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raw_client.rs
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raw_client.rs
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//! Raw client
//!
//! This module contains the definition of the raw client that wraps the transport method
use std::borrow::Borrow;
use std::collections::{BTreeMap, BTreeSet, HashMap, VecDeque};
use std::io::{BufRead, BufReader, Read, Write};
use std::mem::drop;
use std::net::{TcpStream, ToSocketAddrs};
use std::sync::atomic::{AtomicUsize, Ordering};
use std::sync::mpsc::{channel, Receiver, Sender};
use std::sync::{Arc, Mutex, TryLockError};
use std::time::Duration;
#[allow(unused_imports)]
use log::{debug, error, info, trace, warn};
use bitcoin::consensus::encode::deserialize;
use bitcoin::hex::{DisplayHex, FromHex};
use bitcoin::{Script, Txid};
#[cfg(feature = "use-openssl")]
use openssl::ssl::{SslConnector, SslMethod, SslStream, SslVerifyMode};
#[cfg(all(
any(feature = "default", feature = "use-rustls"),
not(feature = "use-openssl")
))]
use rustls::{
pki_types::ServerName,
pki_types::{Der, TrustAnchor},
ClientConfig, ClientConnection, RootCertStore, StreamOwned,
};
#[cfg(any(feature = "default", feature = "proxy"))]
use crate::socks::{Socks5Stream, TargetAddr, ToTargetAddr};
use stream::ClonableStream;
use api::ElectrumApi;
use batch::Batch;
use types::*;
macro_rules! impl_batch_call {
( $self:expr, $data:expr, $call:ident ) => {{
impl_batch_call!($self, $data, $call, )
}};
( $self:expr, $data:expr, $call:ident, apply_deref ) => {{
impl_batch_call!($self, $data, $call, *)
}};
( $self:expr, $data:expr, $call:ident, $($apply_deref:tt)? ) => {{
let mut batch = Batch::default();
for i in $data {
batch.$call($($apply_deref)* i.borrow());
}
let resp = $self.batch_call(&batch)?;
let mut answer = Vec::new();
for x in resp {
answer.push(serde_json::from_value(x)?);
}
Ok(answer)
}};
}
/// A trait for [`ToSocketAddrs`](https://doc.rust-lang.org/std/net/trait.ToSocketAddrs.html) that
/// can also be turned into a domain. Used when an SSL client needs to validate the server's
/// certificate.
pub trait ToSocketAddrsDomain: ToSocketAddrs {
/// Returns the domain, if present
fn domain(&self) -> Option<&str> {
None
}
}
impl ToSocketAddrsDomain for &str {
fn domain(&self) -> Option<&str> {
self.splitn(2, ':').next()
}
}
impl ToSocketAddrsDomain for (&str, u16) {
fn domain(&self) -> Option<&str> {
self.0.domain()
}
}
#[cfg(any(feature = "default", feature = "proxy"))]
impl ToSocketAddrsDomain for TargetAddr {
fn domain(&self) -> Option<&str> {
match self {
TargetAddr::Ip(_) => None,
TargetAddr::Domain(domain, _) => Some(domain.as_str()),
}
}
}
macro_rules! impl_to_socket_addrs_domain {
( $ty:ty ) => {
impl ToSocketAddrsDomain for $ty {}
};
}
impl_to_socket_addrs_domain!(std::net::SocketAddr);
impl_to_socket_addrs_domain!(std::net::SocketAddrV4);
impl_to_socket_addrs_domain!(std::net::SocketAddrV6);
impl_to_socket_addrs_domain!((std::net::IpAddr, u16));
impl_to_socket_addrs_domain!((std::net::Ipv4Addr, u16));
impl_to_socket_addrs_domain!((std::net::Ipv6Addr, u16));
/// Instance of an Electrum client
///
/// A `Client` maintains a constant connection with an Electrum server and exposes methods to
/// interact with it. It can also subscribe and receive notifictations from the server about new
/// blocks or activity on a specific *scriptPubKey*.
