP").and_then(|value| value.to_str().ok()).and_then(|xff| xff.split(',').next()).map(|ip| ip.trim().to_string()).unwrap_or_else(|| ip.to_string());
trace!("{}: {}",remote_addr,uri);
let remote_addr = req
.headers()
.get("X-Real-IP")
.and_then(|value| value.to_str().ok())
.and_then(|xff| xff.split(',').next())
.map(|ip| ip.trim().to_string())
.unwrap_or_else(|| ip.to_string());
trace!("{}: {}", remote_addr, uri);
match *req.method() {
// Serve some instructions at /
Method::POST => {
let whole_body = req.collect().await?.to_bytes();
if let Some(param) = match_uri(r"^?/?(?P<param>[^/]?+)?/pushtxs$",uri.as_str()) {
if let Some(param) = match_uri(r"^?/?(?P<param>[^/]?+)?/pushtxs$", uri.as_str()) {
//let whole_body = collect_body(req,512_000).await?;
ret = echo_push(&whole_body,cfg,param).await;
ret = echo_push(&whole_body, cfg, param).await;
}
if uri=="/searchtx"{
if uri == "/searchtx" {
//let whole_body = collect_body(req,64).await?;
ret = echo_search(&whole_body,cfg).await;
ret = echo_search(&whole_body, cfg).await;
}
ret
}
Method::GET => {
if let Some(param) = match_uri(r"^?/?(?P<param>[^/]?+)?/info$",uri.as_str()) {
ret = echo_info(param,cfg,remote_addr).await;
if let Some(param) = match_uri(r"^?/?(?P<param>[^/]?+)?/stats$", uri.as_str()) {
ret = echo_stats(param, cfg, &remote_addr).await;
}
if uri=="/version"{
ret= echo_version().await;
if let Some(param) = match_uri(r"^?/?(?P<param>[^/]?+)?/info$", uri.as_str()) {
ret = echo_info(param, cfg, &remote_addr).await;
}
if uri=="/.pub_key.pem" {
if uri == "/version" {
ret = echo_version().await;
}
if uri == "/.pub_key.pem" {
ret = echo_pub_key(cfg).await;
}
if uri=="/"{
if uri == "/" {
ret = echo_home(cfg).await;
}
ret
}
// Return the 404 Not Found for other routes.
_ => ret
_ => ret,
}
}
@@ -476,113 +572,120 @@ fn full<T: Into<Bytes>>(chunk: T) -> BoxBody<Bytes, hyper::Error> {
.map_err(|never| match never {})
.boxed()
}
fn parse_env(cfg: &Arc<Mutex<MyConfig>>){
fn parse_env(cfg: &Arc<Mutex<MyConfig>>) {
for (key, value) in std::env::vars() {
debug!("ENVIRONMENT {key}: {value}");
}
let mut cfg_lock = cfg.lock().unwrap();
if let Ok(value) = env::var("BAL_SERVER_DB_FILE") {
debug!("BAL_SERVER_DB_FILE: {}",value);
cfg_lock.db_file = value;
debug!("BAL_SERVER_DB_FILE: {}", value);
cfg_lock.db_file = value;
}
if let Ok(value) = env::var("BAL_SERVER_BIND_ADDRESS") {
debug!("BAL_SERVER_BIND_ADDRESS: {}",value);
cfg_lock.bind_address= value;
debug!("BAL_SERVER_BIND_ADDRESS: {}", value);
cfg_lock.bind_address = value;
}
if let Ok(value) = env::var("BAL_SERVER_BIND_PORT") {
debug!("BAL_SERVER_BIND_PORT: {}",value);
if let Ok(v) = value.parse::<u16>(){
debug!("BAL_SERVER_BIND_PORT: {}", value);
if let Ok(v) = value.parse::<u16>() {
cfg_lock.bind_port = v;
}
}
if let Ok(value) = env::var("BAL_SERVER_PUB_KEY_PATH") {
debug!("BAL_SERVER_PUB_KEY_PATH: {}",value);
debug!("BAL_SERVER_PUB_KEY_PATH: {}", value);
cfg_lock.pub_key_path = value;
}
if let Ok(value) = env::var("BAL_SERVER_INFO"){
debug!("BAL_SERVER_INFO: {}",value);
cfg_lock.info = value;
if let Ok(value) = env::var("BAL_SERVER_INFO") {
