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28 Commits

Author SHA1 Message Date
Dave Hrycyszyn db6dc62cdd Using wss with a named gateway so that it can work on the web 2022-10-26 16:32:04 +01:00
Dave Hrycyszyn d59798099f Bumping to 1.0.1 version number for webassembly package 2022-10-26 15:46:25 +01:00
Dave Hrycyszyn 7ebb7cca87 Adding options for fat wasm 2022-10-26 15:44:42 +01:00
Dave Hrycyszyn 5d2ab89f77 Adding compression options 2022-10-26 15:44:29 +01:00
Dave Hrycyszyn ac63b92e7c Removing accidental yarn lock 2022-10-26 15:44:20 +01:00
Jędrzej Stuczyński 0539fc20db Removed warning associated with receiving extended packets 2022-10-10 13:32:40 +01:00
Jędrzej Stuczyński 3a6932d47c local adjustments 2022-10-10 13:32:25 +01:00
Jędrzej Stuczyński cf71cf0906 Introduced a client-configurable option to force it to use extended packet size 2022-10-10 12:10:23 +01:00
Jędrzej Stuczyński de239cd288 Adjusting default settings 2022-10-10 10:44:45 +01:00
Jędrzej Stuczyński 1593cd08c4 Introduced disable_main_poisson_packet_distribution to force real_traffic_stream to disable poisson sending (#1664)
* Introduced disable_main_poisson_packet_distribution to force real_traffic_stream to disable poisson sending

* Updated changelog
2022-10-10 10:42:42 +01:00
Jędrzej Stuczyński 08b3ce80b5 missing imports 2022-10-10 10:17:41 +01:00
Jędrzej Stuczyński bc3cad1c80 Allow client to read up to 8 messages at once from gateway connection (#1669)
* Allow client to read up to 8 messages at once from gateway connection

* Importing tokio::select in wasm32 target

* Updated changelog
2022-10-10 10:15:07 +01:00
Jędrzej Stuczyński b4d3c097ff correctly polling items in the wasm delay_queue 2022-10-07 16:55:10 +01:00
Jędrzej Stuczyński 0752c1c281 Restored topology refreshing 2022-10-07 11:07:33 +01:00
Mark Sinclair f44089abbc Make webassembly work in a web worker
- `wasm-timer` modified to work in web worker
- add worker target to webpack
- add client to call from HTML
- update README to build WASM for bundling (this does not build ES modules)
2022-10-07 11:07:33 +01:00
Jędrzej Stuczyński 7f8e8439e2 config changes 2022-10-07 11:07:26 +01:00
Jędrzej Stuczyński 55f441912a Added a config option to disable loop cover traffic stream 2022-10-06 16:55:45 +01:00
Jędrzej Stuczyński 96e7df0dd5 disabling topology refresh in wasm 2022-10-05 17:50:47 +01:00
Jędrzej Stuczyński c7bf4de1ba all clients compiling without warnings 2022-10-05 17:38:15 +01:00
Jędrzej Stuczyński 1969a85231 Fixed compilation warnings for wasm client 2022-10-05 15:48:35 +01:00
Mark Sinclair 1526cb8d67 Upgrade wasm-bindgen to 0.2.83 2022-10-05 11:18:39 +01:00
Jędrzej Stuczyński 31056a90cb WIP cleanup before machine switch 2022-10-05 09:49:23 +01:00
Jędrzej Stuczyński 932e137e27 Easier way of sending binary messages 2022-10-04 13:24:54 +01:00
Jędrzej Stuczyński c83a1b609a Removed hardcoded constants 2022-10-04 13:19:19 +01:00
Jędrzej Stuczyński eff45f7d90 Removed unused module 2022-10-04 13:16:38 +01:00
Jędrzej Stuczyński 54719d2c3e Beginning of clean-up - creation of config to keep things together 2022-10-04 13:13:48 +01:00
Jędrzej Stuczyński dc9daea2f6 wip 2022-10-04 10:01:16 +01:00
Jędrzej Stuczyński f4ea183c1e Compiles but runtime time fails 2022-10-03 14:00:47 +01:00
442 changed files with 22383 additions and 27253 deletions
+1 -1
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@@ -16,7 +16,7 @@ jobs:
RUSTC_WRAPPER: /home/ubuntu/.cargo/bin/sccache
steps:
- name: Install Dependencies (Linux)
run: sudo apt-get update && sudo apt-get -y install libwebkit2gtk-4.0-dev build-essential curl wget libssl-dev libgtk-3-dev libudev-dev squashfs-tools
run: sudo apt-get update && sudo apt-get -y install libwebkit2gtk-4.0-dev build-essential curl wget libssl-dev libgtk-3-dev squashfs-tools
- name: Check out repository code
uses: actions/checkout@v2
+1 -1
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@@ -24,7 +24,7 @@ jobs:
continue-on-error: ${{ matrix.rust == 'nightly' || matrix.rust == 'beta' || matrix.rust == 'stable' }}
steps:
- name: Install Dependencies (Linux)
run: sudo apt-get update && sudo apt-get install libwebkit2gtk-4.0-dev build-essential curl wget libssl-dev libgtk-3-dev libudev-dev squashfs-tools
run: sudo apt-get update && sudo apt-get install libwebkit2gtk-4.0-dev build-essential curl wget libssl-dev libgtk-3-dev squashfs-tools
if: matrix.os == 'ubuntu-latest'
- name: Check out repository code
-11
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@@ -2,12 +2,6 @@ name: Publish Nym binaries
on:
workflow_dispatch:
inputs:
add_tokio_unstable:
description: 'True to add RUSTFLAGS="--cfg tokio_unstable"'
required: true
default: false
type: boolean
release:
types: [created]
@@ -31,11 +25,6 @@ jobs:
with:
script: |
core.setFailed('Release tag did not start with nym-binaries-...')
- name: Sets env vars for tokio if set in manual dispatch inputs
run: |
echo 'RUSTFLAGS="--cfg tokio_unstable"' >> $GITHUB_ENV
if: github.event_name == 'workflow_dispatch' && inputs.add_tokio_unstable == true
- name: Install Rust stable
uses: actions-rs/toolchain@v1
+6
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@@ -10,6 +10,8 @@ Post 1.0.0 release, the changelog format is based on [Keep a Changelog](https://
- validator-client: added `query_contract_smart` and `query_contract_raw` on `NymdClient` ([#1558])
- network-requester: added additional Blockstream Green wallet endpoint to `example.allowed.list` ([#1611](https://github.com/nymtech/nym/pull/1611))
- common/ledger: new library for communicating with a Ledger device ([#1640])
- native-client/socks5-client: `disable_loop_cover_traffic_stream` Debug config option to disable the separate loop cover traffic stream ([#1666])
- native-client/socks5-client: `disable_main_poisson_packet_distribution` Debug config option to make the client ignore poisson distribution in the main packet stream and ONLY send real message (and as fast as they come) ([#1664])
### Fixed
@@ -20,6 +22,7 @@ Post 1.0.0 release, the changelog format is based on [Keep a Changelog](https://
- validator-client: made `fee` argument optional for `execute` and `execute_multiple` ([#1541])
- socks5 client: graceful shutdown should fix error on disconnect in nym-connect ([#1591])
- wasm-client: fixed build errors on MacOS and changed example JS code to use mainnet ([#1585])
- gateway-client: will attempt to read now as many as 8 websocket messages at once, assuming they're already available on the socket ([#1669])
[#1541]: https://github.com/nymtech/nym/pull/1541
[#1558]: https://github.com/nymtech/nym/pull/1558
@@ -28,6 +31,9 @@ Post 1.0.0 release, the changelog format is based on [Keep a Changelog](https://
[#1591]: https://github.com/nymtech/nym/pull/1591
[#1640]: https://github.com/nymtech/nym/pull/1640
[#1645]: https://github.com/nymtech/nym/pull/1645
[#1664]: https://github.com/nymtech/nym/pull/1664
[#1666]: https://github.com/nymtech/nym/pull/1645
[#1669]: https://github.com/nymtech/nym/pull/1669
## [nym-binaries-1.0.2](https://github.com/nymtech/nym/tree/nym-binaries-1.0.2)
Generated
+140 -494
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-2
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@@ -40,7 +40,6 @@ members = [
"common/crypto/dkg",
"common/execute",
"common/inclusion-probability",
"common/ledger",
"common/mixnode-common",
"common/network-defaults",
"common/nonexhaustive-delayqueue",
@@ -63,7 +62,6 @@ members = [
"common/topology",
"common/types",
"common/wasm-utils",
"common/completions",
"explorer-api",
"gateway",
"gateway/gateway-requests",
+25 -4
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@@ -13,26 +13,47 @@ humantime-serde = "1.0"
log = "0.4"
rand = { version = "0.7.3", features = ["wasm-bindgen"] }
serde = { version = "1.0", features = ["derive"] }
sled = "0.34"
sled = { version = "0.34", optional = true }
thiserror = "1.0.34"
tokio = { version = "1.19.1", features = ["macros"] }
url = { version ="2.2", features = ["serde"] }
# internal
config = { path = "../../common/config" }
crypto = { path = "../../common/crypto" }
gateway-client = { path = "../../common/client-libs/gateway-client" }
#gateway-client = { path = "../../common/client-libs/gateway-client", default-features = false, features = ["wasm", "coconut"] }
gateway-requests = { path = "../../gateway/gateway-requests" }
nonexhaustive-delayqueue = { path = "../../common/nonexhaustive-delayqueue" }
nymsphinx = { path = "../../common/nymsphinx" }
pemstore = { path = "../../common/pemstore" }
task = { path = "../../common/task" }
topology = { path = "../../common/topology" }
validator-client = { path = "../../common/client-libs/validator-client" }
validator-client = { path = "../../common/client-libs/validator-client", default-features = false }
tap = "1.0.1"
tokio = { version = "1.21.2", features = ["time", "macros"]}
[target."cfg(target_arch = \"wasm32\")".dependencies.wasm-bindgen-futures]
version = "0.4"
[target."cfg(target_arch = \"wasm32\")".dependencies.wasm-bindgen]
version = "0.2.83"
[target."cfg(target_arch = \"wasm32\")".dependencies.wasm-timer]
git = "https://github.com/mmsinclair/wasm-timer"
rev = "b9d1a54ad514c2f230a026afe0dde341e98cd7b6"
[target."cfg(target_arch = \"wasm32\")".dependencies.gloo-timers]
version = "0.2.4"
features = ["futures"]
[target."cfg(not(target_arch = \"wasm32\"))".dependencies.task]
path = "../../common/task"
[dev-dependencies]
tempfile = "3.1.0"
[features]
default = ["reply-surb"]
wasm = ["gateway-client/wasm"]
coconut = ["gateway-client/coconut", "gateway-requests/coconut"]
reply-surb = ["sled"]
@@ -3,20 +3,26 @@
use crate::client::mix_traffic::BatchMixMessageSender;
use crate::client::topology_control::TopologyAccessor;
use crate::spawn_future;
use futures::task::{Context, Poll};
use futures::{Future, Stream, StreamExt};
use log::*;
use nymsphinx::acknowledgements::AckKey;
use nymsphinx::addressing::clients::Recipient;
use nymsphinx::cover::generate_loop_cover_packet;
use nymsphinx::params::PacketSize;
use nymsphinx::utils::sample_poisson_duration;
use rand::{rngs::OsRng, CryptoRng, Rng};
use std::pin::Pin;
use std::sync::Arc;
use task::ShutdownListener;
use tokio::task::JoinHandle;
use std::time::Duration;
#[cfg(not(target_arch = "wasm32"))]
use tokio::time;
#[cfg(target_arch = "wasm32")]
use wasm_timer;
pub struct LoopCoverTrafficStream<R>
where
R: CryptoRng + Rng,
@@ -25,18 +31,22 @@ where
ack_key: Arc<AckKey>,
/// Average delay an acknowledgement packet is going to get delay at a single mixnode.
average_ack_delay: time::Duration,
average_ack_delay: Duration,
/// Average delay a data packet is going to get delay at a single mixnode.
average_packet_delay: time::Duration,
average_packet_delay: Duration,
/// Average delay between sending subsequent cover packets.
average_cover_message_sending_delay: time::Duration,
average_cover_message_sending_delay: Duration,
/// Internal state, determined by `average_message_sending_delay`,
/// used to keep track of when a next packet should be sent out.
#[cfg(not(target_arch = "wasm32"))]
next_delay: Pin<Box<time::Sleep>>,
#[cfg(target_arch = "wasm32")]
next_delay: Pin<Box<wasm_timer::Delay>>,
/// Channel used for sending prepared sphinx packets to `MixTrafficController` that sends them
/// out to the network without any further delays.
mix_tx: BatchMixMessageSender,
@@ -50,8 +60,8 @@ where
/// Accessor to the common instance of network topology.
topology_access: TopologyAccessor,
/// Listen to shutdown signals.
shutdown: ShutdownListener,
/// Predefined packet size used for the loop cover messages.
packet_size: PacketSize,
}
impl<R> Stream for LoopCoverTrafficStream<R>
@@ -73,13 +83,21 @@ where
// we know it's time to send a message, so let's prepare delay for the next one
// Get the `now` by looking at the current `delay` deadline
let avg_delay = self.average_cover_message_sending_delay;
let now = self.next_delay.deadline();
let next_poisson_delay = sample_poisson_duration(&mut self.rng, avg_delay);
// The next interval value is `next_poisson_delay` after the one that just
// yielded.
let next = now + next_poisson_delay;
self.next_delay.as_mut().reset(next);
#[cfg(not(target_arch = "wasm32"))]
{
let now = self.next_delay.deadline();
let next = now + next_poisson_delay;
self.next_delay.as_mut().reset(next);
}
#[cfg(target_arch = "wasm32")]
{
self.next_delay.as_mut().reset(next_poisson_delay);
}
Poll::Ready(Some(()))
}
@@ -91,30 +109,39 @@ impl LoopCoverTrafficStream<OsRng> {
#[allow(clippy::too_many_arguments)]
pub fn new(
ack_key: Arc<AckKey>,
average_ack_delay: time::Duration,
average_packet_delay: time::Duration,
average_cover_message_sending_delay: time::Duration,
average_ack_delay: Duration,
average_packet_delay: Duration,
average_cover_message_sending_delay: Duration,
mix_tx: BatchMixMessageSender,
our_full_destination: Recipient,
topology_access: TopologyAccessor,
shutdown: ShutdownListener,
) -> Self {
let rng = OsRng;
#[cfg(not(target_arch = "wasm32"))]
let next_delay = Box::pin(time::sleep(Default::default()));
#[cfg(target_arch = "wasm32")]
let next_delay = Box::pin(wasm_timer::Delay::new(Default::default()));
LoopCoverTrafficStream {
ack_key,
average_ack_delay,
average_packet_delay,
average_cover_message_sending_delay,
next_delay: Box::pin(time::sleep(Default::default())),
next_delay,
mix_tx,
our_full_destination,
rng,
topology_access,
shutdown,
packet_size: Default::default(),
}
}
pub fn set_custom_packet_size(&mut self, packet_size: PacketSize) {
self.packet_size = packet_size;
}
async fn on_new_message(&mut self) {
trace!("next cover message!");
@@ -136,10 +163,11 @@ impl LoopCoverTrafficStream<OsRng> {
let cover_message = generate_loop_cover_packet(
&mut self.rng,
topology_ref,
&self.ack_key,
&*self.ack_key,
&self.our_full_destination,
self.average_ack_delay,
self.average_packet_delay,
self.packet_size,
)
.expect("Somehow failed to generate a loop cover message with a valid topology");
@@ -156,40 +184,56 @@ impl LoopCoverTrafficStream<OsRng> {
// JS: due to identical logical structure to OutQueueControl::on_message(), this is also
// presumably required to prevent bugs in the future. Exact reason is still unknown to me.
// TODO: temporary and BAD workaround for wasm (we should find a way to yield here in wasm)
#[cfg(not(target_arch = "wasm32"))]
tokio::task::yield_now().await;
}
async fn run(&mut self) {
#[cfg(not(target_arch = "wasm32"))]
pub fn start_with_shutdown(mut self, mut shutdown: task::ShutdownListener) {
// we should set initial delay only when we actually start the stream
self.next_delay = Box::pin(time::sleep(sample_poisson_duration(
&mut self.rng,
self.average_cover_message_sending_delay,
)));
let sampled =
sample_poisson_duration(&mut self.rng, self.average_cover_message_sending_delay);
self.next_delay = Box::pin(time::sleep(sampled));
let mut shutdown = self.shutdown.clone();
while !shutdown.is_shutdown() {
tokio::select! {
biased;
_ = shutdown.recv() => {
log::trace!("LoopCoverTrafficStream: Received shutdown");
}
next = self.next() => {
if next.is_some() {
self.on_new_message().await;
} else {
log::trace!("LoopCoverTrafficStream: Stopping since channel closed");
break;
spawn_future(async move {
debug!("Started LoopCoverTrafficStream with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
biased;
_ = shutdown.recv() => {
log::trace!("LoopCoverTrafficStream: Received shutdown");
}
next = self.next() => {
if next.is_some() {
self.on_new_message().await;
} else {
log::trace!("LoopCoverTrafficStream: Stopping since channel closed");
break;
}
}
}
}
}
assert!(self.shutdown.is_shutdown_poll());
log::debug!("LoopCoverTrafficStream: Exiting");
assert!(shutdown.is_shutdown_poll());
log::debug!("LoopCoverTrafficStream: Exiting");
})
}
pub fn start(mut self) -> JoinHandle<()> {
tokio::spawn(async move {
self.run().await;
#[cfg(target_arch = "wasm32")]
pub fn start(mut self) {
// we should set initial delay only when we actually start the stream
let sampled =
sample_poisson_duration(&mut self.rng, self.average_cover_message_sending_delay);
self.next_delay = Box::pin(wasm_timer::Delay::new(sampled));
spawn_future(async move {
debug!("Started LoopCoverTrafficStream without graceful shutdown support");
while self.next().await.is_some() {
self.on_new_message().await;
}
})
}
}
+29 -23
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@@ -1,13 +1,12 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::spawn_future;
use futures::channel::mpsc;
use futures::StreamExt;
use gateway_client::GatewayClient;
use log::*;
use nymsphinx::forwarding::packet::MixPacket;
use task::ShutdownListener;
use tokio::task::JoinHandle;
pub type BatchMixMessageSender = mpsc::UnboundedSender<Vec<MixPacket>>;
pub type BatchMixMessageReceiver = mpsc::UnboundedReceiver<Vec<MixPacket>>;
@@ -19,7 +18,6 @@ pub struct MixTrafficController {
// later on gateway_client will need to be accessible by other entities
gateway_client: GatewayClient,
mix_rx: BatchMixMessageReceiver,
shutdown: ShutdownListener,
// TODO: this is temporary work-around.
// in long run `gateway_client` will be moved away from `MixTrafficController` anyway.
@@ -30,12 +28,10 @@ impl MixTrafficController {
pub fn new(
mix_rx: BatchMixMessageReceiver,
gateway_client: GatewayClient,
shutdown: ShutdownListener,
) -> MixTrafficController {
MixTrafficController {
gateway_client,
mix_rx,
shutdown,
consecutive_gateway_failure_count: 0,
}
}
@@ -69,30 +65,40 @@ impl MixTrafficController {
}
}
pub async fn run(&mut self) {
while !self.shutdown.is_shutdown() {
tokio::select! {
mix_packets = self.mix_rx.next() => match mix_packets {
Some(mix_packets) => {
self.on_messages(mix_packets).await;
#[cfg(not(target_arch = "wasm32"))]
pub fn start_with_shutdown(mut self, mut shutdown: task::ShutdownListener) {
spawn_future(async move {
debug!("Started MixTrafficController with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
mix_packets = self.mix_rx.next() => match mix_packets {
Some(mix_packets) => {
self.on_messages(mix_packets).await;
},
None => {
log::trace!("MixTrafficController: Stopping since channel closed");
break;
}
},
None => {
log::trace!("MixTrafficController: Stopping since channel closed");
break;
_ = shutdown.recv() => {
log::trace!("MixTrafficController: Received shutdown");
}
},
_ = self.shutdown.recv() => {
log::trace!("MixTrafficController: Received shutdown");
}
}
}
assert!(self.shutdown.is_shutdown_poll());
log::debug!("MixTrafficController: Exiting");
assert!(shutdown.is_shutdown_poll());
log::debug!("MixTrafficController: Exiting");
})
}
pub fn start(mut self) -> JoinHandle<()> {
tokio::spawn(async move {
self.run().await;
#[cfg(target_arch = "wasm32")]
pub fn start(mut self) {
spawn_future(async move {
debug!("Started MixTrafficController without graceful shutdown support");
while let Some(mix_packets) = self.mix_rx.next().await {
self.on_messages(mix_packets).await;
}
})
}
}
+1
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@@ -6,6 +6,7 @@ pub mod key_manager;
pub mod mix_traffic;
pub mod real_messages_control;
pub mod received_buffer;
#[cfg(feature = "reply-surb")]
pub mod reply_key_storage;
pub mod topology_control;
@@ -10,7 +10,6 @@ use nymsphinx::{
chunking::fragment::{FragmentIdentifier, COVER_FRAG_ID},
};
use std::sync::Arc;
use task::ShutdownListener;
/// Module responsible for listening for any data resembling acknowledgements from the network
/// and firing actions to remove them from the 'Pending' state.