///
/// The `Client` is modeled in such a way that allows the external caller to have full control over
/// its functionality: no threads or tasks are spawned internally to monitor the state of the
/// connection.
///
/// More transport methods can be used by manually creating an instance of this struct with an
/// arbitray `S` type.
#[derive(Debug)]
pub struct RawClient<S>
where
S: Read + Write,
{
stream: Mutex<ClonableStream<S>>,
buf_reader: Mutex<BufReader<ClonableStream<S>>>,
last_id: AtomicUsize,
waiting_map: Mutex<HashMap<usize, Sender<ChannelMessage>>>,
headers: Mutex<VecDeque<RawHeaderNotification>>,
script_notifications: Mutex<HashMap<ScriptHash, VecDeque<ScriptStatus>>>,
#[cfg(feature = "debug-calls")]
calls: AtomicUsize,
}
impl<S> From<S> for RawClient<S>
where
S: Read + Write,
{
fn from(stream: S) -> Self {
let stream: ClonableStream<_> = stream.into();
Self {
buf_reader: Mutex::new(BufReader::new(stream.clone())),
stream: Mutex::new(stream),
last_id: AtomicUsize::new(0),
waiting_map: Mutex::new(HashMap::new()),
headers: Mutex::new(VecDeque::new()),
script_notifications: Mutex::new(HashMap::new()),
#[cfg(feature = "debug-calls")]
calls: AtomicUsize::new(0),
}
}
}
/// Transport type used to establish a plaintext TCP connection with the server
pub type ElectrumPlaintextStream = TcpStream;
impl RawClient<ElectrumPlaintextStream> {
/// Creates a new plaintext client and tries to connect to `socket_addr`.
pub fn new<A: ToSocketAddrs>(
socket_addrs: A,
timeout: Option<Duration>,
) -> Result<Self, Error> {
let stream = match timeout {
Some(timeout) => {
let stream = connect_with_total_timeout(socket_addrs, timeout)?;
stream.set_read_timeout(Some(timeout))?;
stream.set_write_timeout(Some(timeout))?;
stream
}
None => TcpStream::connect(socket_addrs)?,
};
Ok(stream.into())
}
}
fn connect_with_total_timeout<A: ToSocketAddrs>(
socket_addrs: A,
mut timeout: Duration,
) -> Result<TcpStream, Error> {
// Use the same algorithm as curl: 1/2 on the first host, 1/4 on the second one, etc.
// https://curl.se/mail/lib-2014-11/0164.html
let mut errors = Vec::new();
let addrs = socket_addrs
.to_socket_addrs()?
.enumerate()
.collect::<Vec<_>>();
for (index, addr) in &addrs {
if *index < addrs.len() - 1 {
timeout = timeout.div_f32(2.0);
}
info!(
"Trying to connect to {} (attempt {}/{}) with timeout {:?}",
addr,
index + 1,
addrs.len(),
timeout
);
match TcpStream::connect_timeout(addr, timeout) {
Ok(socket) => return Ok(socket),
Err(e) => {
warn!("Connection error: {:?}", e);
errors.push(e.into());
}
}
}
Err(Error::AllAttemptsErrored(errors))
}
#[cfg(feature = "use-openssl")]
/// Transport type used to establish an OpenSSL TLS encrypted/authenticated connection with the server
pub type ElectrumSslStream = SslStream<TcpStream>;
#[cfg(feature = "use-openssl")]
impl RawClient<ElectrumSslStream> {
/// Creates a new SSL client and tries to connect to `socket_addr`. Optionally, if
/// `validate_domain` is `true`, validate the server's certificate.