debug!("BAL_SERVER_INFO: {}", value);
cfg_lock.info = value;
}
cfg_lock = parse_env_netconfig(cfg_lock,"regtest");
cfg_lock = parse_env_netconfig(cfg_lock,"signet");
cfg_lock = parse_env_netconfig(cfg_lock,"testnet");
drop(parse_env_netconfig(cfg_lock,"bitcoin"));
cfg_lock = parse_env_netconfig(cfg_lock, "regtest");
cfg_lock = parse_env_netconfig(cfg_lock, "signet");
cfg_lock = parse_env_netconfig(cfg_lock, "testnet");
drop(parse_env_netconfig(cfg_lock, "bitcoin"));
}
fn parse_env_netconfig<'a>(mut cfg_lock: MutexGuard<'a, MyConfig>, chain: &'a str) -> MutexGuard<'a, MyConfig>{
let cfg = match chain{
fn parse_env_netconfig<'a>(
mut cfg_lock: MutexGuard<'a, MyConfig>,
chain: &'a str,
) -> MutexGuard<'a, MyConfig> {
let cfg = match chain {
"regtest" => &mut cfg_lock.regtest,
"signet" => &mut cfg_lock.signet,
"testnet" => &mut cfg_lock.testnet,
&_ => &mut cfg_lock.mainnet,
};
if let Ok(value) = env::var(format!("BAL_SERVER_{}_ADDRESS",chain.to_uppercase())) {
debug!("BAL_SERVER_{}_ADDRESS: {}",chain.to_uppercase(),value);
cfg.address = value;
if let Ok(value) = env::var(format!("BAL_SERVER_{}_ADDRESS", chain.to_uppercase())) {
debug!("BAL_SERVER_{}_ADDRESS: {}", chain.to_uppercase(), value);
cfg.address = value;
if cfg.address.len() > 5 {
if cfg.address[1..4] == *"pub" {
cfg.xpub=true;
cfg.xpub = true;
trace!("is_xpub");
}
cfg.enabled=true;
cfg.enabled = true;
}
}
if let Ok(value) = env::var(format!("BAL_SERVER_{}_FIXED_FEE",chain.to_uppercase())) {
debug!("BAL_SERVER_{}_FIXED_FEE: {}",chain.to_uppercase(),value);
if let Ok(v) = value.parse::<u64>(){
if let Ok(value) = env::var(format!("BAL_SERVER_{}_FIXED_FEE", chain.to_uppercase())) {
debug!("BAL_SERVER_{}_FIXED_FEE: {}", chain.to_uppercase(), value);
if let Ok(v) = value.parse::<u64>() {
cfg.fixed_fee = v;
}
}
cfg_lock
}
fn init_network(db: &Connection, cfg: &MyConfig){
for network in NETWORKS{
let netconfig = MyConfig::get_net_config(cfg,network);
insert_xpub(db,&netconfig.name,&netconfig.address);
fn init_network(db: &Connection, cfg: &MyConfig) {
for network in NETWORKS {
let netconfig = MyConfig::get_net_config(cfg, network);
insert_xpub(db, &netconfig.name, &netconfig.address);
}
}
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error + Send + Sync>> {
env_logger::init();
let cfg: Arc<Mutex<MyConfig>> =Arc::<Mutex<MyConfig>>::default();
let cfg: Arc<Mutex<MyConfig>> = Arc::<Mutex<MyConfig>>::default();
parse_env(&cfg);
let cfg_lock = cfg.lock().unwrap();
let db = sqlite::open(&cfg_lock.db_file).unwrap();
create_database(&db);
init_network(&db,&cfg_lock);
init_network(&db, &cfg_lock);
let addr = cfg_lock.bind_address.to_string();
let addr: IpAddr = addr.parse()?;
let listener = TcpListener::bind((addr,cfg_lock.bind_port)).await?;
info!("Listening on http://{}:{}", addr,cfg_lock.bind_port);
let listener = TcpListener::bind((addr, cfg_lock.bind_port)).await?;
info!("Listening on http://{}:{}", addr, cfg_lock.bind_port);
loop {
let (stream, _) = listener.accept().await?;
let ip = stream.peer_addr()?.to_string().split(":").next().unwrap().to_string();
let ip = stream
.peer_addr()?