@@ -18,7 +17,6 @@ pub(super) struct AcknowledgementListener {
ack_key: Arc<AckKey>,
ack_receiver: AcknowledgementReceiver,
action_sender: ActionSender,
shutdown: ShutdownListener,
}
impl AcknowledgementListener {
@@ -26,13 +24,11 @@ impl AcknowledgementListener {
ack_key: Arc<AckKey>,
ack_receiver: AcknowledgementReceiver,
action_sender: ActionSender,
shutdown: ShutdownListener,
) -> Self {
AcknowledgementListener {
ack_key,
ack_receiver,
action_sender,
shutdown,
}
}
@@ -67,28 +63,41 @@ impl AcknowledgementListener {
.unwrap();
}
pub(super) async fn run(&mut self) {
debug!("Started AcknowledgementListener");
while !self.shutdown.is_shutdown() {
async fn handle_ack_receiver_item(&mut self, item: Vec<Vec<u8>>) {
// realistically we would only be getting one ack at the time
for ack in item {
self.on_ack(ack).await;
}
}
#[cfg(not(target_arch = "wasm32"))]
pub(super) async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started AcknowledgementListener with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
acks = self.ack_receiver.next() => match acks {
Some(acks) => {
// realistically we would only be getting one ack at the time
for ack in acks {
self.on_ack(ack).await;
}
},
Some(acks) => self.handle_ack_receiver_item(acks).await,
None => {
log::trace!("AcknowledgementListener: Stopping since channel closed");
break;
}
},
_ = self.shutdown.recv() => {
_ = shutdown.recv() => {
log::trace!("AcknowledgementListener: Received shutdown");
}
}
}
assert!(self.shutdown.is_shutdown_poll());
assert!(shutdown.is_shutdown_poll());
log::debug!("AcknowledgementListener: Exiting");
}
#[cfg(target_arch = "wasm32")]
pub(super) async fn run(&mut self) {
debug!("Started AcknowledgementListener without graceful shutdown support");
while let Some(acks) = self.ack_receiver.next().await {
self.handle_ack_receiver_item(acks).await
}
}
}
@@ -12,7 +12,6 @@ use nymsphinx::Delay as SphinxDelay;
use std::collections::HashMap;
use std::sync::Arc;
use std::time::Duration;
use task::ShutdownListener;
pub(crate) type ActionSender = UnboundedSender<Action>;
@@ -100,16 +99,12 @@ pub(super) struct ActionController {
/// Channel for notifying `RetransmissionRequestListener` about expired acknowledgements.
retransmission_sender: RetransmissionRequestSender,
/// Listen for shutdown notifications
shutdown: ShutdownListener,
}
impl ActionController {
pub(super) fn new(
config: Config,
retransmission_sender: RetransmissionRequestSender,
shutdown: ShutdownListener,
) -> (Self, ActionSender) {
let (sender, receiver) = mpsc::unbounded();
(
@@ -119,7 +114,6 @@ impl ActionController {
pending_acks_timers: NonExhaustiveDelayQueue::new(),
incoming_actions: receiver,
retransmission_sender,
shutdown,
},
sender,
)
@@ -251,8 +245,11 @@ impl ActionController {
}
}
pub(super) async fn run(&mut self) {
while !self.shutdown.is_shutdown() {
#[cfg(not(target_arch = "wasm32"))]
pub(super) async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started ActionController with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
action = self.incoming_actions.next() => match action {
Some(action) => self.process_action(action),
@@ -270,12 +267,24 @@ impl ActionController {
break;
}
},
_ = self.shutdown.recv() => {
_ = shutdown.recv() => {
log::trace!("ActionController: Received shutdown");
}
}
}
assert!(self.shutdown.is_shutdown_poll());
assert!(shutdown.is_shutdown_poll());
log::debug!("ActionController: Exiting");
}
#[cfg(target_arch = "wasm32")]
pub(super) async fn run(&mut self) {
debug!("Started ActionController without graceful shutdown support");
loop {
tokio::select! {
action = self.incoming_actions.next() => self.process_action(action.unwrap()),
expired_ack = self.pending_acks_timers.next() => self.handle_expired_ack_timer(expired_ack.unwrap())
}
}
}
}
@@ -3,7 +3,6 @@
use super::action_controller::{Action, ActionSender};
use super::PendingAcknowledgement;
use crate::client::reply_key_storage::ReplyKeyStorage;
use crate::client::{
inbound_messages::{InputMessage, InputMessageReceiver},
real_messages_control::real_traffic_stream::{BatchRealMessageSender, RealMessage},
@@ -16,7 +15,9 @@ use nymsphinx::preparer::MessagePreparer;
use nymsphinx::{acknowledgements::AckKey, addressing::clients::Recipient};
use rand::{CryptoRng, Rng};
use std::sync::Arc;
use task::ShutdownListener;
#[cfg(feature = "reply-surb")]
use crate::client::reply_key_storage::ReplyKeyStorage;
/// Module responsible for dealing with the received messages: splitting them, creating acknowledgements,
/// putting everything into sphinx packets, etc.
@@ -32,8 +33,8 @@ where
action_sender: ActionSender,
real_message_sender: BatchRealMessageSender,
topology_access: TopologyAccessor,
#[cfg(feature = "reply-surb")]
reply_key_storage: ReplyKeyStorage,
shutdown: ShutdownListener,
}
impl<R> InputMessageListener<R>
@@ -51,8 +52,7 @@ where
action_sender: ActionSender,
real_message_sender: BatchRealMessageSender,
topology_access: TopologyAccessor,
reply_key_storage: ReplyKeyStorage,
shutdown: ShutdownListener,
#[cfg(feature = "reply-surb")] reply_key_storage: ReplyKeyStorage,
) -> Self {
InputMessageListener {
ack_key,
@@ -62,8 +62,8 @@ where
action_sender,
real_message_sender,
topology_access,
#[cfg(feature = "reply-surb")]
reply_key_storage,
shutdown,
}
}
@@ -121,12 +121,16 @@ where
.prepare_and_split_message(content, with_reply_surb, topology)
.expect("somehow the topology was invalid after all!");
#[cfg(feature = "reply-surb")]
if let Some(reply_key) = reply_key {
self.reply_key_storage
.insert_encryption_key(reply_key)
.expect("Failed to insert surb reply key to the store!")
}
#[cfg(not(feature = "reply-surb"))]
let _reply_key = reply_key;
// encrypt chunks, put them inside sphinx packets and generate acks
let mut pending_acks = Vec::with_capacity(split_message.len());
let mut real_messages = Vec::with_capacity(split_message.len());
@@ -184,9 +188,11 @@ where
}
}
pub(super) async fn run(&mut self) {
debug!("Started InputMessageListener");
while !self.shutdown.is_shutdown() {
#[cfg(not(target_arch = "wasm32"))]
pub(super) async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started InputMessageListener with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
input_msg = self.input_receiver.next() => match input_msg {
Some(input_msg) => {
@@ -197,12 +203,20 @@ where
break;
}
},
_ = self.shutdown.recv() => {
_ = shutdown.recv() => {
log::trace!("InputMessageListener: Received shutdown");
}
}
}
assert!(self.shutdown.is_shutdown_poll());
assert!(shutdown.is_shutdown_poll());
log::debug!("InputMessageListener: Exiting");
}
#[cfg(target_arch = "wasm32")]
pub(super) async fn run(&mut self) {
debug!("Started InputMessageListener without graceful shutdown support");
while let Some(input_msg) = self.input_receiver.next().await {
self.on_input_message(input_msg).await;
}
}
}
@@ -8,11 +8,12 @@ use self::{
sent_notification_listener::SentNotificationListener,
};
use super::real_traffic_stream::BatchRealMessageSender;
use crate::client::reply_key_storage::ReplyKeyStorage;
use crate::client::{inbound_messages::InputMessageReceiver, topology_control::TopologyAccessor};
use crate::spawn_future;
use futures::channel::mpsc;
use gateway_client::AcknowledgementReceiver;
use log::*;
use nymsphinx::params::PacketSize;
use nymsphinx::{
acknowledgements::AckKey,
addressing::clients::Recipient,
@@ -25,8 +26,9 @@ use std::{
sync::{Arc, Weak},
time::Duration,
};
use task::ShutdownListener;
use tokio::task::JoinHandle;
#[cfg(feature = "reply-surb")]
use crate::client::reply_key_storage::ReplyKeyStorage;
mod acknowledgement_listener;
mod action_controller;
@@ -120,6 +122,9 @@ pub(super) struct Config {
/// Average delay a data packet is going to get delayed at a single mixnode.
average_packet_delay: Duration,
/// Predefined packet size used for the encapsulated messages.
packet_size: PacketSize,
}
impl Config {
@@ -134,19 +139,25 @@ impl Config {
ack_wait_multiplier,
average_ack_delay,
average_packet_delay,
packet_size: Default::default(),
}
}
pub fn with_custom_packet_size(mut self, packet_size: PacketSize) -> Self {
self.packet_size = packet_size;
self
}
}
pub(super) struct AcknowledgementController<R>
where
R: CryptoRng + Rng,
{
acknowledgement_listener: Option<AcknowledgementListener>,
input_message_listener: Option<InputMessageListener<R>>,
retransmission_request_listener: Option<RetransmissionRequestListener<R>>,
sent_notification_listener: Option<SentNotificationListener>,
action_controller: Option<ActionController>,
acknowledgement_listener: AcknowledgementListener,
input_message_listener: InputMessageListener<R>,
retransmission_request_listener: RetransmissionRequestListener<R>,
sent_notification_listener: SentNotificationListener,
action_controller: ActionController,
}
impl<R> AcknowledgementController<R>
@@ -160,30 +171,29 @@ where
topology_access: TopologyAccessor,
ack_key: Arc<AckKey>,
ack_recipient: Recipient,
reply_key_storage: ReplyKeyStorage,
connectors: AcknowledgementControllerConnectors,
shutdown: ShutdownListener,
#[cfg(feature = "reply-surb")] reply_key_storage: ReplyKeyStorage,
) -> Self {
let (retransmission_tx, retransmission_rx) = mpsc::unbounded();
let action_config =
action_controller::Config::new(config.ack_wait_addition, config.ack_wait_multiplier);
let (action_controller, action_sender) =
ActionController::new(action_config, retransmission_tx, shutdown.clone());
ActionController::new(action_config, retransmission_tx);
let message_preparer = MessagePreparer::new(
rng,
ack_recipient,
config.average_packet_delay,
config.average_ack_delay,
);
)
.with_custom_real_message_packet_size(config.packet_size);
// will listen for any acks coming from the network
let acknowledgement_listener = AcknowledgementListener::new(
Arc::clone(&ack_key),
connectors.ack_receiver,
action_sender.clone(),
shutdown.clone(),
);
// will listen for any new messages from the client
@@ -195,8 +205,8 @@ where
action_sender.clone(),
connectors.real_message_sender.clone(),
topology_access.clone(),
#[cfg(feature = "reply-surb")]
reply_key_storage,
shutdown.clone(),
);
// will listen for any ack timeouts and trigger retransmission
@@ -208,75 +218,95 @@ where
connectors.real_message_sender,
retransmission_rx,
topology_access,
shutdown.clone(),
);
// will listen for events indicating the packet was sent through the network so that
// the retransmission timer should be started.
let sent_notification_listener =
SentNotificationListener::new(connectors.sent_notifier, action_sender, shutdown);
SentNotificationListener::new(connectors.sent_notifier, action_sender);
AcknowledgementController {
acknowledgement_listener: Some(acknowledgement_listener),
input_message_listener: Some(input_message_listener),
retransmission_request_listener: Some(retransmission_request_listener),
sent_notification_listener: Some(sent_notification_listener),
action_controller: Some(action_controller),
acknowledgement_listener,
input_message_listener,
retransmission_request_listener,
sent_notification_listener,
action_controller,
}
}
pub(super) async fn run(&mut self) {
let mut acknowledgement_listener = self.acknowledgement_listener.take().unwrap();
let mut input_message_listener = self.input_message_listener.take().unwrap();
let mut retransmission_request_listener =
self.retransmission_request_listener.take().unwrap();
let mut sent_notification_listener = self.sent_notification_listener.take().unwrap();
let mut action_controller = self.action_controller.take().unwrap();
#[cfg(not(target_arch = "wasm32"))]
pub(super) fn start_with_shutdown(self, shutdown: task::ShutdownListener) {
let mut acknowledgement_listener = self.acknowledgement_listener;
let mut input_message_listener = self.input_message_listener;
let mut retransmission_request_listener = self.retransmission_request_listener;
let mut sent_notification_listener = self.sent_notification_listener;
let mut action_controller = self.action_controller;
// the below are log messages are errors as at the current stage we do not expect any of
// the task to ever finish. This will of course change once we introduce
// graceful shutdowns.
let ack_listener_fut = tokio::spawn(async move {
acknowledgement_listener.run().await;
debug!("The acknowledgement listener has finished execution!");
let shutdown_handle = shutdown.clone();
spawn_future(async move {
acknowledgement_listener
});
let input_listener_fut = tokio::spawn(async move {
input_message_listener.run().await;
debug!("The input listener has finished execution!");
input_message_listener
});
let retransmission_req_fut = tokio::spawn(async move {
retransmission_request_listener.run().await;
debug!("The retransmission request listener has finished execution!");
retransmission_request_listener
});
let sent_notification_fut = tokio::spawn(async move {
sent_notification_listener.run().await;
debug!("The sent notification listener has finished execution!");
sent_notification_listener
});
let action_controller_fut = tokio::spawn(async move {
action_controller.run().await;
debug!("The controller has finished execution!");
action_controller
.run_with_shutdown(shutdown_handle)
.await;
debug!("The acknowledgement listener has finished execution!");
});
// technically we don't have to bring `AcknowledgementController` back to a valid state
// but we can do it, so why not? Perhaps it might be useful if we wanted to allow
// for restarts of certain modules without killing the entire process.
self.acknowledgement_listener = Some(ack_listener_fut.await.unwrap());
self.input_message_listener = Some(input_listener_fut.await.unwrap());
self.retransmission_request_listener = Some(retransmission_req_fut.await.unwrap());
self.sent_notification_listener = Some(sent_notification_fut.await.unwrap());
self.action_controller = Some(action_controller_fut.await.unwrap());
let shutdown_handle = shutdown.clone();
spawn_future(async move {
input_message_listener
.run_with_shutdown(shutdown_handle)
.await;
debug!("The input listener has finished execution!");
});
let shutdown_handle = shutdown.clone();
spawn_future(async move {
retransmission_request_listener
.run_with_shutdown(shutdown_handle)
.await;
debug!("The retransmission request listener has finished execution!");
});
let shutdown_handle = shutdown.clone();
spawn_future(async move {
sent_notification_listener
.run_with_shutdown(shutdown_handle)
.await;
debug!("The sent notification listener has finished execution!");
});
spawn_future(async move {
action_controller.run_with_shutdown(shutdown).await;
debug!("The controller has finished execution!");
});
}
#[allow(dead_code)]
pub(super) fn start(mut self) -> JoinHandle<Self> {
tokio::spawn(async move {
self.run().await;
self
})
#[cfg(target_arch = "wasm32")]
pub(super) fn start(self) {
let mut acknowledgement_listener = self.acknowledgement_listener;
let mut input_message_listener = self.input_message_listener;
let mut retransmission_request_listener = self.retransmission_request_listener;
let mut sent_notification_listener = self.sent_notification_listener;
let mut action_controller = self.action_controller;
spawn_future(async move {
acknowledgement_listener.run().await;
error!("The acknowledgement listener has finished execution!");
});
spawn_future(async move {
input_message_listener.run().await;
error!("The input listener has finished execution!");
});
spawn_future(async move {
retransmission_request_listener.run().await;
error!("The retransmission request listener has finished execution!");
});
spawn_future(async move {
sent_notification_listener.run().await;
error!("The sent notification listener has finished execution!");
});
spawn_future(async move {
action_controller.run().await;
error!("The controller has finished execution!");
});
}
}
@@ -14,7 +14,6 @@ use nymsphinx::preparer::MessagePreparer;
use nymsphinx::{acknowledgements::AckKey, addressing::clients::Recipient};
use rand::{CryptoRng, Rng};
use std::sync::{Arc, Weak};
use task::ShutdownListener;
// responsible for packet retransmission upon fired timer
pub(super) struct RetransmissionRequestListener<R>
@@ -28,7 +27,6 @@ where
real_message_sender: BatchRealMessageSender,
request_receiver: RetransmissionRequestReceiver,
topology_access: TopologyAccessor,
shutdown: ShutdownListener,
}
impl<R> RetransmissionRequestListener<R>
@@ -44,7 +42,6 @@ where
real_message_sender: BatchRealMessageSender,
request_receiver: RetransmissionRequestReceiver,
topology_access: TopologyAccessor,
shutdown: ShutdownListener,
) -> Self {
RetransmissionRequestListener {
ack_key,
@@ -54,7 +51,6 @@ where
real_message_sender,
request_receiver,
topology_access,
shutdown,
}
}
@@ -124,10 +120,11 @@ where
.unwrap();
}
pub(super) async fn run(&mut self) {
debug!("Started RetransmissionRequestListener");
#[cfg(not(target_arch = "wasm32"))]
pub(super) async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started RetransmissionRequestListener with graceful shutdown support");
while !self.shutdown.is_shutdown() {
while !shutdown.is_shutdown() {
tokio::select! {
timed_out_ack = self.request_receiver.next() => match timed_out_ack {
Some(timed_out_ack) => self.on_retransmission_request(timed_out_ack).await,
@@ -136,12 +133,21 @@ where
break;
}
},
_ = self.shutdown.recv() => {
_ = shutdown.recv() => {
log::trace!("RetransmissionRequestListener: Received shutdown");
}
}
}
assert!(self.shutdown.is_shutdown_poll());
assert!(shutdown.is_shutdown_poll());
log::debug!("RetransmissionRequestListener: Exiting");
}
#[cfg(target_arch = "wasm32")]
pub(super) async fn run(&mut self) {
debug!("Started RetransmissionRequestListener without graceful shutdown support");
while let Some(timed_out_ack) = self.request_receiver.next().await {
self.on_retransmission_request(timed_out_ack).await;
}
}
}
@@ -6,7 +6,6 @@ use super::SentPacketNotificationReceiver;
use futures::StreamExt;
use log::*;
use nymsphinx::chunking::fragment::{FragmentIdentifier, COVER_FRAG_ID};
use task::ShutdownListener;
/// Module responsible for starting up retransmission timers.