pub fn new_ssl<A: ToSocketAddrsDomain + Clone>(
socket_addrs: A,
validate_domain: bool,
timeout: Option<Duration>,
) -> Result<Self, Error> {
debug!(
"new_ssl socket_addrs.domain():{:?} validate_domain:{} timeout:{:?}",
socket_addrs.domain(),
validate_domain,
timeout
);
if validate_domain {
socket_addrs.domain().ok_or(Error::MissingDomain)?;
}
match timeout {
Some(timeout) => {
let stream = connect_with_total_timeout(socket_addrs.clone(), timeout)?;
stream.set_read_timeout(Some(timeout))?;
stream.set_write_timeout(Some(timeout))?;
Self::new_ssl_from_stream(socket_addrs, validate_domain, stream)
}
None => {
let stream = TcpStream::connect(socket_addrs.clone())?;
Self::new_ssl_from_stream(socket_addrs, validate_domain, stream)
}
}
}
/// Create a new SSL client using an existing TcpStream
pub fn new_ssl_from_stream<A: ToSocketAddrsDomain>(
socket_addrs: A,
validate_domain: bool,
stream: TcpStream,
) -> Result<Self, Error> {
let mut builder =
SslConnector::builder(SslMethod::tls()).map_err(Error::InvalidSslMethod)?;
// TODO: support for certificate pinning
if validate_domain {
socket_addrs.domain().ok_or(Error::MissingDomain)?;
} else {
builder.set_verify(SslVerifyMode::NONE);
}
let connector = builder.build();
let domain = socket_addrs.domain().unwrap_or("NONE").to_string();
let stream = connector
.connect(&domain, stream)
.map_err(Error::SslHandshakeError)?;
Ok(stream.into())
}
}
#[cfg(all(
any(feature = "default", feature = "use-rustls"),
not(feature = "use-openssl")
))]
mod danger {
use raw_client::ServerName;
use rustls::client::danger::ServerCertVerified;
use rustls::pki_types::CertificateDer;
use rustls::pki_types::UnixTime;
use rustls::Error;
#[derive(Debug)]
pub struct NoCertificateVerification {}
impl rustls::client::danger::ServerCertVerifier for NoCertificateVerification {
fn verify_server_cert(
&self,
_end_entity: &CertificateDer,
_intermediates: &[CertificateDer],
_server_name: &ServerName,
_ocsp_response: &[u8],
_now: UnixTime,
) -> Result<ServerCertVerified, Error> {
Ok(ServerCertVerified::assertion())
}
fn verify_tls12_signature(
&self,
_message: &[u8],
_cert: &CertificateDer<'_>,
_dss: &rustls::DigitallySignedStruct,
) -> Result<rustls::client::danger::HandshakeSignatureValid, Error> {
Ok(rustls::client::danger::HandshakeSignatureValid::assertion())
}
fn verify_tls13_signature(
&self,
_message: &[u8],
_cert: &CertificateDer<'_>,
_dss: &rustls::DigitallySignedStruct,
) -> Result<rustls::client::danger::HandshakeSignatureValid, Error> {
Ok(rustls::client::danger::HandshakeSignatureValid::assertion())
}
fn supported_verify_schemes(&self) -> Vec<rustls::SignatureScheme> {
vec![]
}
}
}
#[cfg(all(
any(feature = "default", feature = "use-rustls"),
not(feature = "use-openssl")
))]
/// Transport type used to establish a Rustls TLS encrypted/authenticated connection with the server
pub type ElectrumSslStream = StreamOwned<ClientConnection, TcpStream>;
#[cfg(all(
any(feature = "default", feature = "use-rustls"),
not(feature = "use-openssl")
))]
impl RawClient<ElectrumSslStream> {
/// Creates a new SSL client and tries to connect to `socket_addr`. Optionally, if
/// `validate_domain` is `true`, validate the server's certificate.