.to_string()
.split(":")
.next()
.unwrap()
.to_string();
let io = TokioIo::new(stream);
tokio::task::spawn({
let cfg = cfg_lock.clone();
async move {
if let Err(err) = http1::Builder::new()
.serve_connection(io, service_fn(|req: Request<hyper::body::Incoming>| async {
echo(req,&cfg,&ip).await
}))
.serve_connection(
io,
service_fn(|req: Request<hyper::body::Incoming>| async {
echo(req, &cfg, &ip).await
}),
)
.await
{
error!("Error serving connection: {:?}", err);
}
}
});
}

160
src/db.rs
View File

@@ -1,7 +1,7 @@
use sqlite::{ Connection, Value, State, Error };
use log::{info, trace, error};
use log::{error, info, trace};
use sqlite::{Connection, Error, State, Value};
pub fn create_database(db: &Connection){
pub fn create_database(db: &Connection) {
info!("database sanity check");
let _ = db.execute("CREATE TABLE IF NOT EXISTS tbl_tx (txid PRIMARY KEY, date_creation TIMESTAMP DEFAULT CURRENT_TIMESTAMP, date_update TIMESTAMP DEFAULT CURRENT_TIMESTAMP, wtxid, ntxid, tx, locktime integer, network, network_fees, reqid, our_fees, our_address, status integer DEFAULT 0);");
let _ = db.execute("ALTER TABLE tbl_tx ADD COLUMN push_err TEXT");
@@ -9,17 +9,15 @@ pub fn create_database(db: &Connection){
let _ = db.execute("CREATE TABLE IF NOT EXISTS tbl_inp(id, txid, in_txid, in_vout);");
let _ = db.execute("CREATE UNIQUE INDEX ON tbl_inp(txid,in_txid,in_vout);");
let _ = db.execute("CREATE TABLE IF NOT EXISTS tbl_out(id, txid, script_pubkey, amount, vout);");
let _ =
db.execute("CREATE TABLE IF NOT EXISTS tbl_out(id, txid, script_pubkey, amount, vout);");
let _ = db.execute("CREATE UNIQUE INDEX ON tbl_out(txid, script_pubkey, amount, vout);");
let _ = db.execute("CREATE TABLE IF NOT EXISTS tbl_xpub (id INTEGER PRIMARY KEY , network TEXT, xpub TEXT, date_create TIMESTAMP DEFAULT CURRENT_TIMESTAMP,path_idx INTEGER DEFAULT -1);");
let _ = db.execute("CREATE UNIQUE INDEX idx_xpub ON tbl_xpub (network, xpub)");
let _ = db.execute("CREATE TABLE IF NOT EXISTS tbl_address (address TEXT PRIMARY_KEY, path TEXT NOT NULL, date_create TIMESTAMP DEFAULT CURRENT_TIMESTAMP, xpub INTEGER,remote_address TEXT);");
let _ = db.execute("UPDATE tbl_tx set network='bitcoin' where network='mainnet');");
let _ = db.execute("CREATE TABLE IF NOT EXISTS tbl_address (address TEXT PRIMARY_KEY, path TEXT NOT NULL, date_create TIMESTAMP DEFAULT CURRENT_TIMESTAMP, xpub INTEGER,remote_address TEXT);");
let _ = db.execute("UPDATE tbl_tx set network='bitcoin' where network='mainnet');");
}
/*
pub fn get_xpub_id(db: &Connection, network: &String, xpub: &String) -> Option<i64>{
@@ -33,76 +31,98 @@ pub fn create_database(db: &Connection){
}
}
*/
pub fn insert_xpub(db: &Connection, network: &String, xpub: &String){
pub fn insert_xpub(db: &Connection, network: &String, xpub: &String) {
if xpub != "" {
trace!("going to insert: {} xpub:{}", network, xpub);
let mut stmt = db.prepare ("INSERT INTO tbl_xpub(network,xpub) VALUES(?, ?);").unwrap();
let _ = stmt.bind((1,Value::String(network.to_string()))).unwrap();
let _ = stmt.bind((2,Value::String(xpub.to_string()))).unwrap();
let _ = stmt.next();
let mut stmt = db
.prepare("INSERT INTO tbl_xpub(network,xpub) VALUES(?, ?);")
.unwrap();
let _ = stmt.bind((1, Value::String(network.to_string()))).unwrap();