/// It is required because when we send our packet to the `real traffic stream` controlled
@@ -15,19 +14,16 @@ use task::ShutdownListener;
pub(super) struct SentNotificationListener {
sent_notifier: SentPacketNotificationReceiver,
action_sender: ActionSender,
shutdown: ShutdownListener,
}
impl SentNotificationListener {
pub(super) fn new(
sent_notifier: SentPacketNotificationReceiver,
action_sender: ActionSender,
shutdown: ShutdownListener,
) -> Self {
SentNotificationListener {
sent_notifier,
action_sender,
shutdown,
}
}
@@ -46,9 +42,11 @@ impl SentNotificationListener {
.unwrap();
}
pub(super) async fn run(&mut self) {
debug!("Started SentNotificationListener");
while !self.shutdown.is_shutdown() {
#[cfg(not(target_arch = "wasm32"))]
pub(super) async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started SentNotificationListener with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
frag_id = self.sent_notifier.next() => match frag_id {
Some(frag_id) => {
@@ -59,12 +57,21 @@ impl SentNotificationListener {
break;
}
},
_ = self.shutdown.recv() => {
_ = shutdown.recv() => {
log::trace!("SentNotificationListener: Received shutdown");
}
}
}
assert!(self.shutdown.is_shutdown_poll());
assert!(shutdown.is_shutdown_poll());
log::debug!("SentNotificationListener: Exiting");
}
#[cfg(target_arch = "wasm32")]
pub(super) async fn run(&mut self) {
debug!("Started SentNotificationListener without graceful shutdown support");
while let Some(frag_id) = self.sent_notifier.next().await {
self.on_sent_message(frag_id).await;
}
}
}
@@ -9,21 +9,23 @@ use self::{
acknowledgement_control::AcknowledgementController, real_traffic_stream::OutQueueControl,
};
use crate::client::real_messages_control::acknowledgement_control::AcknowledgementControllerConnectors;
use crate::client::reply_key_storage::ReplyKeyStorage;
use crate::client::{
inbound_messages::InputMessageReceiver, mix_traffic::BatchMixMessageSender,
topology_control::TopologyAccessor,
};
use crate::spawn_future;
use futures::channel::mpsc;
use gateway_client::AcknowledgementReceiver;
use log::*;
use nymsphinx::acknowledgements::AckKey;
use nymsphinx::addressing::clients::Recipient;
use nymsphinx::params::PacketSize;
use rand::{rngs::OsRng, CryptoRng, Rng};
use std::sync::Arc;
use std::time::Duration;
use task::ShutdownListener;
use tokio::task::JoinHandle;
#[cfg(feature = "reply-surb")]
use crate::client::reply_key_storage::ReplyKeyStorage;
mod acknowledgement_control;
mod real_traffic_stream;
@@ -50,9 +52,18 @@ pub struct Config {
/// Average delay an acknowledgement packet is going to get delayed at a single mixnode.
average_ack_delay_duration: Duration,
/// Controls whether the main packet stream constantly produces packets according to the predefined
/// poisson distribution.
disable_main_poisson_packet_distribution: bool,
/// Predefined packet size used for the encapsulated messages.
packet_size: PacketSize,
}
impl Config {
// TODO: change the config into a builder
#[allow(clippy::too_many_arguments)]
pub fn new(
ack_key: Arc<AckKey>,
ack_wait_multiplier: f64,
@@ -60,6 +71,7 @@ impl Config {
average_ack_delay_duration: Duration,
average_message_sending_delay: Duration,
average_packet_delay_duration: Duration,
disable_main_poisson_packet_distribution: bool,
self_recipient: Recipient,
) -> Self {
Config {
@@ -70,16 +82,22 @@ impl Config {
average_message_sending_delay,
average_packet_delay_duration,
average_ack_delay_duration,
disable_main_poisson_packet_distribution,
packet_size: Default::default(),
}
}
pub fn set_custom_packet_size(&mut self, packet_size: PacketSize) {
self.packet_size = packet_size;
}
}
pub struct RealMessagesController<R>
where
R: CryptoRng + Rng,
{
out_queue_control: Option<OutQueueControl<R>>,
ack_control: Option<AcknowledgementController<R>>,
out_queue_control: OutQueueControl<R>,
ack_control: AcknowledgementController<R>,
}
// obviously when we finally make shared rng that is on 'higher' level, this should become
@@ -91,8 +109,7 @@ impl RealMessagesController<OsRng> {
input_receiver: InputMessageReceiver,
mix_sender: BatchMixMessageSender,
topology_access: TopologyAccessor,
reply_key_storage: ReplyKeyStorage,
shutdown: ShutdownListener,
#[cfg(feature = "reply-surb")] reply_key_storage: ReplyKeyStorage,
) -> Self {
let rng = OsRng;
@@ -111,7 +128,8 @@ impl RealMessagesController<OsRng> {
config.ack_wait_multiplier,
config.average_ack_delay_duration,
config.average_packet_delay_duration,
);
)
.with_custom_packet_size(config.packet_size);
let ack_control = AcknowledgementController::new(
ack_control_config,
@@ -119,16 +137,18 @@ impl RealMessagesController<OsRng> {
topology_access.clone(),
Arc::clone(&config.ack_key),
config.self_recipient,
reply_key_storage,
ack_controller_connectors,
shutdown.clone(),
#[cfg(feature = "reply-surb")]
reply_key_storage,
);
let out_queue_config = real_traffic_stream::Config::new(
config.average_ack_delay_duration,
config.average_packet_delay_duration,
config.average_message_sending_delay,
);
config.disable_main_poisson_packet_distribution,
)
.with_custom_cover_packet_size(config.packet_size);
let out_queue_control = OutQueueControl::new(
out_queue_config,
@@ -139,44 +159,36 @@ impl RealMessagesController<OsRng> {
rng,
config.self_recipient,
topology_access,
shutdown,
);
RealMessagesController {
out_queue_control: Some(out_queue_control),
ack_control: Some(ack_control),
out_queue_control,
ack_control,
}
}
pub(super) async fn run(&mut self) {
let mut out_queue_control = self.out_queue_control.take().unwrap();
let mut ack_control = self.ack_control.take().unwrap();
#[cfg(not(target_arch = "wasm32"))]
pub fn start_with_shutdown(self, shutdown: task::ShutdownListener) {
let mut out_queue_control = self.out_queue_control;
let ack_control = self.ack_control;
// the below are log messages are errors as at the current stage we do not expect any of
// the task to ever finish. This will of course change once we introduce
// graceful shutdowns.
let out_queue_control_fut = tokio::spawn(async move {
out_queue_control.run_out_queue_control().await;
let shutdown_handle = shutdown.clone();
spawn_future(async move {
out_queue_control.run_with_shutdown(shutdown_handle).await;
debug!("The out queue controller has finished execution!");
out_queue_control
});
let ack_control_fut = tokio::spawn(async move {
ack_control.run().await;
debug!("The acknowledgement controller has finished execution!");
ack_control
});
// technically we don't have to bring `RealMessagesController` back to a valid state
// but we can do it, so why not? Perhaps it might be useful if we wanted to allow
// for restarts of certain modules without killing the entire process.
self.out_queue_control = Some(out_queue_control_fut.await.unwrap());
self.ack_control = Some(ack_control_fut.await.unwrap());
ack_control.start_with_shutdown(shutdown);
}
pub fn start(mut self) -> JoinHandle<Self> {
tokio::spawn(async move {
self.run().await;
self
})
#[cfg(target_arch = "wasm32")]
pub fn start(self) {
let mut out_queue_control = self.out_queue_control;
let ack_control = self.ack_control;
spawn_future(async move {
out_queue_control.run().await;
debug!("The out queue controller has finished execution!");
});
ack_control.start();
}
}
@@ -19,9 +19,14 @@ use std::collections::VecDeque;
use std::pin::Pin;
use std::sync::Arc;
use std::time::Duration;
use task::ShutdownListener;
use nymsphinx::params::PacketSize;
#[cfg(not(target_arch = "wasm32"))]
use tokio::time;
#[cfg(target_arch = "wasm32")]
use wasm_timer;
/// Configurable parameters of the `OutQueueControl`
pub(crate) struct Config {
/// Average delay an acknowledgement packet is going to get delay at a single mixnode.
@@ -32,6 +37,13 @@ pub(crate) struct Config {
/// Average delay between sending subsequent packets.
average_message_sending_delay: Duration,
/// Controls whether the stream constantly produces packets according to the predefined
/// poisson distribution.
disable_poisson_packet_distribution: bool,
/// Predefined packet size used for the loop cover messages.
cover_packet_size: PacketSize,
}
impl Config {
@@ -39,13 +51,21 @@ impl Config {
average_ack_delay: Duration,
average_packet_delay: Duration,
average_message_sending_delay: Duration,
disable_poisson_packet_distribution: bool,
) -> Self {
Config {
average_ack_delay,
average_packet_delay,
average_message_sending_delay,
disable_poisson_packet_distribution,
cover_packet_size: Default::default(),
}
}
pub fn with_custom_cover_packet_size(mut self, packet_size: PacketSize) -> Self {
self.cover_packet_size = packet_size;
self
}
}
pub(crate) struct OutQueueControl<R>
@@ -63,7 +83,11 @@ where
/// Internal state, determined by `average_message_sending_delay`,
/// used to keep track of when a next packet should be sent out.
next_delay: Pin<Box<time::Sleep>>,
#[cfg(not(target_arch = "wasm32"))]
next_delay: Option<Pin<Box<time::Sleep>>>,
#[cfg(target_arch = "wasm32")]
next_delay: Option<Pin<Box<wasm_timer::Delay>>>,
/// Channel used for sending prepared sphinx packets to `MixTrafficController` that sends them
/// out to the network without any further delays.
@@ -84,9 +108,6 @@ where
/// Buffer containing all real messages received. It is first exhausted before more are pulled.
received_buffer: VecDeque<RealMessage>,
/// Listens for shutdown signals
shutdown: ShutdownListener,
}
pub(crate) struct RealMessage {
@@ -113,55 +134,6 @@ pub(crate) enum StreamMessage {
Real(Box<RealMessage>),
}
impl<R> Stream for OutQueueControl<R>
where
R: CryptoRng + Rng + Unpin,
{
type Item = StreamMessage;
fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> {
// it is not yet time to return a message
if self.next_delay.as_mut().poll(cx).is_pending() {
return Poll::Pending;
};
// we know it's time to send a message, so let's prepare delay for the next one
// Get the `now` by looking at the current `delay` deadline
let avg_delay = self.config.average_message_sending_delay;
let now = self.next_delay.deadline();
let next_poisson_delay = sample_poisson_duration(&mut self.rng, avg_delay);
// The next interval value is `next_poisson_delay` after the one that just
// yielded.
let next = now + next_poisson_delay;
self.next_delay.as_mut().reset(next);
// check if we have anything immediately available
if let Some(real_available) = self.received_buffer.pop_front() {
return Poll::Ready(Some(StreamMessage::Real(Box::new(real_available))));
}
// decide what kind of message to send
match Pin::new(&mut self.real_receiver).poll_next(cx) {
// in the case our real message channel stream was closed, we should also indicate we are closed
// (and whoever is using the stream should panic)
Poll::Ready(None) => Poll::Ready(None),
// if there are more messages available, return first one and store the rest
Poll::Ready(Some(real_messages)) => {
self.received_buffer = real_messages.into();
// we MUST HAVE received at least ONE message
Poll::Ready(Some(StreamMessage::Real(Box::new(
self.received_buffer.pop_front().unwrap(),
))))
}
// otherwise construct a dummy one
Poll::Pending => Poll::Ready(Some(StreamMessage::Cover)),
}
}
}
impl<R> OutQueueControl<R>
where
R: CryptoRng + Rng + Unpin,
@@ -178,20 +150,18 @@ where
rng: R,
our_full_destination: Recipient,
topology_access: TopologyAccessor,
shutdown: ShutdownListener,
) -> Self {
OutQueueControl {
config,
ack_key,
sent_notifier,
next_delay: Box::pin(time::sleep(Default::default())),
next_delay: None,
mix_tx,
real_receiver,
our_full_destination,
rng,
topology_access,
received_buffer: VecDeque::with_capacity(0), // we won't be putting any data into this guy directly
shutdown,
}
}
@@ -228,10 +198,11 @@ where
generate_loop_cover_packet(
&mut self.rng,
topology_ref,
&self.ack_key,
&*self.ack_key,
&self.our_full_destination,
self.config.average_ack_delay,
self.config.average_packet_delay,
self.config.cover_packet_size,
)
.expect("Somehow failed to generate a loop cover message with a valid topology")
}
@@ -246,13 +217,10 @@ where
// - the receiver channel is closed
// in either case there's no recovery and we can only panic
if let Err(err) = self.mix_tx.unbounded_send(vec![next_message]) {
if self.shutdown.is_shutdown_poll() {
log::info!("Failed to send (shutdown detected)");
} else {
// We don't try to limp along, panic to avoid continuing in a potentially
// inconsistent state
panic!("{err}");
}
log::warn!(
"Failed to send {} packets (possible process shutdown?)",
err.into_inner().len()
);
}
// JS: Not entirely sure why or how it fixes stuff, but without the yield call,
@@ -260,18 +228,125 @@ where
// JS2: Basically it was the case that with high enough rate, the stream had already a next value
// ready and hence was immediately re-scheduled causing other tasks to be starved;
// yield makes it go back the scheduling queue regardless of its value availability
// TODO: temporary and BAD workaround for wasm (we should find a way to yield here in wasm)
#[cfg(not(target_arch = "wasm32"))]
tokio::task::yield_now().await;
}
// Send messages at certain rate and if no real traffic is available, send cover message.
async fn run_normal_out_queue(&mut self) {
// we should set initial delay only when we actually start the stream
self.next_delay = Box::pin(time::sleep(sample_poisson_duration(
&mut self.rng,
self.config.average_message_sending_delay,
)));
fn poll_poisson(&mut self, cx: &mut Context<'_>) -> Poll<Option<StreamMessage>> {
if let Some(ref mut next_delay) = &mut self.next_delay {
// it is not yet time to return a message
if next_delay.as_mut().poll(cx).is_pending() {
return Poll::Pending;
};
// we know it's time to send a message, so let's prepare delay for the next one
// Get the `now` by looking at the current `delay` deadline
let avg_delay = self.config.average_message_sending_delay;
let next_poisson_delay = sample_poisson_duration(&mut self.rng, avg_delay);
// The next interval value is `next_poisson_delay` after the one that just
// yielded.
#[cfg(not(target_arch = "wasm32"))]
{
let now = next_delay.deadline();
let next = now + next_poisson_delay;
next_delay.as_mut().reset(next);
}
#[cfg(target_arch = "wasm32")]
{
next_delay.as_mut().reset(next_poisson_delay);
}
// check if we have anything immediately available
if let Some(real_available) = self.received_buffer.pop_front() {
return Poll::Ready(Some(StreamMessage::Real(Box::new(real_available))));
}
// decide what kind of message to send
match Pin::new(&mut self.real_receiver).poll_next(cx) {
// in the case our real message channel stream was closed, we should also indicate we are closed
// (and whoever is using the stream should panic)
Poll::Ready(None) => Poll::Ready(None),
// if there are more messages available, return first one and store the rest
Poll::Ready(Some(real_messages)) => {
self.received_buffer = real_messages.into();
// we MUST HAVE received at least ONE message
Poll::Ready(Some(StreamMessage::Real(Box::new(
self.received_buffer.pop_front().unwrap(),
))))
}
// otherwise construct a dummy one
Poll::Pending => Poll::Ready(Some(StreamMessage::Cover)),
}
} else {
// we never set an initial delay - let's do it now
cx.waker().wake_by_ref();
let sampled =
sample_poisson_duration(&mut self.rng, self.config.average_message_sending_delay);
#[cfg(not(target_arch = "wasm32"))]
let next_delay = Box::pin(time::sleep(sampled));
#[cfg(target_arch = "wasm32")]
let next_delay = Box::pin(wasm_timer::Delay::new(sampled));
self.next_delay = Some(next_delay);
Poll::Pending
}
}
fn poll_immediate(&mut self, cx: &mut Context<'_>) -> Poll<Option<StreamMessage>> {
// check if we have anything immediately available
if let Some(real_available) = self.received_buffer.pop_front() {
// if there are more messages immediately available, notify the runtime
// because we should be polled again
if !self.received_buffer.is_empty() {
cx.waker().wake_by_ref()
}
return Poll::Ready(Some(StreamMessage::Real(Box::new(real_available))));
}
match Pin::new(&mut self.real_receiver).poll_next(cx) {
// in the case our real message channel stream was closed, we should also indicate we are closed
// (and whoever is using the stream should panic)
Poll::Ready(None) => Poll::Ready(None),
// if there are more messages available, return first one and store the rest
Poll::Ready(Some(real_messages)) => {
self.received_buffer = real_messages.into();
// we MUST HAVE received at least ONE message
Poll::Ready(Some(StreamMessage::Real(Box::new(
self.received_buffer.pop_front().unwrap(),
))))
}
// if there's nothing, then there's nothing
Poll::Pending => Poll::Pending,
}
}
fn poll_next_message(
mut self: Pin<&mut Self>,
cx: &mut Context<'_>,
) -> Poll<Option<StreamMessage>> {
if self.config.disable_poisson_packet_distribution {
self.poll_immediate(cx)
} else {
self.poll_poisson(cx)
}
}
#[cfg(not(target_arch = "wasm32"))]
pub(super) async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started OutQueueControl with graceful shutdown support");
let mut shutdown = self.shutdown.clone();
while !shutdown.is_shutdown() {
tokio::select! {
biased;
@@ -293,8 +368,23 @@ where
log::debug!("OutQueueControl: Exiting");
}
pub(crate) async fn run_out_queue_control(&mut self) {
debug!("Starting out queue controller...");
self.run_normal_out_queue().await
#[cfg(target_arch = "wasm32")]
pub(super) async fn run(&mut self) {
debug!("Started OutQueueControl without graceful shutdown support");
while let Some(next_message) = self.next().await {
self.on_message(next_message).await;
}
}
}
impl<R> Stream for OutQueueControl<R>
where
R: CryptoRng + Rng + Unpin,
{
type Item = StreamMessage;
fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> {
self.poll_next_message(cx)
}
}
+148 -84
View File
@@ -1,24 +1,25 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::client::reply_key_storage::ReplyKeyStorage;
use crate::client::SHUTDOWN_HAS_BEEN_SIGNALLED;
use crate::spawn_future;
use crypto::asymmetric::encryption;
use crypto::symmetric::stream_cipher;
use crypto::Digest;
use futures::channel::mpsc;
use futures::lock::Mutex;
use futures::StreamExt;
use gateway_client::MixnetMessageReceiver;
use log::*;
use nymsphinx::anonymous_replies::{encryption_key::EncryptionKeyDigest, SurbEncryptionKey};
use nymsphinx::params::{ReplySurbEncryptionAlgorithm, ReplySurbKeyDigestAlgorithm};
use nymsphinx::receiver::{MessageReceiver, MessageRecoveryError, ReconstructedMessage};
use std::collections::HashSet;
use std::sync::atomic::Ordering;
use std::sync::Arc;
use task::ShutdownListener;
use tokio::task::JoinHandle;
#[cfg(feature = "reply-surb")]
use crate::client::reply_key_storage::ReplyKeyStorage;
#[cfg(feature = "reply-surb")]
use crypto::{symmetric::stream_cipher, Digest};
#[cfg(feature = "reply-surb")]
use nymsphinx::anonymous_replies::{encryption_key::EncryptionKeyDigest, SurbEncryptionKey};
#[cfg(feature = "reply-surb")]
use nymsphinx::params::{ReplySurbEncryptionAlgorithm, ReplySurbKeyDigestAlgorithm};
// Buffer Requests to say "hey, send any reconstructed messages to this channel"
// or to say "hey, I'm going offline, don't send anything more to me. Just buffer them instead"
@@ -116,13 +117,14 @@ struct ReceivedMessagesBuffer {
/// Storage containing keys to all [`ReplySURB`]s ever sent out that we did not receive back.
// There's no need to put it behind a Mutex since it's already properly concurrent
#[cfg(feature = "reply-surb")]
reply_key_storage: ReplyKeyStorage,
}
impl ReceivedMessagesBuffer {
fn new(
local_encryption_keypair: Arc<encryption::KeyPair>,
reply_key_storage: ReplyKeyStorage,
#[cfg(feature = "reply-surb")] reply_key_storage: ReplyKeyStorage,
) -> Self {
ReceivedMessagesBuffer {
inner: Arc::new(Mutex::new(ReceivedMessagesBufferInner {
@@ -132,6 +134,7 @@ impl ReceivedMessagesBuffer {
message_sender: None,
recently_reconstructed: HashSet::new(),
})),
#[cfg(feature = "reply-surb")]
reply_key_storage,
}
}
@@ -180,6 +183,7 @@ impl ReceivedMessagesBuffer {
self.inner.lock().await.messages.extend(msgs)
}
#[cfg(feature = "reply-surb")]
fn process_received_reply(
reply_ciphertext: &[u8],
reply_key: SurbEncryptionKey,
@@ -212,38 +216,50 @@ impl ReceivedMessagesBuffer {
let mut completed_messages = Vec::new();
let mut inner_guard = self.inner.lock().await;
let reply_surb_digest_size = ReplySurbKeyDigestAlgorithm::output_size();
// first check if this is a reply or a chunked message
// TODO: verify with @AP if this way of doing it is safe or whether it could
// cause some attacks due to, I don't know, stupid edge case collisions?