pub fn new_ssl<A: ToSocketAddrsDomain + Clone>(
socket_addrs: A,
validate_domain: bool,
timeout: Option<Duration>,
) -> Result<Self, Error> {
debug!(
"new_ssl socket_addrs.domain():{:?} validate_domain:{} timeout:{:?}",
socket_addrs.domain(),
validate_domain,
timeout
);
if validate_domain {
socket_addrs.domain().ok_or(Error::MissingDomain)?;
}
match timeout {
Some(timeout) => {
let stream = connect_with_total_timeout(socket_addrs.clone(), timeout)?;
stream.set_read_timeout(Some(timeout))?;
stream.set_write_timeout(Some(timeout))?;
Self::new_ssl_from_stream(socket_addrs, validate_domain, stream)
}
None => {
let stream = TcpStream::connect(socket_addrs.clone())?;
Self::new_ssl_from_stream(socket_addrs, validate_domain, stream)
}
}
}
/// Create a new SSL client using an existing TcpStream
pub fn new_ssl_from_stream<A: ToSocketAddrsDomain>(
socket_addr: A,
validate_domain: bool,
tcp_stream: TcpStream,
) -> Result<Self, Error> {
use std::convert::TryFrom;
let builder = ClientConfig::builder();
let config = if validate_domain {
socket_addr.domain().ok_or(Error::MissingDomain)?;
let store = webpki_roots::TLS_SERVER_ROOTS
.into_iter()
.map(|t| TrustAnchor {
subject: Der::from_slice(t.subject),
subject_public_key_info: Der::from_slice(t.spki),
name_constraints: t.name_constraints.map(|nc| Der::from_slice(nc)),
})
.collect::<RootCertStore>();
// TODO: cert pinning
builder.with_root_certificates(store).with_no_client_auth()
} else {
builder
.dangerous()
.with_custom_certificate_verifier(std::sync::Arc::new(
danger::NoCertificateVerification {},
))
.with_no_client_auth()
};
let domain = socket_addr.domain().unwrap_or("NONE").to_string();
let session = ClientConnection::new(
std::sync::Arc::new(config),
ServerName::try_from(domain.clone())
.map_err(|_| Error::InvalidDNSNameError(domain.clone()))?,
)
.map_err(Error::CouldNotCreateConnection)?;
let stream = StreamOwned::new(session, tcp_stream);
Ok(stream.into())
}
}
#[cfg(any(feature = "default", feature = "proxy"))]
/// Transport type used to establish a connection to a server through a socks proxy
pub type ElectrumProxyStream = Socks5Stream;
#[cfg(any(feature = "default", feature = "proxy"))]
impl RawClient<ElectrumProxyStream> {
/// Creates a new socks client and tries to connect to `target_addr` using `proxy_addr` as a
/// socks proxy server. The DNS resolution of `target_addr`, if required, is done
/// through the proxy. This allows to specify, for instance, `.onion` addresses.
pub fn new_proxy<T: ToTargetAddr>(
target_addr: T,
proxy: &crate::Socks5Config,
timeout: Option<Duration>,
) -> Result<Self, Error> {
let mut stream = match proxy.credentials.as_ref() {
Some(cred) => Socks5Stream::connect_with_password(
&proxy.addr,
target_addr,
&cred.username,
&cred.password,
timeout,
)?,
None => Socks5Stream::connect(&proxy.addr, target_addr, timeout)?,
};
stream.get_mut().set_read_timeout(timeout)?;
stream.get_mut().set_write_timeout(timeout)?;
Ok(stream.into())
}
#[cfg(any(feature = "use-openssl", feature = "use-rustls"))]
/// Creates a new TLS client that connects to `target_addr` using `proxy_addr` as a socks proxy
/// server. The DNS resolution of `target_addr`, if required, is done through the proxy. This
/// allows to specify, for instance, `.onion` addresses.