let _ = stmt.bind((2, Value::String(xpub.to_string()))).unwrap();
let _ = stmt.next();
}
}
pub fn get_last_used_address_by_ip(db: &Connection, network: &String, xpub: &String, address: &String) -> Option<String>{
pub fn get_last_used_address_by_ip(
db: &Connection,
network: &String,
xpub: &String,
address: &String,
) -> Option<String> {
let mut stmt = db.prepare("SELECT tbl_address.address FROM tbl_xpub join tbl_address on(tbl_xpub.id = tbl_address.xpub) where tbl_xpub.network = ? and tbl_address.remote_address = ? and tbl_xpub.xpub = ? ORDER BY tbl_address.date_create DESC LIMIT 1;").unwrap();
let _ = stmt.bind((1,Value::String(network.to_string())));
let _ = stmt.bind((2,Value::String(address.to_string())));
let _ = stmt.bind((3,Value::String(xpub.to_string())));
if let Ok(State::Row) = stmt.next(){
let address = stmt.read::<String,_>("address").unwrap();
let _ = stmt.bind((1, Value::String(network.to_string())));
let _ = stmt.bind((2, Value::String(address.to_string())));
let _ = stmt.bind((3, Value::String(xpub.to_string())));
if let Ok(State::Row) = stmt.next() {
let address = stmt.read::<String, _>("address").unwrap();
return Some(address);
}else{
} else {
return None;
}
}
pub fn get_next_address_index(db: &Connection, network: &String, xpub: &String) -> (i64,i64){
pub fn get_next_address_index(db: &Connection, network: &String, xpub: &String) -> (i64, i64) {
let mut stmt = db.prepare("UPDATE tbl_xpub SET path_idx = path_idx + 1 WHERE network = ? and xpub= ? RETURNING path_idx,id;").unwrap();
stmt.bind((1,Value::String(network.to_string()))).unwrap();
stmt.bind((2,Value::String(xpub.to_string()))).unwrap();
match stmt.next(){
Ok(State::Row) =>{
let next = stmt.read::<i64,_>("path_idx").unwrap();
let id = stmt.read::<i64,_>("id").unwrap();
return (id,next);
},Err(_)=> {
return (0,0);
},Ok(State::Done) =>{
return (0,0);
stmt.bind((1, Value::String(network.to_string()))).unwrap();
stmt.bind((2, Value::String(xpub.to_string()))).unwrap();
match stmt.next() {
Ok(State::Row) => {
let next = stmt.read::<i64, _>("path_idx").unwrap();
let id = stmt.read::<i64, _>("id").unwrap();
return (id, next);
}
Err(_) => {
return (0, 0);
}
Ok(State::Done) => {
return (0, 0);
}
};
}
pub fn save_new_address(db: &Connection,xpub: i64,address: &String, path: &String,remote_addr: &String){
let mut stmt = db.prepare("INSERT INTO tbl_address(address,path,xpub,remote_address) VALUES(?,?,?,?);").unwrap();
pub fn save_new_address(
db: &Connection,
xpub: i64,
address: &String,
path: &String,
remote_addr: &String,
) {
let mut stmt = db
.prepare("INSERT INTO tbl_address(address,path,xpub,remote_address) VALUES(?,?,?,?);")
.unwrap();
stmt.bind((1,Value::String(address.to_string()))).unwrap();
stmt.bind((2,Value::String(path.to_string()))).unwrap();
stmt.bind((3,Value::Integer(xpub))).unwrap();
stmt.bind((4,Value::String(remote_addr.to_string()))).unwrap();
stmt.bind((1, Value::String(address.to_string()))).unwrap();
stmt.bind((2, Value::String(path.to_string()))).unwrap();
stmt.bind((3, Value::Integer(xpub))).unwrap();
stmt.bind((4, Value::String(remote_addr.to_string())))
.unwrap();
let _ = stmt.next();
}
pub fn execute_insert(db: &Connection,
sqltxs: String,
ptx: Vec<(usize, Value)>,
sqlinp: String,