// Update: this DOES introduce a possible leakage: https://github.com/nymtech/nym/issues/296
for msg in msgs {
let possible_key_digest =
EncryptionKeyDigest::clone_from_slice(&msg[..reply_surb_digest_size]);
// TODO:
// 1. make it nicer
// 2. make it not feature-locked
// check first `HasherOutputSize` bytes if they correspond to known encryption key
// if yes - this is a reply message
// TODO: this might be a bottleneck - since the keys are stored on disk we, presumably,
// are doing a disk operation every single received fragment
if let Some(reply_encryption_key) = self
.reply_key_storage
.get_and_remove_encryption_key(possible_key_digest)
.expect("storage operation failed!")
#[cfg(feature = "reply-surb")]
{
if let Some(completed_message) = Self::process_received_reply(
&msg[reply_surb_digest_size..],
reply_encryption_key,
) {
completed_messages.push(completed_message)
}
} else {
// otherwise - it's a 'normal' message
if let Some(completed_message) = inner_guard.process_received_fragment(msg) {
completed_messages.push(completed_message)
let reply_surb_digest_size = ReplySurbKeyDigestAlgorithm::output_size();
let possible_key_digest =
EncryptionKeyDigest::clone_from_slice(&msg[..reply_surb_digest_size]);
// check first `HasherOutputSize` bytes if they correspond to known encryption key
// if yes - this is a reply message
// TODO: this might be a bottleneck - since the keys are stored on disk we, presumably,
// are doing a disk operation every single received fragment
if let Some(reply_encryption_key) = self
.reply_key_storage
.get_and_remove_encryption_key(possible_key_digest)
.expect("storage operation failed!")
{
if let Some(completed_message) = Self::process_received_reply(
&msg[reply_surb_digest_size..],
reply_encryption_key,
) {
completed_messages.push(completed_message)
}
} else {
// otherwise - it's a 'normal' message
if let Some(completed_message) = inner_guard.process_received_fragment(msg) {
completed_messages.push(completed_message)
}
}
}
#[cfg(not(feature = "reply-surb"))]
if let Some(completed_message) = inner_guard.process_received_fragment(msg) {
completed_messages.push(completed_message)
}
}
if !completed_messages.is_empty() {
@@ -293,72 +309,97 @@ impl RequestReceiver {
}
}
fn start(mut self) -> JoinHandle<()> {
tokio::spawn(async move {
loop {
tokio::select! {
request = self.query_receiver.next() => {
match request {
Some(ReceivedBufferMessage::ReceiverAnnounce(sender)) => {
self.received_buffer.connect_sender(sender).await;
}
Some(ReceivedBufferMessage::ReceiverDisconnect) => {
self.received_buffer.disconnect_sender().await
}
None => {
log::trace!("RequestReceiver: Stopping since channel closed");
break;
},
}
},
};
async fn handle_message(&mut self, message: ReceivedBufferMessage) {
match message {
ReceivedBufferMessage::ReceiverAnnounce(sender) => {
self.received_buffer.connect_sender(sender).await;
}
ReceivedBufferMessage::ReceiverDisconnect => {
self.received_buffer.disconnect_sender().await
}
}
}
assert!(SHUTDOWN_HAS_BEEN_SIGNALLED.load(Ordering::Relaxed));
log::debug!("RequestReceiver: Exiting");
})
#[cfg(not(target_arch = "wasm32"))]
async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started RequestReceiver with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
biased;
_ = shutdown.recv() => {
log::trace!("RequestReceiver: Received shutdown");
}
request = self.query_receiver.next() => {
match request {
Some(message) => self.handle_message(message).await,
None => {
log::trace!("RequestReceiver: Stopping since channel closed");
break;
},
}
},
}
}
assert!(shutdown.is_shutdown_poll());
log::debug!("RequestReceiver: Exiting");
}
#[cfg(target_arch = "wasm32")]
async fn run(&mut self) {
debug!("Started RequestReceiver without graceful shutdown support");
while let Some(message) = self.query_receiver.next().await {
self.handle_message(message).await
}
}
}
struct FragmentedMessageReceiver {
received_buffer: ReceivedMessagesBuffer,
mixnet_packet_receiver: MixnetMessageReceiver,
shutdown: ShutdownListener,
}
impl FragmentedMessageReceiver {
fn new(
received_buffer: ReceivedMessagesBuffer,
mixnet_packet_receiver: MixnetMessageReceiver,
shutdown: ShutdownListener,
) -> Self {
FragmentedMessageReceiver {
received_buffer,
mixnet_packet_receiver,
shutdown,
}
}
fn start(mut self) -> JoinHandle<()> {
tokio::spawn(async move {
while !self.shutdown.is_shutdown() {
tokio::select! {
new_messages = self.mixnet_packet_receiver.next() => match new_messages {
Some(new_messages) => {
self.received_buffer.handle_new_received(new_messages).await;
}
None => {
log::trace!("FragmentedMessageReceiver: Stopping since channel closed");
break;
}
},
_ = self.shutdown.recv() => {
log::trace!("FragmentedMessageReceiver: Received shutdown");
#[cfg(not(target_arch = "wasm32"))]
async fn run_with_shutdown(&mut self, mut shutdown: task::ShutdownListener) {
debug!("Started FragmentedMessageReceiver with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
new_messages = self.mixnet_packet_receiver.next() => match new_messages {
Some(new_messages) => {
self.received_buffer.handle_new_received(new_messages).await;
}
None => {
log::trace!("FragmentedMessageReceiver: Stopping since channel closed");
break;
}
},
_ = shutdown.recv() => {
log::trace!("FragmentedMessageReceiver: Received shutdown");
}
}
assert!(self.shutdown.is_shutdown_poll());
log::debug!("FragmentedMessageReceiver: Exiting");
})
}
assert!(shutdown.is_shutdown_poll());
log::debug!("FragmentedMessageReceiver: Exiting");
}
#[cfg(target_arch = "wasm32")]
async fn run(&mut self) {
debug!("Started FragmentedMessageReceiver without graceful shutdown support");
while let Some(new_messages) = self.mixnet_packet_receiver.next().await {
self.received_buffer.handle_new_received(new_messages).await;
}
}
}
@@ -372,25 +413,48 @@ impl ReceivedMessagesBufferController {
local_encryption_keypair: Arc<encryption::KeyPair>,
query_receiver: ReceivedBufferRequestReceiver,
mixnet_packet_receiver: MixnetMessageReceiver,
reply_key_storage: ReplyKeyStorage,
shutdown: ShutdownListener,
#[cfg(feature = "reply-surb")] reply_key_storage: ReplyKeyStorage,
) -> Self {
let received_buffer =
ReceivedMessagesBuffer::new(local_encryption_keypair, reply_key_storage);
let received_buffer = ReceivedMessagesBuffer::new(
local_encryption_keypair,
#[cfg(feature = "reply-surb")]
reply_key_storage,
);
ReceivedMessagesBufferController {
fragmented_message_receiver: FragmentedMessageReceiver::new(
received_buffer.clone(),
mixnet_packet_receiver,
shutdown,
),
request_receiver: RequestReceiver::new(received_buffer, query_receiver),
}
}
#[cfg(not(target_arch = "wasm32"))]
pub fn start_with_shutdown(self, shutdown: task::ShutdownListener) {
let mut fragmented_message_receiver = self.fragmented_message_receiver;
let mut request_receiver = self.request_receiver;
let shutdown_handle = shutdown.clone();
spawn_future(async move {
fragmented_message_receiver
.run_with_shutdown(shutdown_handle)
.await;
});
spawn_future(async move {
request_receiver.run_with_shutdown(shutdown).await;
});
}
#[cfg(target_arch = "wasm32")]
pub fn start(self) {
// TODO: should we do anything with JoinHandle(s) returned by start methods?
self.fragmented_message_receiver.start();
self.request_receiver.start();
let mut fragmented_message_receiver = self.fragmented_message_receiver;
let mut request_receiver = self.request_receiver;
spawn_future(async move {
fragmented_message_receiver.run().await;
});
spawn_future(async move {
request_receiver.run().await;
});
}
}
@@ -1,6 +1,7 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::spawn_future;
use log::*;
use nymsphinx::addressing::clients::Recipient;
use nymsphinx::params::DEFAULT_NUM_MIX_HOPS;
@@ -10,10 +11,8 @@ use std::ops::Deref;
use std::sync::Arc;
use std::time;
use std::time::Duration;
use task::ShutdownListener;
use tokio::sync::{RwLock, RwLockReadGuard};
use tokio::task::JoinHandle;
use topology::{nym_topology_from_detailed, NymTopology};
use topology::{nym_topology_from_bonds, NymTopology};
use url::Url;
// I'm extremely curious why compiler NEVER complained about lack of Debug here before
@@ -266,8 +265,8 @@ impl TopologyRefresher {
};
let mixnodes_count = mixnodes.len();
let topology = nym_topology_from_detailed(mixnodes, gateways)
.filter_system_version(&self.client_version);
let topology =
nym_topology_from_bonds(mixnodes, gateways).filter_system_version(&self.client_version);
if !self.check_layer_distribution(&topology, mixnodes_count) {
warn!("The current filtered active topology has extremely skewed layer distribution. It cannot be used.");
@@ -304,8 +303,11 @@ impl TopologyRefresher {
self.topology_accessor.is_routable().await
}
pub fn start(mut self, mut shutdown: ShutdownListener) -> JoinHandle<()> {
tokio::spawn(async move {
#[cfg(not(target_arch = "wasm32"))]
pub fn start_with_shutdown(mut self, mut shutdown: task::ShutdownListener) {
spawn_future(async move {
debug!("Started TopologyRefresher with graceful shutdown support");
while !shutdown.is_shutdown() {
tokio::select! {
_ = tokio::time::sleep(self.refresh_rate) => {
@@ -320,4 +322,17 @@ impl TopologyRefresher {
log::debug!("TopologyRefresher: Exiting");
})
}
#[cfg(target_arch = "wasm32")]
pub fn start(mut self) {
use futures::StreamExt;
spawn_future(async move {
let mut interval =
gloo_timers::future::IntervalStream::new(self.refresh_rate.as_millis() as u32);
while let Some(_) = interval.next().await {
self.refresh().await;
}
})
}
}
+39 -9
View File
@@ -8,6 +8,9 @@ use std::path::PathBuf;
use std::time::Duration;
use url::Url;
#[cfg(target_arch = "wasm32")]
use wasm_bindgen::prelude::*;
pub mod persistence;
pub const MISSING_VALUE: &str = "MISSING VALUE";
@@ -236,6 +239,18 @@ impl<T: NymConfig> Config<T> {
self.debug.topology_resolution_timeout
}
pub fn get_disabled_loop_cover_traffic_stream(&self) -> bool {
self.debug.disable_loop_cover_traffic_stream
}
pub fn get_disabled_main_poisson_packet_distribution(&self) -> bool {
self.debug.disable_main_poisson_packet_distribution
}
pub fn get_use_extended_packet_size(&self) -> bool {
self.debug.use_extended_packet_size
}
pub fn get_version(&self) -> &str {
&self.client.version
}
@@ -252,6 +267,7 @@ impl<T: NymConfig> Default for Config<T> {
}
#[derive(Clone, Debug, Default, Deserialize, PartialEq, Eq, Serialize)]
#[cfg_attr(target_arch = "wasm32", wasm_bindgen(getter_with_clone))]
pub struct GatewayEndpoint {
/// gateway_id specifies ID of the gateway to which the client should send messages.
/// If initially omitted, a random gateway will be chosen from the available topology.
@@ -398,53 +414,64 @@ pub struct Debug {
/// So for a packet going through three mix nodes, on average, it will take three times this value
/// until the packet reaches its destination.
#[serde(with = "humantime_serde")]
average_packet_delay: Duration,
pub average_packet_delay: Duration,
/// The parameter of Poisson distribution determining how long, on average,
/// sent acknowledgement is going to be delayed at any given mix node.
/// So for an ack going through three mix nodes, on average, it will take three times this value
/// until the packet reaches its destination.
#[serde(with = "humantime_serde")]
average_ack_delay: Duration,
pub average_ack_delay: Duration,
/// Value multiplied with the expected round trip time of an acknowledgement packet before
/// it is assumed it was lost and retransmission of the data packet happens.
/// In an ideal network with 0 latency, this value would have been 1.
ack_wait_multiplier: f64,
pub ack_wait_multiplier: f64,
/// Value added to the expected round trip time of an acknowledgement packet before
/// it is assumed it was lost and retransmission of the data packet happens.
/// In an ideal network with 0 latency, this value would have been 0.
#[serde(with = "humantime_serde")]
ack_wait_addition: Duration,
pub ack_wait_addition: Duration,
/// The parameter of Poisson distribution determining how long, on average,
/// it is going to take for another loop cover traffic message to be sent.
#[serde(with = "humantime_serde")]
loop_cover_traffic_average_delay: Duration,
pub loop_cover_traffic_average_delay: Duration,
/// The parameter of Poisson distribution determining how long, on average,
/// it is going to take another 'real traffic stream' message to be sent.
/// If no real packets are available and cover traffic is enabled,
/// a loop cover message is sent instead in order to preserve the rate.
#[serde(with = "humantime_serde")]
message_sending_average_delay: Duration,
pub message_sending_average_delay: Duration,
/// How long we're willing to wait for a response to a message sent to the gateway,
/// before giving up on it.
#[serde(with = "humantime_serde")]
gateway_response_timeout: Duration,
pub gateway_response_timeout: Duration,
/// The uniform delay every which clients are querying the directory server
/// to try to obtain a compatible network topology to send sphinx packets through.
#[serde(with = "humantime_serde")]
topology_refresh_rate: Duration,
pub topology_refresh_rate: Duration,
/// During topology refresh, test packets are sent through every single possible network
/// path. This timeout determines waiting period until it is decided that the packet
/// did not reach its destination.
#[serde(with = "humantime_serde")]
topology_resolution_timeout: Duration,
pub topology_resolution_timeout: Duration,
/// Controls whether the dedicated loop cover traffic stream should be enabled.
/// (and sending packets, on average, every [Self::loop_cover_traffic_average_delay])
pub disable_loop_cover_traffic_stream: bool,
/// Controls whether the main packet stream constantly produces packets according to the predefined
/// poisson distribution.
pub disable_main_poisson_packet_distribution: bool,
/// Controls whether the sent sphinx packet use the NON-DEFAULT bigger size.
pub use_extended_packet_size: bool,
}
impl Default for Debug {
@@ -459,6 +486,9 @@ impl Default for Debug {
gateway_response_timeout: DEFAULT_GATEWAY_RESPONSE_TIMEOUT,
topology_refresh_rate: DEFAULT_TOPOLOGY_REFRESH_RATE,
topology_resolution_timeout: DEFAULT_TOPOLOGY_RESOLUTION_TIMEOUT,
disable_loop_cover_traffic_stream: false,
disable_main_poisson_packet_distribution: false,
use_extended_packet_size: false,
}
}
}
+1
View File
@@ -90,6 +90,7 @@ async fn register_with_gateway(
gateway.owner.clone(),
our_identity.clone(),
timeout,
#[cfg(not(target_arch = "wasm32"))]
None,
);
gateway_client
+19
View File
@@ -1,4 +1,23 @@
use std::future::Future;
pub mod client;
pub mod config;
pub mod error;
pub mod init;
#[cfg(target_arch = "wasm32")]
pub(crate) fn spawn_future<F>(future: F)
where
F: Future<Output = ()> + 'static,
{
wasm_bindgen_futures::spawn_local(future);
}
#[cfg(not(target_arch = "wasm32"))]
pub(crate) fn spawn_future<F>(future: F)
where
F: Future + Send + 'static,
F::Output: Send + 'static,
{
tokio::spawn(future);
}
+2 -3
View File
@@ -9,17 +9,16 @@ edition = "2021"
async-trait = "0.1.52"
bip39 = "1.0.1"
cfg-if = "0.1"
clap = { version = "3.2", features = ["cargo", "derive"] }
clap = { version = "3.0.10", features = ["cargo", "derive"] }
pickledb = "0.4.1"
rand = "0.7.3"
serde = { version = "1.0", features = ["derive"] }
thiserror = "1.0"
url = "2.2"
tokio = { version = "1.19.1", features = ["rt-multi-thread", "net", "signal", "macros"] } # async runtime
tokio = { version = "1.21.2", features = ["rt-multi-thread", "net", "signal", "macros"] } # async runtime
coconut-interface = { path = "../../common/coconut-interface" }
config = { path = "../../common/config" }
completions = { path = "../../common/completions" }
credentials = { path = "../../common/credentials" }
credential-storage = { path = "../../common/credential-storage" }
crypto = { path = "../../common/crypto", features = ["rand", "asymmetric", "symmetric", "aes", "hashing"] }
-7
View File
@@ -3,7 +3,6 @@
use async_trait::async_trait;
use clap::{Args, Subcommand};
use completions::ArgShell;
use pickledb::PickleDb;
use rand::rngs::OsRng;
use std::str::FromStr;
@@ -29,12 +28,6 @@ pub(crate) enum Commands {
ListDeposits(ListDeposits),
/// Get a credential for a given deposit
GetCredential(GetCredential),
/// Generate shell completions
Completions(ArgShell),
/// Generate Fig specification
GenerateFigSpec,
}
#[async_trait]
-6
View File
@@ -12,8 +12,6 @@ cfg_if::cfg_if! {
use commands::{Commands, Execute};
use error::Result;
use network_defaults::setup_env;
use clap::CommandFactory;
use completions::fig_generate;
use clap::Parser;
use pickledb::{PickleDb, PickleDbDumpPolicy, SerializationMethod};
@@ -54,14 +52,10 @@ cfg_if::cfg_if! {
),
};
let bin_name = "nym-credential-client";
match &args.command {
Commands::Deposit(m) => m.execute(&mut db, shared_storage).await?,
Commands::ListDeposits(m) => m.execute(&mut db, shared_storage).await?,
Commands::GetCredential(m) => m.execute(&mut db, shared_storage).await?,
Commands::Completions(s) => s.generate(&mut crate::Cli::into_app(), bin_name),
Commands::GenerateFigSpec => fig_generate(&mut crate::Cli::into_app(), bin_name)
}
Ok(())
+2 -3
View File
@@ -20,21 +20,20 @@ futures = "0.3" # bunch of futures stuff, however, now that I think about it, it
# and the single instance of abortable we have should really be refactored anyway
url = "2.2"
clap = { version = "3.2", features = ["cargo", "derive"] }
clap = { version = "3.2.8", features = ["cargo", "derive"] }
dirs = "4.0"
log = "0.4" # self explanatory
pretty_env_logger = "0.4" # for formatting log messages
rand = { version = "0.7.3", features = ["wasm-bindgen"] } # rng-related traits + some rng implementation to use
serde = { version = "1.0.104", features = ["derive"] } # for config serialization/deserialization
sled = "0.34" # for storage of replySURB decryption keys
tokio = { version = "1.19.1", features = ["rt-multi-thread", "net", "signal"] } # async runtime
tokio = { version = "1.21.2", features = ["rt-multi-thread", "net", "signal"] } # async runtime
tokio-tungstenite = "0.14" # websocket
## internal
client-core = { path = "../client-core" }
coconut-interface = { path = "../../common/coconut-interface", optional = true }
config = { path = "../../common/config" }
completions = { path = "../../common/completions" }
credential-storage = { path = "../../common/credential-storage" }
credentials = { path = "../../common/credentials", optional = true }
crypto = { path = "../../common/crypto" }
+32 -16
View File
@@ -31,6 +31,7 @@ use log::*;
use nymsphinx::addressing::clients::Recipient;
use nymsphinx::addressing::nodes::NodeIdentity;
use nymsphinx::anonymous_replies::ReplySurb;
use nymsphinx::params::PacketSize;
use nymsphinx::receiver::ReconstructedMessage;
use task::{wait_for_signal, ShutdownListener, ShutdownNotifier};
@@ -90,7 +91,7 @@ impl NymClient {
) {
info!("Starting loop cover traffic stream...");
LoopCoverTrafficStream::new(
let mut stream = LoopCoverTrafficStream::new(
self.key_manager.ack_key(),
self.config.get_base().get_average_ack_delay(),
self.config.get_base().get_average_packet_delay(),
@@ -100,9 +101,13 @@ impl NymClient {
mix_tx,
self.as_mix_recipient(),
topology_accessor,
shutdown,
)
.start();
);
if self.config.get_base().get_use_extended_packet_size() {
stream.set_custom_packet_size(PacketSize::ExtendedPacket)
}
stream.start_with_shutdown(shutdown);
}
fn start_real_traffic_controller(
@@ -114,16 +119,23 @@ impl NymClient {
mix_sender: BatchMixMessageSender,
shutdown: ShutdownListener,
) {
let controller_config = real_messages_control::Config::new(
let mut controller_config = real_messages_control::Config::new(
self.key_manager.ack_key(),
self.config.get_base().get_ack_wait_multiplier(),
self.config.get_base().get_ack_wait_addition(),
self.config.get_base().get_average_ack_delay(),
self.config.get_base().get_message_sending_average_delay(),
self.config.get_base().get_average_packet_delay(),
self.config
.get_base()
.get_disabled_main_poisson_packet_distribution(),
self.as_mix_recipient(),
);
if self.config.get_base().get_use_extended_packet_size() {
controller_config.set_custom_packet_size(PacketSize::ExtendedPacket)
}
info!("Starting real traffic stream...");
RealMessagesController::new(
@@ -133,9 +145,8 @@ impl NymClient {
mix_sender,
topology_accessor,
reply_key_storage,
shutdown,
)
.start();
.start_with_shutdown(shutdown);
}
// buffer controlling all messages fetched from provider
@@ -153,9 +164,8 @@ impl NymClient {
query_receiver,
mixnet_receiver,
reply_key_storage,
shutdown,
)
.start()
.start_with_shutdown(shutdown)
}
async fn start_gateway_client(
@@ -245,7 +255,7 @@ impl NymClient {
}
info!("Starting topology refresher...");
topology_refresher.start(shutdown);
topology_refresher.start_with_shutdown(shutdown);
}
// controller for sending sphinx packets to mixnet (either real traffic or cover traffic)
@@ -259,7 +269,7 @@ impl NymClient {
shutdown: ShutdownListener,
) {
info!("Starting mix traffic controller...");
MixTrafficController::new(mix_rx, gateway_client, shutdown).start();
MixTrafficController::new(mix_rx, gateway_client).start_with_shutdown(shutdown);
}
fn start_websocket_listener(
@@ -401,11 +411,17 @@ impl NymClient {
shutdown.subscribe(),
);
self.start_cover_traffic_stream(
shared_topology_accessor,
sphinx_message_sender,
shutdown.subscribe(),
);
if !self
.config
.get_base()
.get_disabled_loop_cover_traffic_stream()
{
self.start_cover_traffic_stream(
shared_topology_accessor,
sphinx_message_sender,
shutdown.subscribe(),
);
}
match self.config.get_socket_type() {
SocketType::WebSocket => {
-12
View File
@@ -2,9 +2,7 @@
// SPDX-License-Identifier: Apache-2.0
use crate::client::config::{Config, SocketType};
use clap::CommandFactory;
use clap::{Parser, Subcommand};
use completions::{fig_generate, ArgShell};
pub(crate) mod init;
pub(crate) mod run;
@@ -64,12 +62,6 @@ pub(crate) enum Commands {
Run(run::Run),
/// Try to upgrade the client
Upgrade(upgrade::Upgrade),
/// Generate shell completions
Completions(ArgShell),
/// Generate Fig specification
GenerateFigSpec,
}
// Configuration that can be overridden.