pub fn new_proxy_ssl<T: ToTargetAddr>(
target_addr: T,
validate_domain: bool,
proxy: &crate::Socks5Config,
timeout: Option<Duration>,
) -> Result<RawClient<ElectrumSslStream>, Error> {
let target = target_addr.to_target_addr()?;
let mut stream = match proxy.credentials.as_ref() {
Some(cred) => Socks5Stream::connect_with_password(
&proxy.addr,
target_addr,
&cred.username,
&cred.password,
timeout,
)?,
None => Socks5Stream::connect(&proxy.addr, target.clone(), timeout)?,
};
stream.get_mut().set_read_timeout(timeout)?;
stream.get_mut().set_write_timeout(timeout)?;
RawClient::new_ssl_from_stream(target, validate_domain, stream.into_inner())
}
}
#[derive(Debug)]
enum ChannelMessage {
Response(serde_json::Value),
WakeUp,
Error(Arc<std::io::Error>),
}
impl<S: Read + Write> RawClient<S> {
// TODO: to enable this we have to find a way to allow concurrent read and writes to the
// underlying transport struct. This can be done pretty easily for TcpStream because it can be
// split into a "read" and a "write" object, but it's not as trivial for other types. Without
// such thing, this causes a deadlock, because the reader thread takes a lock on the
// `ClonableStream` before other threads can send a request to the server. They will block
// waiting for the reader to release the mutex, but this will never happen because the server
// didn't receive any request, so it has nothing to send back.
// pub fn reader_thread(&self) -> Result<(), Error> {
// self._reader_thread(None).map(|_| ())
// }
fn _reader_thread(&self, until_message: Option<usize>) -> Result<serde_json::Value, Error> {
let mut raw_resp = String::new();
let resp = match self.buf_reader.try_lock() {
Ok(mut reader) => {
trace!(
"Starting reader thread with `until_message` = {:?}",
until_message
);
if let Some(until_message) = until_message {
// If we are trying to start a reader thread but the corresponding sender is
// missing from the map, exit immediately. This can happen with batch calls,
// since the sender is shared for all the individual queries in a call. We
// might have already received a response for that id, but we don't know it
// yet. Exiting here forces the calling code to fallback to the sender-receiver
// method, and it should find a message there waiting for it.
if self.waiting_map.lock()?.get(&until_message).is_none() {
return Err(Error::CouldntLockReader);
}
}
// Loop over every message
loop {
raw_resp.clear();
if let Err(e) = reader.read_line(&mut raw_resp) {
let error = Arc::new(e);
for (_, s) in self.waiting_map.lock().unwrap().drain() {
s.send(ChannelMessage::Error(error.clone()))?;
}
return Err(Error::SharedIOError(error));
}
trace!("<== {}", raw_resp);
let resp: serde_json::Value = serde_json::from_str(&raw_resp)?;
// Normally there is and id, but it's missing for spontaneous notifications
// from the server
let resp_id = resp["id"]
.as_str()
.and_then(|s| s.parse().ok())
.or_else(|| resp["id"].as_u64().map(|i| i as usize));
match resp_id {
Some(resp_id) if until_message == Some(resp_id) => {
// We have a valid id and it's exactly the one we were waiting for!
trace!(
"Reader thread {} received a response for its request",
resp_id
);
// Remove ourselves from the "waiting map"
let mut map = self.waiting_map.lock()?;
map.remove(&resp_id);
// If the map is not empty, we select a random thread to become the
// new reader thread.
if let Some(err) = map.values().find_map(|sender| {
sender
.send(ChannelMessage::WakeUp)
.map_err(|err| {
warn!("Unable to wake up a thread, trying some other");
err
})
.err()
}) {
error!("All the threads has failed, giving up");
return Err(err)?;
}
break Ok(resp);
}
Some(resp_id) => {
// We have an id, but it's not our response. Notify the thread and
// move on
trace!("Reader thread received response for {}", resp_id);
if let Some(sender) = self.waiting_map.lock()?.remove(&resp_id) {
sender.send(ChannelMessage::Response(resp))?;
} else {
warn!("Missing listener for {}", resp_id);
}
}
None => {
// No id, that's probably a notification.
let mut resp = resp;
if let Some(ref method) = resp["method"].take().as_str() {
self.handle_notification(method, resp["params"].take())?;
} else {
warn!("Unexpected response: {:?}", resp);
}
}
}
}
}
Err(TryLockError::WouldBlock) => {
// If we "WouldBlock" here it means that there's already a reader thread
// running somewhere.