pinp: Vec<(usize, Value)>,
sqlout: String,
pout: Vec<(usize, Value)>) -> Result<(),Error>{
pub fn execute_insert(
db: &Connection,
sqltxs: String,
ptx: Vec<(usize, Value)>,
sqlinp: String,
pinp: Vec<(usize, Value)>,
sqlout: String,
pout: Vec<(usize, Value)>,
) -> Result<(), Error> {
let _ = db.execute("BEGIN TRANSACTION");
let mut stmt = db.prepare(sqltxs.as_str()).expect("failed to prepare sqltxs");
if let Err(err) = stmt.bind::<&[(_,Value)]>(&ptx[..]) {
let mut stmt = db
.prepare(sqltxs.as_str())
.expect("failed to prepare sqltxs");
if let Err(err) = stmt.bind::<&[(_, Value)]>(&ptx[..]) {
error!("error binding transaction parameters: {}", err);
let _ = db.execute("ROLLBACK");
return Err(err);
}
if let Err(err) = stmt.next() {
error!("error inserting transactions {}",err);
let _ = db.execute("ROLLBACK");
}else{
let mut stmt = db.prepare(sqlinp.as_str()).expect("failed to prepare sqlinp");
if let Err(err) = stmt.bind::<&[(_,Value)]>(&pinp[..]) {
error!("error inserting transactions {}", err);
let _ = db.execute("ROLLBACK");
} else {
let mut stmt = db
.prepare(sqlinp.as_str())
.expect("failed to prepare sqlinp");
if let Err(err) = stmt.bind::<&[(_, Value)]>(&pinp[..]) {
error!("error binding inputs parameters {}", err);
let _ = db.execute("ROLLBACK");
return Err(err);
@@ -111,10 +131,11 @@ pub fn execute_insert(db: &Connection,
error!("error inserting inputs {}", err);
let _ = db.execute("ROLLBACK");
return Err(err);
}else{
let mut stmt = db.prepare(sqlout.as_str()).expect("failed to prepare sqlout");
if let Err(err) = stmt.bind::<&[(_,Value)]>(&pout[..]) {
} else {
let mut stmt = db
.prepare(sqlout.as_str())
.expect("failed to prepare sqlout");
if let Err(err) = stmt.bind::<&[(_, Value)]>(&pout[..]) {
error!("error binding outs parameters {}", err);
let _ = db.execute("ROLLBACK");
return Err(err);
@@ -123,25 +144,20 @@ pub fn execute_insert(db: &Connection,
error!("error inserting outs {}", err);
let _ = db.execute("ROLLBACK");
return Err(err);
}
}
}
let _ = db.execute("COMMIT");
Ok(())
}
pub fn get_total_transaction_number(db: Connection, network: &String) -> Result<i64,Error> {
let mut stmt = db.prepare("SELECT COUNT(*) as total_number FROM tbl_tx where network = ?;").unwrap();
stmt.bind((1,Value::String(network.to_string()))).unwrap();
match stmt.next(){
Ok(State::Row)=>{
Ok(stmt.read::<i64,_>("total_number").unwrap())
},
pub fn get_total_transaction_number(db: Connection, network: &String) -> Result<i64, Error> {
let mut stmt = db
.prepare("SELECT COUNT(*) as total_number FROM tbl_tx where network = ?;")
.unwrap();
stmt.bind((1, Value::String(network.to_string()))).unwrap();
match stmt.next() {
Ok(State::Row) => Ok(stmt.read::<i64, _>("total_number").unwrap()),
Ok(sqlite::State::Done) => todo!(),
Err(err)=>Err(err)
Err(err) => Err(err),
}
}

56
src/xpub.rs
View File

@@ -1,17 +1,16 @@
use sha2::{Digest, Sha256};
use bitcoin::bip32::Xpub;
use std::str::FromStr;
use bitcoin::bip32::DerivationPath;
use bitcoin::key::Secp256k1;
use bitcoin::Address;
use bitcoin::Network;
use bitcoin::ScriptBuf;
use bitcoin::WPubkeyHash;
use bitcoin::Network;
use bitcoin::bip32::DerivationPath;
use bitcoin::bip32::Xpub;
use bitcoin::hashes::Hash;
use bitcoin::key::Secp256k1;
use sha2::{Digest, Sha256};