@@ -84,14 +76,10 @@ pub(crate) struct OverrideConfig {
}
pub(crate) async fn execute(args: &Cli) {
let bin_name = "nym-native-client";
match &args.command {
Commands::Init(m) => init::execute(m).await,
Commands::Run(m) => run::execute(m).await,
Commands::Upgrade(m) => upgrade::execute(m),
Commands::Completions(s) => s.generate(&mut Cli::into_app(), bin_name),
Commands::GenerateFigSpec => fig_generate(&mut Cli::into_app(), bin_name),
}
}
+2 -2
View File
@@ -103,7 +103,7 @@ fn minor_0_12_upgrade(
Version::new(0, 12, 0)
};
print_start_upgrade(config_version, &to_version);
print_start_upgrade(&config_version, &to_version);
config
.get_base_mut()
@@ -111,7 +111,7 @@ fn minor_0_12_upgrade(
config.save_to_file(None).unwrap_or_else(|err| {
eprintln!("failed to overwrite config file! - {:?}", err);
print_failed_upgrade(config_version, &to_version);
print_failed_upgrade(&config_version, &to_version);
process::exit(1);
});
+2 -3
View File
@@ -11,7 +11,7 @@ name = "nym_socks5"
path = "src/lib.rs"
[dependencies]
clap = { version = "3.2", features = ["cargo", "derive"] }
clap = { version = "3.2.8", features = ["cargo", "derive"] }
dirs = "4.0"
futures = "0.3"
log = "0.4"
@@ -20,14 +20,13 @@ pretty_env_logger = "0.4"
rand = { version = "0.7.3", features = ["wasm-bindgen"] }
serde = { version = "1.0", features = ["derive"] } # for config serialization/deserialization
snafu = "0.6"
tokio = { version = "1.19.1", features = ["rt-multi-thread", "net", "signal"] }
tokio = { version = "1.21.2", features = ["rt-multi-thread", "net", "signal"] }
url = "2.2"
# internal
client-core = { path = "../client-core" }
coconut-interface = { path = "../../common/coconut-interface", optional = true }
config = { path = "../../common/config" }
completions = { path = "../../common/completions" }
credential-storage = { path = "../../common/credential-storage" }
credentials = { path = "../../common/credentials", optional = true }
crypto = { path = "../../common/crypto" }
+33 -16
View File
@@ -31,6 +31,7 @@ use gateway_client::{
use log::*;
use nymsphinx::addressing::clients::Recipient;
use nymsphinx::addressing::nodes::NodeIdentity;
use nymsphinx::params::PacketSize;
use task::{wait_for_signal, ShutdownListener, ShutdownNotifier};
use crate::client::config::Config;
@@ -91,7 +92,7 @@ impl NymClient {
) {
info!("Starting loop cover traffic stream...");
LoopCoverTrafficStream::new(
let mut stream = LoopCoverTrafficStream::new(
self.key_manager.ack_key(),
self.config.get_base().get_average_ack_delay(),
self.config.get_base().get_average_packet_delay(),
@@ -101,9 +102,13 @@ impl NymClient {
mix_tx,
self.as_mix_recipient(),
topology_accessor,
shutdown,
)
.start();
);
if self.config.get_base().get_use_extended_packet_size() {
stream.set_custom_packet_size(PacketSize::ExtendedPacket)
}
stream.start_with_shutdown(shutdown);
}
fn start_real_traffic_controller(
@@ -115,16 +120,23 @@ impl NymClient {
mix_sender: BatchMixMessageSender,
shutdown: ShutdownListener,
) {
let controller_config = client_core::client::real_messages_control::Config::new(
let mut controller_config = client_core::client::real_messages_control::Config::new(
self.key_manager.ack_key(),
self.config.get_base().get_ack_wait_multiplier(),
self.config.get_base().get_ack_wait_addition(),
self.config.get_base().get_average_ack_delay(),
self.config.get_base().get_message_sending_average_delay(),
self.config.get_base().get_average_packet_delay(),
self.config
.get_base()
.get_disabled_main_poisson_packet_distribution(),
self.as_mix_recipient(),
);
if self.config.get_base().get_use_extended_packet_size() {
controller_config.set_custom_packet_size(PacketSize::ExtendedPacket)
}
info!("Starting real traffic stream...");
RealMessagesController::new(
@@ -134,9 +146,8 @@ impl NymClient {
mix_sender,
topology_accessor,
reply_key_storage,
shutdown,
)
.start();
.start_with_shutdown(shutdown);
}
// buffer controlling all messages fetched from provider
@@ -154,9 +165,8 @@ impl NymClient {
query_receiver,
mixnet_receiver,
reply_key_storage,
shutdown,
)
.start()
.start_with_shutdown(shutdown);
}
async fn start_gateway_client(
@@ -246,7 +256,7 @@ impl NymClient {
}
info!("Starting topology refresher...");
topology_refresher.start(shutdown);
topology_refresher.start_with_shutdown(shutdown);
}
// controller for sending sphinx packets to mixnet (either real traffic or cover traffic)
@@ -260,7 +270,7 @@ impl NymClient {
shutdown: ShutdownListener,
) {
info!("Starting mix traffic controller...");
MixTrafficController::new(mix_rx, gateway_client, shutdown).start();
MixTrafficController::new(mix_rx, gateway_client).start_with_shutdown(shutdown);
}
fn start_socks5_listener(
@@ -391,11 +401,18 @@ impl NymClient {
shutdown.subscribe(),
);
self.start_cover_traffic_stream(
shared_topology_accessor,
sphinx_message_sender,
shutdown.subscribe(),
);
if !self
.config
.get_base()
.get_disabled_loop_cover_traffic_stream()
{
self.start_cover_traffic_stream(
shared_topology_accessor,
sphinx_message_sender,
shutdown.subscribe(),
);
}
self.start_socks5_listener(
received_buffer_request_sender,
input_sender,
-12
View File
@@ -2,9 +2,7 @@
// SPDX-License-Identifier: Apache-2.0
use crate::client::config::Config;
use clap::CommandFactory;
use clap::{Parser, Subcommand};
use completions::{fig_generate, ArgShell};
use config::parse_validators;
pub mod init;
@@ -65,12 +63,6 @@ pub(crate) enum Commands {
Run(run::Run),
/// Try to upgrade the client
Upgrade(upgrade::Upgrade),
/// Generate shell completions
Completions(ArgShell),
/// Generate Fig specification
GenerateFigSpec,
}
// Configuration that can be overridden.
@@ -84,14 +76,10 @@ pub(crate) struct OverrideConfig {
}
pub(crate) async fn execute(args: &Cli) {
let bin_name = "nym-socks5-client";
match &args.command {
Commands::Init(m) => init::execute(m).await,
Commands::Run(m) => run::execute(m).await,
Commands::Upgrade(m) => upgrade::execute(m),
Commands::Completions(s) => s.generate(&mut Cli::into_app(), bin_name),
Commands::GenerateFigSpec => fig_generate(&mut Cli::into_app(), bin_name),
}
}
+2 -2
View File
@@ -102,7 +102,7 @@ fn minor_0_12_upgrade(
Version::new(0, 12, 0)
};
print_start_upgrade(config_version, &to_version);
print_start_upgrade(&config_version, &to_version);
config
.get_base_mut()
@@ -110,7 +110,7 @@ fn minor_0_12_upgrade(
config.save_to_file(None).unwrap_or_else(|err| {
eprintln!("failed to overwrite config file! - {:?}", err);
print_failed_upgrade(config_version, &to_version);
print_failed_upgrade(&config_version, &to_version);
process::exit(1);
});
+9 -3
View File
@@ -1,7 +1,7 @@
[package]
name = "nym-client-wasm"
authors = ["Dave Hrycyszyn <futurechimp@users.noreply.github.com>", "Jedrzej Stuczynski <andrew@nymtech.net>"]
version = "1.0.0"
version = "1.0.1"
edition = "2021"
keywords = ["nym", "sphinx", "wasm", "webassembly", "privacy", "client"]
license = "Apache-2.0"
@@ -20,13 +20,15 @@ coconut = ["coconut-interface", "credentials", "gateway-client/coconut"]
[dependencies]
futures = "0.3"
serde = { version = "1.0", features = ["derive"] }
wasm-bindgen = { version = "=0.2.78", features = ["serde-serialize"] }
serde-wasm-bindgen = "0.4"
wasm-bindgen = { version = "=0.2.83", features = ["serde-serialize"] }
wasm-bindgen-futures = "0.4"
js-sys = "0.3"
rand = { version = "0.7.3", features = ["wasm-bindgen"] }
url = "2.2"
# internal
client-core = { path = "../client-core", default-features = false, features = ["wasm"] }
coconut-interface = { path = "../../common/coconut-interface", optional = true }
credentials = { path = "../../common/credentials", optional = true }
crypto = { path = "../../common/crypto" }
@@ -53,6 +55,10 @@ wee_alloc = { version = "0.4", optional = true }
wasm-bindgen-test = "0.3"
[package.metadata.wasm-pack.profile.release]
wasm-opt = false
wasm-opt = true
[profile.release]
lto = true
opt-level = 'z'
+11 -1
View File
@@ -4,6 +4,16 @@ This example application demonstrates how to use WebAssembly to create Sphinx pa
## 🚴 Usage
Build the WASM package for bundling:
```
wasm-pack build --scope nymproject --target no-modules
```
in the `clients/webassembly` directory (one up).
Start the webpack dev server:
```
npm install # set up dependencies
npm run start # starts a web server at http://localhost:8001
@@ -15,4 +25,4 @@ Check your dev console for output.
Install `wasm-pack`. Instruction are at the [Rust WASM tutorial](https://rustwasm.github.io/docs/book/game-of-life/hello-world.html).
`wasm-pack build` in the `clients/webassembly` directory (one up) will rebuild the wasm package if you make changes to the Rust source. That will be automatically picked up (and reloaded, if need be) by the npm dev server.
`wasm-pack build --scope nymproject --target no-modules` in the `clients/webassembly` directory (one up) will rebuild the wasm package if you make changes to the Rust source. That will be automatically picked up (and reloaded, if need be) by the npm dev server.
+2 -2
View File
@@ -1,5 +1,5 @@
// A dependency graph that contains any wasm must all be imported
// asynchronously. This `bootstrap.js` file does the single async import, so
// that no one else needs to worry about it again.
import("./index.js")
.catch(e => console.error("Error importing `index.js`:", e));
import('./index.js')
.catch(e => console.error('Error importing `index.js`:', e));
+68 -56
View File
@@ -1,4 +1,4 @@
// Copyright 2020 Nym Technologies SA
// Copyright 2020-2022 Nym Technologies SA
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
@@ -12,55 +12,67 @@
// See the License for the specific language governing permissions and
// limitations under the License.
import {
NymClient,
set_panic_hook
} from "@nymproject/nym-client-wasm"
class WebWorkerClient {
worker = null;
// current limitation of rust-wasm for async stuff : (
let client = null
constructor() {
this.worker = new Worker('./worker.js');
this.worker.onmessage = (ev) => {
if (ev.data && ev.data.kind) {
switch (ev.data.kind) {
case 'Ready':
const { selfAddress } = ev.data.args;
displaySenderAddress(selfAddress);
break;
case 'ReceiveMessage':
const { message } = ev.data.args;
displayReceived(message);
break;
}
}
};
}
sendMessage = (message, recipient) => {
if (!this.worker) {
console.error('Could not send message because worker does not exist');
return;
}
this.worker.postMessage({
kind: 'SendMessage',
args: {
message, recipient,
},
});
};
}
let client = null;
async function main() {
// sets up better stack traces in case of in-rust panics
set_panic_hook();
client = new WebWorkerClient();
// validator server we will use to get topology from
const validator = "https://validator.nymtech.net/api";
client = new NymClient(validator);
const on_message = (msg) => displayReceived(msg);
const on_connect = () => console.log("Established (and authenticated) gateway connection!");
client.set_on_message(on_message);
client.set_on_gateway_connect(on_connect);
// this is current limitation of wasm in rust - for async methods you can't take self my reference...
// I'm trying to figure out if I can somehow hack my way around it, but for time being you have to re-assign
// the object (it's the same one)
client = await client.initial_setup();
const self_address = client.self_address();
displaySenderAddress(self_address);
const sendButton = document.querySelector('#send-button');
sendButton.onclick = function () {
sendMessageTo();
}
const sendButton = document.querySelector('#send-button');
sendButton.onclick = function() {
sendMessageTo();
};
}
/**
* Create a Sphinx packet and send it to the mixnet through the gateway node.
*
*
* Message and recipient are taken from the values in the user interface.
*
* @param {Client} nymClient the nym client to use for message sending
*/
async function sendMessageTo() {
const message = document.getElementById("message").value;
const recipient = document.getElementById("recipient").value;
client = await client.send_message(message, recipient);
displaySend(message);
const message = document.getElementById('message').value;
const recipient = document.getElementById('recipient').value;
await client.sendMessage(message, recipient);
displaySend(message);
}
/**
@@ -69,16 +81,16 @@ async function sendMessageTo() {
* @param {string} message
*/
function displaySend(message) {
let timestamp = new Date().toISOString().slice(11, 21);
let timestamp = new Date().toISOString().substr(11, 12);
let sendDiv = document.createElement("div")
let paragraph = document.createElement("p")
paragraph.setAttribute('style', 'color: blue')
let paragraphContent = document.createTextNode(timestamp + " sent >>> " + message)
paragraph.appendChild(paragraphContent)
let sendDiv = document.createElement('div');
let paragraph = document.createElement('p');
paragraph.setAttribute('style', 'color: blue');
let paragraphContent = document.createTextNode(timestamp + ' sent >>> ' + message);
paragraph.appendChild(paragraphContent);
sendDiv.appendChild(paragraph)
document.getElementById("output").appendChild(sendDiv)
sendDiv.appendChild(paragraph);
document.getElementById('output').appendChild(sendDiv);
}
/**
@@ -87,17 +99,17 @@ function displaySend(message) {
* @param {string} message
*/
function displayReceived(message) {
const content = message.message
const replySurb = message.replySurb
const content = message;
let timestamp = new Date().toISOString().slice(11, 21);
let receivedDiv = document.createElement("div")
let paragraph = document.createElement("p")
paragraph.setAttribute('style', 'color: green')
let paragraphContent = document.createTextNode(timestamp + " received >>> " + content)
paragraph.appendChild(paragraphContent)
receivedDiv.appendChild(paragraph)
document.getElementById("output").appendChild(receivedDiv)
let timestamp = new Date().toISOString().substr(11, 12);
let receivedDiv = document.createElement('div');
let paragraph = document.createElement('p');
paragraph.setAttribute('style', 'color: green');
let paragraphContent = document.createTextNode(timestamp + ' received >>> ' + content);
// let paragraphContent = document.createTextNode(timestamp + " received >>> " + content + ((replySurb != null) ? "Reply SURB was attached here (but we can't do anything with it yet" : " (NO REPLY-SURB AVAILABLE)"))
paragraph.appendChild(paragraphContent);
receivedDiv.appendChild(paragraph);
document.getElementById('output').appendChild(receivedDiv);
}
@@ -107,7 +119,7 @@ function displayReceived(message) {
* @param {Client} nymClient
*/
function displaySenderAddress(address) {
document.getElementById("sender").value = address;
document.getElementById('sender').value = address;
}
// Let's get started!
File diff suppressed because it is too large Load Diff
+2 -2
View File
@@ -34,6 +34,6 @@
"webpack-dev-server": "^4.7.4"
},
"dependencies": {
"@nymproject/nym-client-wasm": "1.0.0"
"@nymproject/nym-client-wasm": "file:../pkg"
}
}
}
@@ -1,15 +1,32 @@
const CopyWebpackPlugin = require("copy-webpack-plugin");
const CopyWebpackPlugin = require('copy-webpack-plugin');
const path = require('path');
module.exports = {
entry: "./bootstrap.js",
output: {
path: path.resolve(__dirname, "dist"),
filename: "bootstrap.js",
performance: {
hints: false,
maxEntrypointSize: 512000,
maxAssetSize: 512000
},
mode: "development",
entry: {
bootstrap: './bootstrap.js',
worker: './worker.js',
},
output: {
path: path.resolve(__dirname, 'dist'),
filename: '[name].js',
},
// mode: 'development',
mode: 'production',
plugins: [
new CopyWebpackPlugin({ patterns: ['index.html'] })
new CopyWebpackPlugin({
patterns: [
'index.html',
{
from: 'node_modules/@nymproject/nym-client-wasm/*.(js|wasm)',
to: '[name][ext]',
},
],
}),
],
experiments: { syncWebAssembly: true }
experiments: { syncWebAssembly: true },
};
+125
View File
@@ -0,0 +1,125 @@
// Copyright 2020-2022 Nym Technologies SA
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
importScripts('nym_client_wasm.js');
console.log('Initializing worker');
// wasm_bindgen creates a global variable (with the exports attached) that is in scope after `importScripts`
const { default_debug, get_gateway, NymClient, set_panic_hook, Config, GatewayEndpoint } = wasm_bindgen;
class ClientWrapper {
constructor(config, onMessageHandler) {
this.rustClient = new NymClient(config);
this.rustClient.set_on_message(onMessageHandler);
this.rustClient.set_on_gateway_connect(this.onConnect);
}
selfAddress = () => {
return this.rustClient.self_address();
};
onConnect = () => {
console.log('Established (and authenticated) gateway connection!');
};
start = async () => {
// this is current limitation of wasm in rust - for async methods you can't take self by reference...