Err(Error::CouldntLockReader)
}
Err(TryLockError::Poisoned(e)) => Err(e)?,
};
let resp = resp?;
if let Some(err) = resp.get("error") {
Err(Error::Protocol(err.clone()))
} else {
Ok(resp)
}
}
fn call(&self, req: Request) -> Result<serde_json::Value, Error> {
// Add our listener to the map before we send the request, to make sure we don't get a
// reply before the receiver is added
let (sender, receiver) = channel();
self.waiting_map.lock()?.insert(req.id, sender);
let mut raw = serde_json::to_vec(&req)?;
trace!("==> {}", String::from_utf8_lossy(&raw));
raw.extend_from_slice(b"\n");
let mut stream = self.stream.lock()?;
stream.write_all(&raw)?;
stream.flush()?;
drop(stream); // release the lock
self.increment_calls();
let mut resp = match self.recv(&receiver, req.id) {
Ok(resp) => resp,
e @ Err(_) => {
// In case of error our sender could still be left in the map, depending on where
// the error happened. Just in case, try to remove it here
self.waiting_map.lock()?.remove(&req.id);
return e;
}
};
Ok(resp["result"].take())
}
fn recv(
&self,
receiver: &Receiver<ChannelMessage>,
req_id: usize,
) -> Result<serde_json::Value, Error> {
loop {
// Try to take the lock on the reader. If we manage to do so, we'll become the reader
// thread until we get our reponse
match self._reader_thread(Some(req_id)) {
Ok(response) => break Ok(response),
Err(Error::CouldntLockReader) => {
match receiver.recv()? {
// Received our response, returning it
ChannelMessage::Response(received) => break Ok(received),
ChannelMessage::WakeUp => {
// We have been woken up, this means that we should try becoming the
// reader thread ourselves
trace!("WakeUp for {}", req_id);
continue;
}
ChannelMessage::Error(e) => {
warn!("Received ChannelMessage::Error");
break Err(Error::SharedIOError(e));
}
}
}
e @ Err(_) => break e,
}
}
}
fn handle_notification(&self, method: &str, result: serde_json::Value) -> Result<(), Error> {
match method {
"blockchain.headers.subscribe" => self.headers.lock()?.append(
&mut serde_json::from_value::<Vec<RawHeaderNotification>>(result)?
.into_iter()
.collect(),
),
"blockchain.scripthash.subscribe" => {
let unserialized: ScriptNotification = serde_json::from_value(result)?;
let mut script_notifications = self.script_notifications.lock()?;
let queue = script_notifications
.get_mut(&unserialized.scripthash)
.ok_or(Error::NotSubscribed(unserialized.scripthash))?;
queue.push_back(unserialized.status);
}
_ => info!("received unknown notification for method `{}`", method),
}
Ok(())
}
pub(crate) fn internal_raw_call_with_vec(
&self,
method_name: &str,
params: Vec<Param>,
) -> Result<serde_json::Value, Error> {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
&method_name,
params,
);
let result = self.call(req)?;
Ok(result)
}
#[inline]
#[cfg(feature = "debug-calls")]
fn increment_calls(&self) {
self.calls.fetch_add(1, Ordering::SeqCst);
}
#[inline]
#[cfg(not(feature = "debug-calls"))]
fn increment_calls(&self) {}
}
impl<T: Read + Write> ElectrumApi for RawClient<T> {
fn raw_call(
&self,
method_name: &str,
params: impl IntoIterator<Item = Param>,
) -> Result<serde_json::Value, Error> {
self.internal_raw_call_with_vec(method_name, params.into_iter().collect())
}
fn batch_call(&self, batch: &Batch) -> Result<Vec<serde_json::Value>, Error> {
let mut raw = Vec::new();
let mut missing_responses = BTreeSet::new();
let mut answers = BTreeMap::new();
// Add our listener to the map before we send the request, Here we will clone the sender
// for every request id, so that we only have to monitor one receiver.