use std::str::FromStr;
// Mainnet (BIP44/BIP49/BIP84)
enum BS58Prefix{
enum BS58Prefix {
Xpub,
//Ypub,
//Zpub,
@@ -19,15 +18,13 @@ enum BS58Prefix{
//Vpub,
//Upub
}
const XPUB_PREFIX:[u8; 4] = [0x04, 0x88, 0xB2, 0x1E]; // xpub (Legacy P2PKH)
const XPUB_PREFIX: [u8; 4] = [0x04, 0x88, 0xB2, 0x1E]; // xpub (Legacy P2PKH)
//const YPUB_PREFIX:[u8; 4] = [0x04, 0x9D, 0x7C, 0xB2]; // ypub (Nested SegWit P2SH-P2WPKH)
//const ZPUB_PREFIX:[u8; 4] = [0x04, 0xB2, 0x47, 0x46]; // zpub (Native SegWit P2WPKH)
//const TPUB_PREFIX:[u8; 4] = [0x04, 0x35, 0x87, 0xCF]; // tpub (Testnet Legacy P2PKH)
//const VPUB_PREFIX:[u8; 4] = [0x04, 0x5F, 0x1C, 0xF6]; // vpub (Testnet Nested SegWit)
//const UPUB_PREFIX:[u8; 4] = [0x04, 0x4A, 0x52, 0x62]; // upub (RegTest Nested SegWit)
fn base58check_decode(s: &str) -> Result<Vec<u8>, String> {
let data = bs58::decode(s).into_vec().map_err(|e| e.to_string())?;
if data.len() < 4 {
@@ -47,27 +44,33 @@ fn base58check_encode(data: &[u8]) -> String {
bs58::encode(full).into_string()
}
fn convert_to(zpub: &str,prefix: BS58Prefix) -> Result<String, String> {
fn convert_to(zpub: &str, prefix: BS58Prefix) -> Result<String, String> {
let mut data = base58check_decode(zpub)?;
if data.len() < 4 {
return Err("Non è una zpub valida.".to_string());
}
data.splice(0..4, match prefix {
BS58Prefix::Xpub => XPUB_PREFIX,
//BS58Prefix::Ypub => YPUB_PREFIX,
//BS58Prefix::Zpub => ZPUB_PREFIX,
//BS58Prefix::Vpub => VPUB_PREFIX,
//BS58Prefix::Tpub => TPUB_PREFIX,
//BS58Prefix::Upub => UPUB_PREFIX,
});
data.splice(
0..4,
match prefix {
BS58Prefix::Xpub => XPUB_PREFIX,
//BS58Prefix::Ypub => YPUB_PREFIX,
//BS58Prefix::Zpub => ZPUB_PREFIX,
//BS58Prefix::Vpub => VPUB_PREFIX,
//BS58Prefix::Tpub => TPUB_PREFIX,
//BS58Prefix::Upub => UPUB_PREFIX,
},
);
Ok(base58check_encode(&data))
}
pub fn new_address_from_xpub(zpub: &str, index: i64,network: Network)-> Result<(String,String), Box<dyn std::error::Error>>{
let xpub = Xpub::from_str(&convert_to(zpub,BS58Prefix::Xpub)?)?;
let path = format!("m/0/{}",index);
pub fn new_address_from_xpub(
zpub: &str,
index: i64,
network: Network,
) -> Result<(String, String), Box<dyn std::error::Error>> {
let xpub = Xpub::from_str(&convert_to(zpub, BS58Prefix::Xpub)?)?;
let path = format!("m/0/{}", index);
let derivation_path = DerivationPath::from_str(path.as_str())?;
let secp = Secp256k1::new();
let derived_xpub = xpub.derive_pub(&secp, &derivation_path)?;
@@ -78,8 +81,7 @@ pub fn new_address_from_xpub(zpub: &str, index: i64,network: Network)-> Result<(
//let script_pubkey = ScriptBuf::new_p2sh(&redeem_script.script_hash());
let address = Address::from_script(&redeem_script, network)?;
//let address = Address::from_script(&script_pubkey, network)?;
Ok((address.to_string(),path.to_string()))
Ok((address.to_string(), path.to_string()))
}
/*
fn main() -> Result<(), Box<dyn std::error::Error>>{
@@ -101,7 +103,7 @@ fn main() -> Result<(), Box<dyn std::error::Error>>{
let witness_program = WPubkeyHash::hash(&pubkey_bytes);
let redeem_script = ScriptBuf::new_p2wpkh(&witness_program);
let script_pubkey = ScriptBuf::new_p2sh(&redeem_script.script_hash());
// Generate the Bitcoin SegWit (BIP49) address
let network = Network::Bitcoin;
let address = Address::from_script(&redeem_script, network)?;