// I'm trying to figure out if I can somehow hack my way around it, but for time being you have to re-assign
// the object (it's the same one)
this.rustClient = await this.rustClient.start();
};
sendMessage = async (recipient, message) => {
this.rustClient = await this.rustClient.send_message(recipient, message);
};
sendBinaryMessage = async (recipient, message) => {
this.rustClient = await this.rustClient.send_binary_message(recipient, message);
};
}
let client = null;
async function main() {
// load WASM package
await wasm_bindgen('nym_client_wasm_bg.wasm');
console.log('Loaded WASM');
// sets up better stack traces in case of in-rust panics
set_panic_hook();
// validator server we will use to get topology from
const validator = 'https://validator.nymtech.net/api'; //"http://localhost:8081";
const preferredGateway = 'E3mvZTHQCdBvhfr178Swx9g4QG3kkRUun7YnToLMcMbM';
var gatewayEndpoint = await get_gateway(validator, preferredGateway);
gatewayEndpoint.gateway_listener = "wss://gateway1.nymtech.net:443";
// only really useful if you want to adjust some settings like traffic rate
// (if not needed you can just pass a null)
const debug = default_debug();
debug.disable_main_poisson_packet_distribution = true;
debug.disable_loop_cover_traffic_stream = true;
debug.use_extended_packet_size = true;
// debug.average_packet_delay_ms = BigInt(10);
// debug.average_ack_delay_ms = BigInt(10);
// debug.ack_wait_addition_ms = BigInt(3000);
// debug.ack_wait_multiplier = 10;
debug.topology_refresh_rate_ms = BigInt(60000)
const config = new Config('my-awesome-wasm-client', validator, gatewayEndpoint, debug);
const onMessageHandler = (message) => {
self.postMessage({
kind: 'ReceiveMessage',
args: {
message,
},
});
};
console.log('Instantiating WASM client...');
client = new ClientWrapper(config, onMessageHandler);
console.log('Web worker creating WASM client...');
await client.start();
console.log('WASM client running!');
const selfAddress = client.rustClient.self_address();
console.log(`Client address is ${selfAddress}`);
self.postMessage({
kind: 'Ready',
args: {
selfAddress,
},
});
// Set callback to handle messages passed to the worker.
self.onmessage = async event => {
if (event.data && event.data.kind) {
switch (event.data.kind) {
case 'SendMessage': {
const { message, recipient } = event.data.args;
await client.sendMessage(message, recipient);
}
}
}
};
}
// Let's get started!
main();
-11
View File
@@ -1,11 +0,0 @@
{
"requires": true,
"lockfileVersion": 1,
"dependencies": {
"semver": {
"version": "7.3.2",
"resolved": "https://registry.npmjs.org/semver/-/semver-7.3.2.tgz",
"integrity": "sha512-OrOb32TeeambH6UrhtShmF7CRDqhL6/5XpPNp2DuRH6+9QLw/orhp72j87v8Qa1ScDkvrrBNpZcDejAirJmfXQ=="
}
}
}
+156
View File
@@ -0,0 +1,156 @@
// Copyright 2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use client_core::config::{Debug as ConfigDebug, GatewayEndpoint};
use std::time::Duration;
use url::Url;
use wasm_bindgen::prelude::*;
#[wasm_bindgen]
pub struct Config {
/// ID specifies the human readable ID of this particular client.
pub(crate) id: String,
pub(crate) validator_api_url: Url,
pub(crate) disabled_credentials_mode: bool,
/// Information regarding how the client should send data to gateway.
pub(crate) gateway_endpoint: GatewayEndpoint,
pub(crate) debug: ConfigDebug,
}
#[wasm_bindgen]
impl Config {
#[wasm_bindgen(constructor)]
pub fn new(
id: String,
validator_server: String,
gateway_endpoint: GatewayEndpoint,
debug: Option<Debug>,
) -> Self {
Config {
id,
validator_api_url: validator_server
.parse()
.expect("provided url was malformed"),
disabled_credentials_mode: true,
gateway_endpoint,
debug: debug.map(Into::into).unwrap_or_default(),
}
}
}
// just a helper structure to more easily pass through the JS boundary
#[wasm_bindgen]
pub struct Debug {
/// The parameter of Poisson distribution determining how long, on average,
/// sent packet is going to be delayed at any given mix node.
/// So for a packet going through three mix nodes, on average, it will take three times this value
/// until the packet reaches its destination.
pub average_packet_delay_ms: u64,
/// The parameter of Poisson distribution determining how long, on average,
/// sent acknowledgement is going to be delayed at any given mix node.
/// So for an ack going through three mix nodes, on average, it will take three times this value
/// until the packet reaches its destination.
pub average_ack_delay_ms: u64,
/// Value multiplied with the expected round trip time of an acknowledgement packet before
/// it is assumed it was lost and retransmission of the data packet happens.
/// In an ideal network with 0 latency, this value would have been 1.
pub ack_wait_multiplier: f64,
/// Value added to the expected round trip time of an acknowledgement packet before
/// it is assumed it was lost and retransmission of the data packet happens.
/// In an ideal network with 0 latency, this value would have been 0.
pub ack_wait_addition_ms: u64,
/// The parameter of Poisson distribution determining how long, on average,
/// it is going to take for another loop cover traffic message to be sent.
pub loop_cover_traffic_average_delay_ms: u64,
/// The parameter of Poisson distribution determining how long, on average,
/// it is going to take another 'real traffic stream' message to be sent.
/// If no real packets are available and cover traffic is enabled,
/// a loop cover message is sent instead in order to preserve the rate.
pub message_sending_average_delay_ms: u64,
/// How long we're willing to wait for a response to a message sent to the gateway,
/// before giving up on it.
pub gateway_response_timeout_ms: u64,
/// The uniform delay every which clients are querying the directory server
/// to try to obtain a compatible network topology to send sphinx packets through.
pub topology_refresh_rate_ms: u64,
/// During topology refresh, test packets are sent through every single possible network
/// path. This timeout determines waiting period until it is decided that the packet
/// did not reach its destination.
pub topology_resolution_timeout_ms: u64,
/// Controls whether the dedicated loop cover traffic stream should be enabled.
/// (and sending packets, on average, every [Self::loop_cover_traffic_average_delay_ms])
pub disable_loop_cover_traffic_stream: bool,
/// Controls whether the main packet stream constantly produces packets according to the predefined
/// poisson distribution.
pub disable_main_poisson_packet_distribution: bool,
/// Controls whether the sent sphinx packet use the NON-DEFAULT bigger size.
pub use_extended_packet_size: bool,
}
impl From<Debug> for ConfigDebug {
fn from(debug: Debug) -> Self {
ConfigDebug {
average_packet_delay: Duration::from_millis(debug.average_packet_delay_ms),
average_ack_delay: Duration::from_millis(debug.average_ack_delay_ms),
ack_wait_multiplier: debug.ack_wait_multiplier,
ack_wait_addition: Duration::from_millis(debug.ack_wait_addition_ms),
loop_cover_traffic_average_delay: Duration::from_millis(
debug.loop_cover_traffic_average_delay_ms,
),
message_sending_average_delay: Duration::from_millis(
debug.message_sending_average_delay_ms,
),
gateway_response_timeout: Duration::from_millis(debug.gateway_response_timeout_ms),
topology_refresh_rate: Duration::from_millis(debug.topology_refresh_rate_ms),
topology_resolution_timeout: Duration::from_millis(
debug.topology_resolution_timeout_ms,
),
disable_loop_cover_traffic_stream: debug.disable_loop_cover_traffic_stream,
disable_main_poisson_packet_distribution: debug
.disable_main_poisson_packet_distribution,
use_extended_packet_size: debug.use_extended_packet_size,
}
}
}
impl From<ConfigDebug> for Debug {
fn from(debug: ConfigDebug) -> Self {
Debug {
average_packet_delay_ms: debug.average_packet_delay.as_millis() as u64,
average_ack_delay_ms: debug.average_ack_delay.as_millis() as u64,
ack_wait_multiplier: debug.ack_wait_multiplier,
ack_wait_addition_ms: debug.ack_wait_addition.as_millis() as u64,
loop_cover_traffic_average_delay_ms: debug.loop_cover_traffic_average_delay.as_millis()
as u64,
message_sending_average_delay_ms: debug.message_sending_average_delay.as_millis()
as u64,
gateway_response_timeout_ms: debug.gateway_response_timeout.as_millis() as u64,
topology_refresh_rate_ms: debug.topology_refresh_rate.as_millis() as u64,
topology_resolution_timeout_ms: debug.topology_resolution_timeout.as_millis() as u64,
disable_loop_cover_traffic_stream: debug.disable_loop_cover_traffic_stream,
disable_main_poisson_packet_distribution: debug
.disable_main_poisson_packet_distribution,
use_extended_packet_size: debug.use_extended_packet_size,
}
}
}
#[wasm_bindgen]
pub fn default_debug() -> Debug {
ConfigDebug::default().into()
}
+301 -189
View File
@@ -1,47 +1,47 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// Copyright 2021-2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crypto::asymmetric::{encryption, identity};
use self::config::Config;
use client_core::client::{
cover_traffic_stream::LoopCoverTrafficStream,
inbound_messages::{InputMessage, InputMessageReceiver, InputMessageSender},
key_manager::KeyManager,
mix_traffic::{BatchMixMessageReceiver, BatchMixMessageSender, MixTrafficController},
real_messages_control::{self, RealMessagesController},
received_buffer::{
ReceivedBufferMessage, ReceivedBufferRequestReceiver, ReceivedBufferRequestSender,
ReceivedMessagesBufferController,
},
topology_control::{TopologyAccessor, TopologyRefresher, TopologyRefresherConfig},
};
use crypto::asymmetric::identity;
use futures::channel::mpsc;
use gateway_client::GatewayClient;
use nymsphinx::acknowledgements::AckKey;
use futures::StreamExt;
use gateway_client::{
AcknowledgementReceiver, AcknowledgementSender, GatewayClient, MixnetMessageReceiver,
MixnetMessageSender,
};
use nymsphinx::addressing::clients::Recipient;
use nymsphinx::preparer::MessagePreparer;
use nymsphinx::params::PacketSize;
use rand::rngs::OsRng;
use received_processor::ReceivedMessagesProcessor;
use std::sync::Arc;
use std::time::Duration;
use topology::{gateway, nym_topology_from_detailed, NymTopology};
use url::Url;
use wasm_bindgen::prelude::*;
use wasm_bindgen_futures::spawn_local;
use wasm_utils::{console_log, console_warn};
pub(crate) mod received_processor;
const DEFAULT_AVERAGE_PACKET_DELAY: Duration = Duration::from_millis(200);
const DEFAULT_AVERAGE_ACK_DELAY: Duration = Duration::from_millis(200);
const DEFAULT_GATEWAY_RESPONSE_TIMEOUT: Duration = Duration::from_millis(1_500);
pub mod config;
#[wasm_bindgen]
pub struct NymClient {
validator_server: Url,
disabled_credentials_mode: bool,
config: Config,
// TODO: technically this doesn't need to be an Arc since wasm is run on a single thread
// however, once we eventually combine this code with the native-client's, it will make things
// easier.
identity: Arc<identity::KeyPair>,
encryption_keys: Arc<encryption::KeyPair>,
ack_key: Arc<AckKey>,
message_preparer: Option<MessagePreparer<OsRng>>,
// message_receiver: MessageReceiver,
/// KeyManager object containing smart pointers to all relevant keys used by the client.
key_manager: KeyManager,
// TODO: this should be stored somewhere persistently
// received_keys: HashSet<SURBEncryptionKey>,
topology: Option<NymTopology>,
gateway_client: Option<GatewayClient>,
/// Channel used for transforming 'raw' messages into sphinx packets and sending them
/// through the mix network.
input_tx: Option<InputMessageSender>,
// callbacks
on_message: Option<js_sys::Function>,
@@ -51,31 +51,24 @@ pub struct NymClient {
#[wasm_bindgen]
impl NymClient {
#[wasm_bindgen(constructor)]
pub fn new(validator_server: String) -> Self {
let mut rng = OsRng;
// for time being generate new keys each time...
let identity = identity::KeyPair::new(&mut rng);
let encryption_keys = encryption::KeyPair::new(&mut rng);
let ack_key = AckKey::new(&mut rng);
pub fn new(config: Config) -> Self {
Self {
identity: Arc::new(identity),
encryption_keys: Arc::new(encryption_keys),
ack_key: Arc::new(ack_key),
validator_server: validator_server
.parse()
.expect("malformed validator server url provided"),
message_preparer: None,
// received_keys: Default::default(),
topology: None,
gateway_client: None,
config,
key_manager: Self::setup_key_manager(),
on_message: None,
on_gateway_connect: None,
disabled_credentials_mode: true,
input_tx: None,
}
}
// perhaps this should be public?
fn setup_key_manager() -> KeyManager {
let mut rng = OsRng;
// for time being generate new keys each time...
console_log!("generated new set of keys");
KeyManager::new(&mut rng)
}
pub fn set_on_message(&mut self, on_message: js_sys::Function) {
self.on_message = Some(on_message);
}
@@ -85,62 +78,137 @@ impl NymClient {
self.on_gateway_connect = Some(on_connect)
}
pub fn set_disabled_credentials_mode(&mut self, disabled_credentials_mode: bool) {
console_log!(
"Setting disabled credentials mode to {}",
disabled_credentials_mode
);
self.disabled_credentials_mode = disabled_credentials_mode;
}
fn self_recipient(&self) -> Recipient {
fn as_mix_recipient(&self) -> Recipient {
Recipient::new(
*self.identity.public_key(),
*self.encryption_keys.public_key(),
self.gateway_client
.as_ref()
.expect("gateway connection was not established!")
.gateway_identity(),
*self.key_manager.identity_keypair().public_key(),
*self.key_manager.encryption_keypair().public_key(),
identity::PublicKey::from_base58_string(&self.config.gateway_endpoint.gateway_id)
.expect("no gateway has been selected"),
)
}
pub fn self_address(&self) -> String {
self.self_recipient().to_string()
self.as_mix_recipient().to_string()
}
// Right now it's impossible to have async exported functions to take `&self` rather than self
pub async fn initial_setup(self) -> Self {
let disabled_credentials_mode = self.disabled_credentials_mode;
// future constantly pumping loop cover traffic at some specified average rate
// the pumped traffic goes to the MixTrafficController
fn start_cover_traffic_stream(
&self,
topology_accessor: TopologyAccessor,
mix_tx: BatchMixMessageSender,
) {
console_log!("Starting loop cover traffic stream...");
let bandwidth_controller = None;
let mut client = self.get_and_update_topology().await;
let gateway = client.choose_gateway();
let (mixnet_messages_sender, mixnet_messages_receiver) = mpsc::unbounded();
let (ack_sender, ack_receiver) = mpsc::unbounded();
let mut gateway_client = GatewayClient::new(
gateway.clients_address(),
Arc::clone(&client.identity),
gateway.identity_key,
gateway.owner.clone(),
None,
mixnet_messages_sender,
ack_sender,
DEFAULT_GATEWAY_RESPONSE_TIMEOUT,
bandwidth_controller,
let mut stream = LoopCoverTrafficStream::new(
self.key_manager.ack_key(),
self.config.debug.average_ack_delay,
self.config.debug.average_packet_delay,
self.config.debug.loop_cover_traffic_average_delay,
mix_tx,
self.as_mix_recipient(),
topology_accessor,
);
gateway_client.set_disabled_credentials_mode(disabled_credentials_mode);
if self.config.debug.use_extended_packet_size {
stream.set_custom_packet_size(PacketSize::ExtendedPacket)
}
gateway_client
stream.start();
}
fn start_real_traffic_controller(
&self,
topology_accessor: TopologyAccessor,
ack_receiver: AcknowledgementReceiver,
input_receiver: InputMessageReceiver,
mix_sender: BatchMixMessageSender,
) {
let mut controller_config = real_messages_control::Config::new(
self.key_manager.ack_key(),
self.config.debug.ack_wait_multiplier,
self.config.debug.ack_wait_addition,
self.config.debug.average_ack_delay,
self.config.debug.message_sending_average_delay,
self.config.debug.average_packet_delay,
self.config.debug.disable_main_poisson_packet_distribution,
self.as_mix_recipient(),
);
if self.config.debug.use_extended_packet_size {
controller_config.set_custom_packet_size(PacketSize::ExtendedPacket)
}
console_log!("Starting real traffic stream...");
RealMessagesController::new(
controller_config,
ack_receiver,
input_receiver,
mix_sender,
topology_accessor,
)
.start();
}
// buffer controlling all messages fetched from provider
// required so that other components would be able to use them (say the websocket)
fn start_received_messages_buffer_controller(
&self,
query_receiver: ReceivedBufferRequestReceiver,
mixnet_receiver: MixnetMessageReceiver,
) {
console_log!("Starting received messages buffer controller...");
ReceivedMessagesBufferController::new(
self.key_manager.encryption_keypair(),
query_receiver,
mixnet_receiver,
)
.start()
}
async fn start_gateway_client(
&mut self,
mixnet_message_sender: MixnetMessageSender,
ack_sender: AcknowledgementSender,
) -> GatewayClient {
let gateway_id = self.config.gateway_endpoint.gateway_id.clone();
if gateway_id.is_empty() {
panic!("The identity of the gateway is unknown - did you run `get_gateway()`?")
}
let gateway_owner = self.config.gateway_endpoint.gateway_owner.clone();
if gateway_owner.is_empty() {
panic!("The owner of the gateway is unknown - did you run `get_gateway()`?")
}
let gateway_address = self.config.gateway_endpoint.gateway_listener.clone();
if gateway_address.is_empty() {
panic!("The address of the gateway is unknown - did you run `get_gateway()`?")