let (sender, receiver) = channel();
for (method, params) in batch.iter() {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
&method,
params.to_vec(),
);
missing_responses.insert(req.id);
self.waiting_map.lock()?.insert(req.id, sender.clone());
raw.append(&mut serde_json::to_vec(&req)?);
raw.extend_from_slice(b"\n");
}
if missing_responses.is_empty() {
return Ok(vec![]);
}
trace!("==> {}", String::from_utf8_lossy(&raw));
let mut stream = self.stream.lock()?;
stream.write_all(&raw)?;
stream.flush()?;
drop(stream); // release the lock
self.increment_calls();
for req_id in missing_responses.iter() {
match self.recv(&receiver, *req_id) {
Ok(mut resp) => answers.insert(req_id, resp["result"].take()),
Err(e) => {
// In case of error our sender could still be left in the map, depending on where
// the error happened. Just in case, try to remove it here
warn!("got error for req_id {}: {:?}", req_id, e);
warn!("removing all waiting req of this batch");
let mut guard = self.waiting_map.lock()?;
for req_id in missing_responses.iter() {
guard.remove(req_id);
}
return Err(e);
}
};
}
Ok(answers.into_iter().map(|(_, r)| r).collect())
}
fn block_headers_subscribe_raw(&self) -> Result<RawHeaderNotification, Error> {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.headers.subscribe",
vec![],
);
let value = self.call(req)?;
Ok(serde_json::from_value(value)?)
}
fn block_headers_pop_raw(&self) -> Result<Option<RawHeaderNotification>, Error> {
Ok(self.headers.lock()?.pop_front())
}
fn block_header_raw(&self, height: usize) -> Result<Vec<u8>, Error> {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.block.header",
vec![Param::Usize(height)],
);
let result = self.call(req)?;
Ok(Vec::<u8>::from_hex(
result
.as_str()
.ok_or_else(|| Error::InvalidResponse(result.clone()))?,
)?)
}
fn block_headers(&self, start_height: usize, count: usize) -> Result<GetHeadersRes, Error> {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.block.headers",
vec![Param::Usize(start_height), Param::Usize(count)],
);
let result = self.call(req)?;
let mut deserialized: GetHeadersRes = serde_json::from_value(result)?;
for i in 0..deserialized.count {
let (start, end) = (i * 80, (i + 1) * 80);
deserialized
.headers
.push(deserialize(&deserialized.raw_headers[start..end])?);
}
deserialized.raw_headers.clear();
Ok(deserialized)
}
fn estimate_fee(&self, number: usize) -> Result<f64, Error> {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.estimatefee",
vec![Param::Usize(number)],
);
let result = self.call(req)?;
result
.as_f64()
.ok_or_else(|| Error::InvalidResponse(result.clone()))
}
fn relay_fee(&self) -> Result<f64, Error> {
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.relayfee",
vec![],
);
let result = self.call(req)?;
result
.as_f64()
.ok_or_else(|| Error::InvalidResponse(result.clone()))
}
fn script_subscribe(&self, script: &Script) -> Result<Option<ScriptStatus>, Error> {
let script_hash = script.to_electrum_scripthash();
let mut script_notifications = self.script_notifications.lock()?;
if script_notifications.contains_key(&script_hash) {
return Err(Error::AlreadySubscribed(script_hash));
}
script_notifications.insert(script_hash, VecDeque::new());
drop(script_notifications);
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.scripthash.subscribe",
vec![Param::String(script_hash.to_hex())],
);
let value = self.call(req)?;
Ok(serde_json::from_value(value)?)