}
let gateway_identity = identity::PublicKey::from_base58_string(gateway_id)
.expect("provided gateway id is invalid!");
let mut gateway_client = GatewayClient::new(
gateway_address,
self.key_manager.identity_keypair(),
gateway_identity,
gateway_owner,
None,
mixnet_message_sender,
ack_sender,
self.config.debug.gateway_response_timeout,
None,
);
gateway_client.set_disabled_credentials_mode(self.config.disabled_credentials_mode);
let shared_keys = gateway_client
.authenticate_and_start()
.await
.expect("could not authenticate and start up the gateway connection");
self.key_manager.insert_gateway_shared_key(shared_keys);
client.gateway_client = Some(gateway_client);
match client.on_gateway_connect.as_ref() {
match self.on_gateway_connect.as_ref() {
Some(callback) => {
callback
.call0(&JsValue::null())
@@ -149,124 +217,168 @@ impl NymClient {
None => console_log!("Gateway connection established - no callback specified"),
};
let rng = rand::rngs::OsRng;
let message_preparer = MessagePreparer::new(
rng,
client.self_recipient(),
DEFAULT_AVERAGE_PACKET_DELAY,
DEFAULT_AVERAGE_ACK_DELAY,
gateway_client
}
// future responsible for periodically polling directory server and updating
// the current global view of topology
async fn start_topology_refresher(&mut self, topology_accessor: TopologyAccessor) {
let topology_refresher_config = TopologyRefresherConfig::new(
vec![self.config.validator_api_url.clone()],
self.config.debug.topology_refresh_rate,
env!("CARGO_PKG_VERSION").to_string(),
);
let mut topology_refresher =
TopologyRefresher::new(topology_refresher_config, topology_accessor);
// before returning, block entire runtime to refresh the current network view so that any
// components depending on topology would see a non-empty view
console_log!("Obtaining initial network topology");
topology_refresher.refresh().await;
let received_processor = ReceivedMessagesProcessor::new(
Arc::clone(&client.encryption_keys),
Arc::clone(&client.ack_key),
);
// TODO: a slightly more graceful termination here
if !topology_refresher.is_topology_routable().await {
panic!(
"The current network topology seem to be insufficient to route any packets through\
- check if enough nodes and a gateway are online"
);
}
client.message_preparer = Some(message_preparer);
console_log!("Starting topology refresher...");
spawn_local(received_processor.start_processing(
// TODO: re-enable
topology_refresher.start();
}
// controller for sending sphinx packets to mixnet (either real traffic or cover traffic)
// TODO: if we want to send control messages to gateway_client, this CAN'T take the ownership
// over it. Perhaps GatewayClient needs to be thread-shareable or have some channel for
// requests?
fn start_mix_traffic_controller(
&mut self,
mix_rx: BatchMixMessageReceiver,
gateway_client: GatewayClient,
) {
console_log!("Starting mix traffic controller...");
MixTrafficController::new(mix_rx, gateway_client).start();
}
// TODO: this procedure is extremely overcomplicated, because it's based off native client's behaviour
// which doesn't fully apply in this case
fn start_reconstructed_pusher(
&mut self,
received_buffer_request_sender: ReceivedBufferRequestSender,
) {
let on_message = self.on_message.take();
spawn_local(async move {
let (reconstructed_sender, mut reconstructed_receiver) = mpsc::unbounded();
// tell the buffer to start sending stuff to us
received_buffer_request_sender
.unbounded_send(ReceivedBufferMessage::ReceiverAnnounce(
reconstructed_sender,
))
.expect("the buffer request failed!");
let this = JsValue::null();
while let Some(reconstructed) = reconstructed_receiver.next().await {
if let Some(ref callback) = on_message {
for msg in reconstructed {
if msg.reply_surb.is_some() {
console_log!("the received message contained a reply-surb that we do not know how to handle (yet)")
}
let stringified = String::from_utf8_lossy(&msg.message).into_owned();
let arg1 = serde_wasm_bindgen::to_value(&stringified).unwrap();
callback.call1(&this, &arg1).expect("on message failed!");
}
} else {
console_warn!("no on_message callback was specified. the received message content is getting dropped");
console_log!("the raw messages: {:?}", reconstructed)
}
}
});
}
pub async fn start(mut self) -> NymClient {
console_log!("Starting wasm client '{}'", self.config.id);
// channels for inter-component communication
// TODO: make the channels be internally created by the relevant components
// rather than creating them here, so say for example the buffer controller would create the request channels
// and would allow anyone to clone the sender channel
// sphinx_message_sender is the transmitter for any component generating sphinx packets that are to be sent to the mixnet
// they are used by cover traffic stream and real traffic stream
// sphinx_message_receiver is the receiver used by MixTrafficController that sends the actual traffic
let (sphinx_message_sender, sphinx_message_receiver) = mpsc::unbounded();
// unwrapped_sphinx_sender is the transmitter of mixnet messages received from the gateway
// unwrapped_sphinx_receiver is the receiver for said messages - used by ReceivedMessagesBuffer
let (mixnet_messages_sender, mixnet_messages_receiver) = mpsc::unbounded();
// used for announcing connection or disconnection of a channel for pushing re-assembled messages to
let (received_buffer_request_sender, received_buffer_request_receiver) = mpsc::unbounded();
// channels responsible for controlling real messages
let (input_sender, input_receiver) = mpsc::unbounded::<InputMessage>();
// channels responsible for controlling ack messages
let (ack_sender, ack_receiver) = mpsc::unbounded();
let shared_topology_accessor = TopologyAccessor::new();
// the components are started in very specific order. Unless you know what you are doing,
// do not change that.
self.start_topology_refresher(shared_topology_accessor.clone())
.await;
self.start_received_messages_buffer_controller(
received_buffer_request_receiver,
mixnet_messages_receiver,
ack_receiver,
client.on_message.take().expect("on_message was not set!"),
));
);
client
let gateway_client = self
.start_gateway_client(mixnet_messages_sender, ack_sender)
.await;
self.start_mix_traffic_controller(sphinx_message_receiver, gateway_client);
self.start_real_traffic_controller(
shared_topology_accessor.clone(),
ack_receiver,
input_receiver,
sphinx_message_sender.clone(),
);
if !self.config.debug.disable_loop_cover_traffic_stream {
self.start_cover_traffic_stream(shared_topology_accessor, sphinx_message_sender);
}
self.start_reconstructed_pusher(received_buffer_request_sender);
self.input_tx = Some(input_sender);
self
}
// Right now it's impossible to have async exported functions to take `&mut self` rather than mut self
// TODO: try Rc<RefCell<Self>> approach?
pub async fn send_message(mut self, message: String, recipient: String) -> Self {
pub async fn send_message(self, message: String, recipient: String) -> Self {
console_log!("Sending {} to {}", message, recipient);
let message_bytes = message.into_bytes();
self.send_binary_message(message_bytes, recipient).await
}
pub async fn send_binary_message(self, message: Vec<u8>, recipient: String) -> Self {
console_log!("Sending {} bytes to {}", message.len(), recipient);
let recipient = Recipient::try_from_base58_string(recipient).unwrap();
let topology = self
.topology
let input_msg = InputMessage::new_fresh(recipient, message, false);
self.input_tx
.as_ref()
.expect("did not obtain topology before");
let message_preparer = self.message_preparer.as_mut().unwrap();
let (split_message, _reply_keys) = message_preparer
.prepare_and_split_message(message_bytes, false, topology)
.expect("failed to split the message");
let mut mix_packets = Vec::with_capacity(split_message.len());
for message_chunk in split_message {
// don't bother with acks etc. for time being
let prepared_fragment = message_preparer
.prepare_chunk_for_sending(message_chunk, topology, &self.ack_key, &recipient)
.unwrap();
console_warn!("packet is going to have round trip time of {:?}, but we're not going to do anything for acks anyway ", prepared_fragment.total_delay);
mix_packets.push(prepared_fragment.mix_packet);
}
self.gateway_client
.as_mut()
.unwrap()
.batch_send_mix_packets(mix_packets)
.await
.expect("start method was not called before!")
.unbounded_send(input_msg)
.unwrap();
self
}
pub(crate) fn choose_gateway(&self) -> &gateway::Node {
let topology = self
.topology
.as_ref()
.expect("did not obtain topology before");
// choose the first one available
assert!(!topology.gateways().is_empty());
topology.gateways().first().unwrap()
}
// Right now it's impossible to have async exported functions to take `&mut self` rather than mut self
// self: Rc<Self>
// or this: Rc<RefCell<Self>>
pub async fn get_and_update_topology(mut self) -> Self {
let new_topology = self.get_nym_topology().await;
self.update_topology(new_topology);
self
}
pub(crate) fn update_topology(&mut self, topology: NymTopology) {
self.topology = Some(topology)
}
// when updated to 0.10.0, to prevent headache later on, this function requires those two imports:
// use js_sys::Promise;
// use wasm_bindgen_futures::future_to_promise;
//
// pub fn get_full_topology_json(&self) -> Promise {
// let validator_client_config = validator_client::Config::new(
// vec![self.validator_server.clone()],
// &self.mixnet_contract_address,
// );
// let validator_client = validator_client::Client::new(validator_client_config);
//
// future_to_promise(async move {
// let topology = &validator_client.get_active_topology().await.unwrap();
// Ok(JsValue::from_serde(&topology).unwrap())
// })
// }
pub(crate) async fn get_nym_topology(&self) -> NymTopology {
let validator_client = validator_client::ApiClient::new(self.validator_server.clone());
let mixnodes = match validator_client.get_cached_active_mixnodes().await {
Err(err) => panic!("{:?}", err),
Ok(mixes) => mixes,
};
let gateways = match validator_client.get_cached_gateways().await {
Err(err) => panic!("{}", err),
Ok(gateways) => gateways,
};
let topology = nym_topology_from_detailed(mixnodes, gateways);
let version = env!("CARGO_PKG_VERSION");
topology.filter_system_version(version)
}
}
@@ -1,183 +0,0 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crypto::asymmetric::encryption;
use futures::StreamExt;
use gateway_client::{AcknowledgementReceiver, MixnetMessageReceiver};
use nymsphinx::acknowledgements::identifier::recover_identifier;
use nymsphinx::acknowledgements::AckKey;
use nymsphinx::chunking::fragment::{FragmentIdentifier, COVER_FRAG_ID};
use nymsphinx::receiver::{MessageReceiver, MessageRecoveryError, ReconstructedMessage};
use serde::{Deserialize, Serialize};
use std::collections::HashSet;
use std::sync::Arc;
use wasm_bindgen::JsValue;
use wasm_utils::{console_error, console_log, console_warn};
#[derive(Serialize, Deserialize)]
pub struct ProcessedMessage {
pub message: String,
pub reply_surb: Option<String>,
}
impl From<ReconstructedMessage> for ProcessedMessage {
fn from(reconstructed: ReconstructedMessage) -> Self {
ProcessedMessage {
message: String::from_utf8_lossy(&reconstructed.message).into_owned(),
reply_surb: reconstructed
.reply_surb
.map(|reply_surb| reply_surb.to_base58_string()),
}
}
}
pub(crate) struct ReceivedMessagesProcessor {
local_encryption_keypair: Arc<encryption::KeyPair>,
ack_key: Arc<AckKey>,
message_receiver: MessageReceiver,
recently_reconstructed: HashSet<i32>,
}
impl ReceivedMessagesProcessor {
pub(crate) fn new(
local_encryption_keypair: Arc<encryption::KeyPair>,
ack_key: Arc<AckKey>,
) -> Self {
ReceivedMessagesProcessor {
local_encryption_keypair,
ack_key,
message_receiver: MessageReceiver::new(),
recently_reconstructed: HashSet::new(),
}
}
// TODO: duplicate code from received_buffer.rs in client-core....
fn process_received_fragment(&mut self, raw_fragment: Vec<u8>) -> Option<ProcessedMessage> {
let fragment_data = match self
.message_receiver
.recover_plaintext(self.local_encryption_keypair.private_key(), raw_fragment)
{
Err(e) => {
console_warn!("failed to recover fragment data: {:?}. The whole underlying message might be corrupted and unrecoverable!", e);
return None;
}
Ok(frag_data) => frag_data,
};
if nymsphinx::cover::is_cover(&fragment_data) {
// currently won't be the case for a loooong time
console_log!("The message was a loop cover message! Skipping it");
return None;
}
let fragment = match self.message_receiver.recover_fragment(&fragment_data) {
Err(e) => {
console_warn!("failed to recover fragment from raw data: {:?}. The whole underlying message might be corrupted and unrecoverable!", e);
return None;
}
Ok(frag) => frag,
};
if self.recently_reconstructed.contains(&fragment.id()) {
console_warn!("Received a chunk of already re-assembled message ({:?})! It probably got here because the ack got lost", fragment.id());
return None;
}
// if we returned an error the underlying message is malformed in some way
match self.message_receiver.insert_new_fragment(fragment) {
Err(err) => match err {
MessageRecoveryError::MalformedReconstructedMessage(message_sets) => {
// TODO: should we really insert reconstructed sets? could this be abused for some attack?
for set_id in message_sets {
if !self.recently_reconstructed.insert(set_id) {
// or perhaps we should even panic at this point?
console_error!(
"Reconstructed another message containing already used set id!"
)
}
}
None
}
_ => unreachable!(
"no other error kind should have been returned here! If so, it's a bug!"
),
},
Ok(reconstruction_result) => match reconstruction_result {
Some((reconstructed_message, used_sets)) => {
for set_id in used_sets {
if !self.recently_reconstructed.insert(set_id) {
// or perhaps we should even panic at this point?
console_error!(
"Reconstructed another message containing already used set id!"
)
}
}
Some(reconstructed_message.into())
}
None => None,
},
}
}
// TODO: duplicate code from acknowledgement listener...
fn process_received_ack(&self, ack_content: Vec<u8>) {
let frag_id = match recover_identifier(&self.ack_key, &ack_content)
.map(FragmentIdentifier::try_from_bytes)
{
Some(Ok(frag_id)) => frag_id,
_ => {
console_warn!("Received invalid ACK!"); // should we do anything else about that?
return;
}
};
// if we received an ack for cover message or a reply there will be nothing to remove,
// because nothing was inserted in the first place
if frag_id == COVER_FRAG_ID {
return;
} else if frag_id.is_reply() {
console_warn!("Received an ack for a reply message - no need to do anything! (don't know what to do!)");
// TODO: probably there will need to be some extra procedure here, something to notify
// user that his reply reached the recipient (since we got an ack)
return;
}
console_log!(
"Received an ack for fragment {:?} but can't do anything more about it just yet...",
frag_id
);
// here be ack handling...
}
// TODO: this needs to have a shutdown signal!
pub(crate) async fn start_processing(
mut self,
mixnet_messages_receiver: MixnetMessageReceiver,
ack_receiver: AcknowledgementReceiver,
on_message: js_sys::Function,
) {
let mut fused_mixnet_messages_receiver = mixnet_messages_receiver.fuse();
let mut fused_ack_receiver = ack_receiver.fuse();
let this = JsValue::null();
loop {
futures::select! {
mix_msgs = fused_mixnet_messages_receiver.next() => {
for mix_msg in mix_msgs.unwrap() {
if let Some(processed) = self.process_received_fragment(mix_msg) {
let arg1 = JsValue::from_serde(&processed).unwrap();
on_message.call1(&this, &arg1).expect("on message failed!");
}
}
}
acks = fused_ack_receiver.next() => {
for ack in acks.unwrap() {
self.process_received_ack(ack);
}
}
}
}
}
}
@@ -0,0 +1,44 @@
// Copyright 2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use client_core::config::GatewayEndpoint;
use wasm_bindgen::prelude::*;
#[wasm_bindgen]
pub async fn get_gateway(api_server: String, preferred: Option<String>) -> GatewayEndpoint {
let validator_client = validator_client::ApiClient::new(api_server.parse().unwrap());
let gateways = match validator_client.get_cached_gateways().await {
Err(err) => panic!("failed to obtain list of all gateways - {}", err),
Ok(gateways) => gateways,
};
if let Some(preferred) = preferred {
if let Some(details) = gateways
.iter()
.find(|g| g.gateway.identity_key == preferred)
{
return GatewayEndpoint {
gateway_id: details.gateway.identity_key.clone(),
gateway_owner: details.owner.to_string(),
gateway_listener: format!(
"ws://{}:{}",
details.gateway.host, details.gateway.clients_port
),
};
}
}
let details = gateways
.first()
.expect("current topology holds no gateways");
GatewayEndpoint {
gateway_id: details.gateway.identity_key.clone(),
gateway_owner: details.owner.to_string(),
gateway_listener: format!(
"ws://{}:{}",
details.gateway.host, details.gateway.clients_port
),
}
}
+2
View File
@@ -5,6 +5,8 @@ use wasm_bindgen::prelude::*;
#[cfg(target_arch = "wasm32")]
mod client;
#[cfg(target_arch = "wasm32")]
pub mod gateway_selector;
#[wasm_bindgen]
pub fn set_panic_hook() {
+6 -6
View File
@@ -14,9 +14,8 @@ log = "0.4"
thiserror = "1.0"
url = "2.2"
rand = { version = "0.7.3", features = ["wasm-bindgen"] }
secp256k1 = { version = "0.20.3", optional = true }
web3 = { version = "0.17.0", default-features = false, optional = true }
async-trait = { version = "0.1.51" }
tokio = { version = "1.21.2", features = ["macros"] }
# internal
coconut-interface = { path = "../../coconut-interface", optional = true }
@@ -28,13 +27,14 @@ nymsphinx = { path = "../../nymsphinx" }
pemstore = { path = "../../pemstore" }
validator-client = { path = "../validator-client", optional = true }
[dependencies.tungstenite]
version = "0.13"
default-features = false
# non-wasm-only dependencies
[target."cfg(not(target_arch = \"wasm32\"))".dependencies.tokio]
version = "1.19.1"
version = "1.21.2"
features = ["macros", "rt", "net", "sync", "time"]
[target."cfg(not(target_arch = \"wasm32\"))".dependencies.tokio-stream]
@@ -61,8 +61,9 @@ version = "0.4"
path = "../../wasm-utils"
# only import it in wasm. Prefer proper tokio timer in non-wasm
[target."cfg(target_arch = \"wasm32\")".dependencies.fluvio-wasm-timer]
version = "0.2.5"
[target."cfg(target_arch = \"wasm32\")".dependencies.wasm-timer]
git = "https://github.com/mmsinclair/wasm-timer"
rev = "b9d1a54ad514c2f230a026afe0dde341e98cd7b6"
# this is due to tungstenite using `rand` 0.8 and associated changes in `getrandom` crate
# which now does not support wasm32-unknown-unknown target by default.
@@ -80,4 +81,3 @@ features = ["js"]
[features]
coconut = ["gateway-requests/coconut", "coconut-interface", "validator-client", "credentials/coconut"]
wasm = []
default = ["web3/default", "secp256k1"]
@@ -36,7 +36,7 @@ use tungstenite::protocol::Message;
use tokio_tungstenite::connect_async;
#[cfg(target_arch = "wasm32")]
use fluvio_wasm_timer as wasm_timer;
use wasm_timer;
#[cfg(target_arch = "wasm32")]
use wasm_utils::websocket::JSWebsocket;
@@ -11,8 +11,6 @@ use thiserror::Error;
use tungstenite::Error as WsError;
#[cfg(target_arch = "wasm32")]
use wasm_bindgen::JsValue;
#[cfg(not(feature = "coconut"))]
use web3::{contract::Error as Web3ContractError, Error as Web3Error};
#[derive(Debug, Error)]
pub enum GatewayClientError {
@@ -37,18 +35,6 @@ pub enum GatewayClientError {
#[error("There was a network error")]
NetworkErrorWasm(JsValue),
#[cfg(not(feature = "coconut"))]
#[error("Could not burn ERC20 token in Ethereum smart contract - {0}")]
BurnTokenError(#[from] Web3Error),
#[cfg(not(feature = "coconut"))]
#[error("Could not run web3 contract - {0}")]
Web3ContractError(#[from] Web3ContractError),
#[cfg(not(feature = "coconut"))]
#[error("Invalid Ethereum private key")]
InvalidEthereumPrivateKey,
#[error("Invalid URL - {0}")]
InvalidURL(String),
@@ -25,3 +25,15 @@ pub(crate) fn cleanup_socket_message(
None => Err(GatewayClientError::ConnectionAbruptlyClosed),
}
}
pub(crate) fn cleanup_socket_messages(
msgs: Option<Vec<Result<Message, WsError>>>,
) -> Result<Vec<Message>, GatewayClientError> {
match msgs {
Some(msgs) => msgs
.into_iter()
.map(|msg| msg.map_err(GatewayClientError::NetworkError))
.collect(),
None => Err(GatewayClientError::ConnectionAbruptlyClosed),
}
}
@@ -59,11 +59,12 @@ impl PacketRouter {
} else if received_packet.len()
== PacketSize::RegularPacket.plaintext_size() - ack_overhead
{
trace!("routing regular packet");
received_messages.push(received_packet);
} else if received_packet.len()
== PacketSize::ExtendedPacket.plaintext_size() - ack_overhead
{
warn!("received extended packet? Did not expect this...");
trace!("routing extended packet");
received_messages.push(received_packet);
} else {
// this can happen if other clients are not padding their messages
@@ -1,12 +1,12 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// Copyright 2021-2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::cleanup_socket_message;
use crate::cleanup_socket_messages;
use crate::error::GatewayClientError;
use crate::packet_router::PacketRouter;
use futures::channel::oneshot;
use futures::stream::{SplitSink, SplitStream};
use futures::{FutureExt, SinkExt, StreamExt};
use futures::{SinkExt, StreamExt};
use gateway_requests::registration::handshake::SharedKeys;
use gateway_requests::BinaryResponse;
use log::*;
@@ -44,16 +44,15 @@ pub(crate) struct PartiallyDelegated {
}
impl PartiallyDelegated {
fn route_socket_message(
ws_msg: Message,
packet_router: &mut PacketRouter,
shared_key: &SharedKeys,
) -> Result<(), GatewayClientError> {
match ws_msg {
Message::Binary(bin_msg) => {
// this function decrypts the request and checks the MAC
let plaintext =
match BinaryResponse::try_from_encrypted_tagged_bytes(bin_msg, shared_key) {
fn recover_received_plaintexts(ws_msgs: Vec<Message>, shared_key: &SharedKeys) -> Vec<Vec<u8>> {
let mut plaintexts = Vec::with_capacity(ws_msgs.len());
for ws_msg in ws_msgs {
match ws_msg {
Message::Binary(bin_msg) => {
// this function decrypts the request and checks the MAC
let plaintext = match BinaryResponse::try_from_encrypted_tagged_bytes(
bin_msg, shared_key,
) {
Ok(bin_response) => match bin_response {
BinaryResponse::PushedMixMessage(plaintext) => plaintext,
},
@@ -62,29 +61,37 @@ impl PartiallyDelegated {
"message received from the gateway was malformed! - {:?}",
err
);
return Ok(());
continue;
}
};
plaintexts.push(plaintext)
}
// I think that in the future we should perhaps have some sequence number system, i.e.
// so each request/response pair can be easily identified, so that if messages are
// not ordered (for some peculiar reason) we wouldn't lose anything.
// This would also require NOT discarding any text responses here.
// TODO: some batching mechanism to allow reading and sending more than
// one packet at the time, because the receiver can easily handle it
packet_router.route_received(vec![plaintext])
}
// I think that in the future we should perhaps have some sequence number system, i.e.