}
fn batch_script_subscribe<'s, I>(&self, scripts: I) -> Result<Vec<Option<ScriptStatus>>, Error>
where
I: IntoIterator + Clone,
I::Item: Borrow<&'s Script>,
{
{
let mut script_notifications = self.script_notifications.lock()?;
for script in scripts.clone() {
let script_hash = script.borrow().to_electrum_scripthash();
if script_notifications.contains_key(&script_hash) {
return Err(Error::AlreadySubscribed(script_hash));
}
script_notifications.insert(script_hash, VecDeque::new());
}
}
impl_batch_call!(self, scripts, script_subscribe)
}
fn script_unsubscribe(&self, script: &Script) -> Result<bool, Error> {
let script_hash = script.to_electrum_scripthash();
let mut script_notifications = self.script_notifications.lock()?;
if !script_notifications.contains_key(&script_hash) {
return Err(Error::NotSubscribed(script_hash));
}
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.scripthash.unsubscribe",
vec![Param::String(script_hash.to_hex())],
);
let value = self.call(req)?;
let answer = serde_json::from_value(value)?;
script_notifications.remove(&script_hash);
Ok(answer)
}
fn script_pop(&self, script: &Script) -> Result<Option<ScriptStatus>, Error> {
let script_hash = script.to_electrum_scripthash();
match self.script_notifications.lock()?.get_mut(&script_hash) {
None => Err(Error::NotSubscribed(script_hash)),
Some(queue) => Ok(queue.pop_front()),
}
}
fn script_get_balance(&self, script: &Script) -> Result<GetBalanceRes, Error> {
let params = vec![Param::String(script.to_electrum_scripthash().to_hex())];
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.scripthash.get_balance",
params,
);
let result = self.call(req)?;
Ok(serde_json::from_value(result)?)
}
fn batch_script_get_balance<'s, I>(&self, scripts: I) -> Result<Vec<GetBalanceRes>, Error>
where
I: IntoIterator + Clone,
I::Item: Borrow<&'s Script>,
{
impl_batch_call!(self, scripts, script_get_balance)
}
fn script_get_history(&self, script: &Script) -> Result<Vec<GetHistoryRes>, Error> {
let params = vec![Param::String(script.to_electrum_scripthash().to_hex())];
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.scripthash.get_history",
params,
);
let result = self.call(req)?;
Ok(serde_json::from_value(result)?)
}
fn batch_script_get_history<'s, I>(&self, scripts: I) -> Result<Vec<Vec<GetHistoryRes>>, Error>
where
I: IntoIterator + Clone,
I::Item: Borrow<&'s Script>,
{
impl_batch_call!(self, scripts, script_get_history)
}
fn script_list_unspent(&self, script: &Script) -> Result<Vec<ListUnspentRes>, Error> {
let params = vec![Param::String(script.to_electrum_scripthash().to_hex())];
let req = Request::new_id(
self.last_id.fetch_add(1, Ordering::SeqCst),
"blockchain.scripthash.listunspent",
params,
);
let result = self.call(req)?;
let mut result: Vec<ListUnspentRes> = serde_json::from_value(result)?;
// This should not be necessary, since the protocol documentation says that the txs should
// be "in blockchain order" (https://electrumx.readthedocs.io/en/latest/protocol-methods.html#blockchain-scripthash-listunspent).
// However, elects seems to be ignoring this at the moment, so we'll sort again here just
// to make sure the result is consistent.
result.sort_unstable_by_key(|k| (k.height, k.tx_pos));
Ok(result)
}
fn batch_script_list_unspent<'s, I>(
&self,
scripts: I,
) -> Result<Vec<Vec<ListUnspentRes>>, Error>
where
I: IntoIterator + Clone,
I::Item: Borrow<&'s Script>,
{
impl_batch_call!(self, scripts, script_list_unspent)