// so each request/response pair can be easily identified, so that if messages are
// not ordered (for some peculiar reason) we wouldn't lose anything.
// This would also require NOT discarding any text responses here.
// TODO: those can return the "send confirmations" - perhaps it should be somehow worked around?
Message::Text(text) => {
trace!(
// TODO: those can return the "send confirmations" - perhaps it should be somehow worked around?
Message::Text(text) => {
trace!(
"received a text message - probably a response to some previous query! - {}",
text
);
Ok(())
continue;
}
_ => continue,
}
_ => Ok(()),
}
plaintexts
}
fn route_socket_messages(
ws_msgs: Vec<Message>,
packet_router: &mut PacketRouter,
shared_key: &SharedKeys,
) -> Result<(), GatewayClientError> {
let plaintexts = Self::recover_received_plaintexts(ws_msgs, shared_key);
packet_router.route_received(plaintexts)
}
pub(crate) fn split_and_listen_for_mixnet_messages(
@@ -101,47 +108,46 @@ impl PartiallyDelegated {
let (sink, mut stream) = conn.split();
let mixnet_receiver_future = async move {
let mut fused_receiver = notify_receiver.fuse();
let mut fused_stream = (&mut stream).fuse();
let mut notify_receiver = notify_receiver;
let mut chunk_stream = (&mut stream).ready_chunks(8);
let mut packet_router = packet_router;
// Bit of an ugly workaround for selecting on an `Option` without having access to
// `tokio::select`
#[cfg(not(target_arch = "wasm32"))]
let shutdown = {
let m_shutdown = shutdown.clone();
async {
if let Some(mut s) = m_shutdown {
if let Some(mut s) = shutdown {
s.recv().await
} else {
std::future::pending::<()>().await
}
}
.fuse()
};
#[cfg(not(target_arch = "wasm32"))]
tokio::pin!(shutdown);
#[cfg(target_arch = "wasm32")]
let mut shutdown = std::future::pending::<()>().fuse();
let mut shutdown = std::future::pending::<()>();
let ret_err = loop {
futures::select! {
_ = shutdown => {
tokio::select! {
_ = &mut shutdown => {
log::trace!("GatewayClient listener: Received shutdown");
log::debug!("GatewayClient listener: Exiting");
return;
}
_ = &mut fused_receiver => {
_ = &mut notify_receiver => {
break Ok(());
}
msg = fused_stream.next() => {
let ws_msg = match cleanup_socket_message(msg) {
msgs = chunk_stream.next() => {
let ws_msgs = match cleanup_socket_messages(msgs) {
Err(err) => break Err(err),
Ok(msg) => msg
Ok(msgs) => msgs
};
if let Err(err) = Self::route_socket_message(ws_msg, &mut packet_router, shared_key.as_ref()) {
log::warn!("Route socket message failed: {:?}", err);
if let Err(err) = Self::route_socket_messages(ws_msgs, &mut packet_router, shared_key.as_ref()) {
log::warn!("Route socket messages failed: {:?}", err);
}
}
};
+1 -1
View File
@@ -9,7 +9,7 @@ edition = "2021"
[dependencies]
futures = "0.3"
log = "0.4.8"
tokio = { version = "1.19.1", features = ["time", "net", "rt"] }
tokio = { version = "1.21.2", features = ["time", "net", "rt"] }
tokio-util = { version = "0.7.3", features = ["codec"] }
# internal
@@ -186,7 +186,7 @@ impl Client {
address.into(),
receiver,
initial_connection_timeout,
&current_reconnection_attempt,
&*current_reconnection_attempt,
)
.await
});
@@ -22,7 +22,7 @@ reqwest = { version = "0.11", features = ["json"] }
thiserror = "1"
log = "0.4"
url = { version = "2.2", features = ["serde"] }
tokio = { version = "1.19.1", features = ["sync", "time"] }
tokio = { version = "1.21.2", features = ["sync", "time"] }
futures = "0.3"
coconut-interface = { path = "../../coconut-interface" }
+281 -252
View File
@@ -2,33 +2,35 @@
// SPDX-License-Identifier: Apache-2.0
use crate::{validator_api, ValidatorClientError};
use mixnet_contract_common::mixnode::MixNodeDetails;
use mixnet_contract_common::NodeId;
use mixnet_contract_common::{GatewayBond, IdentityKeyRef};
use mixnet_contract_common::{GatewayBond, IdentityKeyRef, MixNodeBond};
use url::Url;
use validator_api_requests::coconut::{
BlindSignRequestBody, BlindedSignatureResponse, CosmosAddressResponse, VerificationKeyResponse,
VerifyCredentialBody, VerifyCredentialResponse,
};
use validator_api_requests::models::{
GatewayCoreStatusResponse, MixnodeCoreStatusResponse, MixnodeStatusResponse,
RewardEstimationResponse, StakeSaturationResponse,
CoreNodeStatusResponse, MixnodeStatusResponse, RewardEstimationResponse,
StakeSaturationResponse,
};
#[cfg(feature = "nymd-client")]
use crate::nymd::traits::MixnetQueryClient;
use validator_api_requests::models::{MixNodeBondAnnotated, UptimeResponse};
#[cfg(feature = "nymd-client")]
use crate::nymd::{self, CosmWasmClient, NymdClient, QueryNymdClient, SigningNymdClient};
use crate::nymd::{
self, error::NymdError, CosmWasmClient, NymdClient, QueryNymdClient, SigningNymdClient,
};
#[cfg(feature = "nymd-client")]
use mixnet_contract_common::{
mixnode::MixNodeBond,
pending_events::{PendingEpochEvent, PendingIntervalEvent},
Delegation, RewardedSetNodeStatus, UnbondedMixnode,
mixnode::DelegationEvent, ContractStateParams, Delegation, IdentityKey, Interval,
MixnetContractVersion, MixnodeRewardingStatusResponse, RewardedSetNodeStatus,
RewardedSetUpdateDetails,
};
#[cfg(feature = "nymd-client")]
use network_defaults::NymNetworkDetails;
#[cfg(feature = "nymd-client")]
use validator_api_requests::models::MixNodeBondAnnotated;
use std::collections::{HashMap, HashSet};
#[cfg(feature = "nymd-client")]
#[must_use]
@@ -189,9 +191,12 @@ impl Client<QueryNymdClient> {
}
}
// nymd wrappers
#[cfg(feature = "nymd-client")]
impl<C> Client<C> {
pub fn change_validator_api(&mut self, new_endpoint: Url) {
self.validator_api.change_url(new_endpoint)
}
// use case: somebody initialised client without a contract in order to upload and initialise one
// and now they want to actually use it without making new client
pub fn set_mixnet_contract_address(&mut self, mixnet_contract_address: cosmrs::AccountId) {
@@ -203,22 +208,203 @@ impl<C> Client<C> {
self.nymd.mixnet_contract_address().clone()
}
// basically handles paging for us
pub async fn get_all_nymd_rewarded_set_mixnodes(
pub async fn get_cached_mixnodes(&self) -> Result<Vec<MixNodeBond>, ValidatorClientError> {
Ok(self.validator_api.get_mixnodes().await?)
}
pub async fn get_cached_mixnodes_detailed(
&self,
) -> Result<Vec<(NodeId, RewardedSetNodeStatus)>, ValidatorClientError>
) -> Result<Vec<MixNodeBondAnnotated>, ValidatorClientError> {
Ok(self.validator_api.get_mixnodes_detailed().await?)
}
pub async fn get_cached_rewarded_mixnodes(
&self,
) -> Result<Vec<MixNodeBond>, ValidatorClientError> {
Ok(self.validator_api.get_rewarded_mixnodes().await?)
}
pub async fn get_cached_rewarded_mixnodes_detailed(
&self,
) -> Result<Vec<MixNodeBondAnnotated>, ValidatorClientError> {
Ok(self.validator_api.get_rewarded_mixnodes_detailed().await?)
}
pub async fn get_cached_active_mixnodes(
&self,
) -> Result<Vec<MixNodeBond>, ValidatorClientError> {
Ok(self.validator_api.get_active_mixnodes().await?)
}
pub async fn get_cached_active_mixnodes_detailed(
&self,
) -> Result<Vec<MixNodeBondAnnotated>, ValidatorClientError> {
Ok(self.validator_api.get_active_mixnodes_detailed().await?)
}
pub async fn get_cached_gateways(&self) -> Result<Vec<GatewayBond>, ValidatorClientError> {
Ok(self.validator_api.get_gateways().await?)
}
pub async fn get_contract_settings(&self) -> Result<ContractStateParams, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_contract_settings().await?)
}
pub async fn get_operator_rewards(&self, address: String) -> Result<u128, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_operator_rewards(address).await?.u128())
}
pub async fn get_delegator_rewards(
&self,
address: String,
mix_identity: IdentityKey,
proxy: Option<String>,
) -> Result<u128, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self
.nymd
.get_delegator_rewards(address, mix_identity, proxy)
.await?
.u128())
}
pub async fn get_pending_delegation_events(
&self,
owner_address: String,
proxy_address: Option<String>,
) -> Result<Vec<DelegationEvent>, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self
.nymd
.get_pending_delegation_events(owner_address, proxy_address)
.await?)
}
pub async fn get_current_epoch(&self) -> Result<Interval, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_current_epoch().await?)
}
pub async fn get_current_operator_cost(&self) -> Result<u64, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_current_operator_cost().await?)
}
pub async fn get_mixnet_contract_version(&self) -> Result<MixnetContractVersion, NymdError>
where
C: CosmWasmClient + Sync,
{
self.nymd.get_mixnet_contract_version().await
}
pub async fn get_rewarding_status(
&self,
mix_identity: mixnet_contract_common::IdentityKey,
rewarding_interval_nonce: u32,
) -> Result<MixnodeRewardingStatusResponse, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self
.nymd
.get_rewarding_status(mix_identity, rewarding_interval_nonce)
.await?)
}
pub async fn get_reward_pool(&self) -> Result<u128, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_reward_pool().await?.u128())
}
pub async fn get_circulating_supply(&self) -> Result<u128, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_circulating_supply().await?.u128())
}
pub async fn get_sybil_resistance_percent(&self) -> Result<u8, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_sybil_resistance_percent().await?)
}
pub async fn get_active_set_work_factor(&self) -> Result<u8, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_active_set_work_factor().await?)
}
pub async fn get_epochs_in_interval(&self) -> Result<u64, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_epochs_in_interval().await?)
}
pub async fn get_interval_reward_percent(&self) -> Result<u8, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self.nymd.get_interval_reward_percent().await?)
}
pub async fn get_current_rewarded_set_update_details(
&self,
) -> Result<RewardedSetUpdateDetails, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
Ok(self
.nymd
.query_current_rewarded_set_update_details()
.await?)
}
// basically handles paging for us
pub async fn get_all_nymd_rewarded_set_mixnode_identities(
&self,
) -> Result<Vec<(IdentityKey, RewardedSetNodeStatus)>, ValidatorClientError>
where
C: CosmWasmClient + Sync,
{
let mut identities = Vec::new();
let mut start_after = None;
let mut height = None;
loop {
let mut paged_response = self
.nymd
.get_rewarded_set_paged(start_after.take(), self.rewarded_set_page_limit)
.get_rewarded_set_identities_paged(
start_after.take(),
self.rewarded_set_page_limit,
height,
)
.await?;
identities.append(&mut paged_response.nodes);
identities.append(&mut paged_response.identities);
if height.is_none() {
// keep using the same height (the first query happened at the most recent height)
height = Some(paged_response.at_height)
}
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
@@ -230,122 +416,83 @@ impl<C> Client<C> {
Ok(identities)
}
pub async fn get_all_nymd_mixnode_bonds(&self) -> Result<Vec<MixNodeBond>, ValidatorClientError>
pub async fn get_nymd_rewarded_and_active_sets(
&self,
) -> Result<Vec<(MixNodeBond, RewardedSetNodeStatus)>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut mixnodes = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_mixnode_bonds_paged(self.mixnode_page_limit, start_after.take())
.await?;
mixnodes.append(&mut paged_response.nodes);
let all_mixnodes = self.get_all_nymd_mixnodes().await?;
let rewarded_set_identities = self
.get_all_nymd_rewarded_set_mixnode_identities()
.await?
.into_iter()
.collect::<HashMap<_, _>>();
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(mixnodes)
Ok(all_mixnodes
.into_iter()
.filter_map(|node| {
rewarded_set_identities
.get(node.identity())
.map(|status| (node, *status))
})
.collect())
}
pub async fn get_all_nymd_mixnodes_detailed(
&self,
) -> Result<Vec<MixNodeDetails>, ValidatorClientError>
/// If you need both rewarded and the active set, consider using [Self::get_nymd_rewarded_and_active_sets] instead
pub async fn get_nymd_rewarded_set(&self) -> Result<Vec<MixNodeBond>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut mixnodes = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_mixnodes_detailed_paged(self.mixnode_page_limit, start_after.take())
.await?;
mixnodes.append(&mut paged_response.nodes);
let all_mixnodes = self.get_all_nymd_mixnodes().await?;
let rewarded_set_identities = self
.get_all_nymd_rewarded_set_mixnode_identities()
.await?
.into_iter()
.map(|(identity, _status)| identity)
.collect::<HashSet<_>>();
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(mixnodes)
Ok(all_mixnodes
.into_iter()
.filter(|node| rewarded_set_identities.contains(node.identity()))
.collect())
}
pub async fn get_all_nymd_unbonded_mixnodes(
&self,
) -> Result<Vec<(NodeId, UnbondedMixnode)>, ValidatorClientError>
/// If you need both rewarded and the active set, consider using [Self::get_nymd_rewarded_and_active_sets] instead
pub async fn get_nymd_active_set(&self) -> Result<Vec<MixNodeBond>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut mixnodes = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_unbonded_paged(self.mixnode_page_limit, start_after.take())
.await?;
mixnodes.append(&mut paged_response.nodes);
let all_mixnodes = self.get_all_nymd_mixnodes().await?;
let active_set_identities = self
.get_all_nymd_rewarded_set_mixnode_identities()
.await?
.into_iter()
.filter_map(|(identity, status)| {
if status.is_active() {
Some(identity)
} else {
None
}
})
.collect::<HashSet<_>>();
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(mixnodes)
Ok(all_mixnodes
.into_iter()
.filter(|node| active_set_identities.contains(node.identity()))
.collect())
}
pub async fn get_all_nymd_unbonded_mixnodes_by_owner(
&self,
owner: &cosmrs::AccountId,
) -> Result<Vec<(NodeId, UnbondedMixnode)>, ValidatorClientError>
pub async fn get_all_nymd_mixnodes(&self) -> Result<Vec<MixNodeBond>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut mixnodes = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_unbonded_by_owner_paged(owner, self.mixnode_page_limit, start_after.take())
.await?;
mixnodes.append(&mut paged_response.nodes);
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(mixnodes)
}
pub async fn get_all_nymd_unbonded_mixnodes_by_identity(
&self,
identity_key: String,
) -> Result<Vec<(NodeId, UnbondedMixnode)>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
{
let mut mixnodes = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_unbonded_by_identity_paged(
identity_key.clone(),
self.mixnode_page_limit,
start_after.take(),
)
.get_mixnodes_paged(start_after.take(), self.mixnode_page_limit)
.await?;
mixnodes.append(&mut paged_response.nodes);
@@ -361,7 +508,7 @@ impl<C> Client<C> {
pub async fn get_all_nymd_gateways(&self) -> Result<Vec<GatewayBond>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut gateways = Vec::new();
let mut start_after = None;
@@ -384,18 +531,18 @@ impl<C> Client<C> {
pub async fn get_all_nymd_single_mixnode_delegations(
&self,
mix_id: NodeId,
identity: IdentityKey,
) -> Result<Vec<Delegation>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut delegations = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_mixnode_delegations_paged(
mix_id,
.get_mix_delegations_paged(
identity.clone(),
start_after.take(),
self.mixnode_delegations_page_limit,
)
@@ -417,7 +564,7 @@ impl<C> Client<C> {
delegation_owner: &cosmrs::AccountId,
) -> Result<Vec<Delegation>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
C: CosmWasmClient + Sync,
{
let mut delegations = Vec::new();
let mut start_after = None;
@@ -442,128 +589,10 @@ impl<C> Client<C> {
Ok(delegations)
}
pub async fn get_all_network_delegations(&self) -> Result<Vec<Delegation>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
{
let mut delegations = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_all_network_delegations_paged(
start_after.take(),
self.mixnode_delegations_page_limit,
)
.await?;
delegations.append(&mut paged_response.delegations);
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(delegations)
}
pub async fn get_all_nymd_pending_epoch_events(
pub async fn get_mixnode_avg_uptimes(
&self,
) -> Result<Vec<PendingEpochEvent>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
{
let mut events = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_pending_epoch_events_paged(start_after.take(), self.rewarded_set_page_limit)
.await?;
events.append(&mut paged_response.events);
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(events)
}
pub async fn get_all_nymd_pending_interval_events(
&self,
) -> Result<Vec<PendingIntervalEvent>, ValidatorClientError>
where
C: CosmWasmClient + Sync + Send,
{
let mut events = Vec::new();
let mut start_after = None;
loop {
let mut paged_response = self
.nymd
.get_pending_interval_events_paged(start_after.take(), self.rewarded_set_page_limit)
.await?;
events.append(&mut paged_response.events);
if let Some(start_after_res) = paged_response.start_next_after {
start_after = Some(start_after_res)
} else {
break;
}
}
Ok(events)
}
}
// validator-api wrappers
#[cfg(feature = "nymd-client")]
impl<C> Client<C> {
pub fn change_validator_api(&mut self, new_endpoint: Url) {
self.validator_api.change_url(new_endpoint)
}
pub async fn get_cached_mixnodes(&self) -> Result<Vec<MixNodeDetails>, ValidatorClientError> {
Ok(self.validator_api.get_mixnodes().await?)
}
pub async fn get_cached_mixnodes_detailed(
&self,
) -> Result<Vec<MixNodeBondAnnotated>, ValidatorClientError> {
Ok(self.validator_api.get_mixnodes_detailed().await?)
}
pub async fn get_cached_rewarded_mixnodes(
&self,
) -> Result<Vec<MixNodeDetails>, ValidatorClientError> {
Ok(self.validator_api.get_rewarded_mixnodes().await?)
}
pub async fn get_cached_rewarded_mixnodes_detailed(
&self,
) -> Result<Vec<MixNodeBondAnnotated>, ValidatorClientError> {
Ok(self.validator_api.get_rewarded_mixnodes_detailed().await?)
}
pub async fn get_cached_active_mixnodes(
&self,
) -> Result<Vec<MixNodeDetails>, ValidatorClientError> {
Ok(self.validator_api.get_active_mixnodes().await?)
}
pub async fn get_cached_active_mixnodes_detailed(
&self,
) -> Result<Vec<MixNodeBondAnnotated>, ValidatorClientError> {
Ok(self.validator_api.get_active_mixnodes_detailed().await?)
}
pub async fn get_cached_gateways(&self) -> Result<Vec<GatewayBond>, ValidatorClientError> {
Ok(self.validator_api.get_gateways().await?)
) -> Result<Vec<UptimeResponse>, ValidatorClientError> {
Ok(self.validator_api.get_mixnode_avg_uptimes().await?)
}
pub async fn blind_sign(
@@ -601,17 +630,17 @@ impl ApiClient {
pub async fn get_cached_active_mixnodes(
&self,
) -> Result<Vec<MixNodeDetails>, ValidatorClientError> {
) -> Result<Vec<MixNodeBond>, ValidatorClientError> {
Ok(self.validator_api.get_active_mixnodes().await?)
}
pub async fn get_cached_rewarded_mixnodes(
&self,
) -> Result<Vec<MixNodeDetails>, ValidatorClientError> {
) -> Result<Vec<MixNodeBond>, ValidatorClientError> {
Ok(self.validator_api.get_rewarded_mixnodes().await?)
}
pub async fn get_cached_mixnodes(&self) -> Result<Vec<MixNodeDetails>, ValidatorClientError> {
pub async fn get_cached_mixnodes(&self) -> Result<Vec<MixNodeBond>, ValidatorClientError> {
Ok(self.validator_api.get_mixnodes().await?)
}
@@ -623,7 +652,7 @@ impl ApiClient {
&self,
identity: IdentityKeyRef<'_>,
since: Option<i64>,
) -> Result<GatewayCoreStatusResponse, ValidatorClientError> {
) -> Result<CoreNodeStatusResponse, ValidatorClientError> {
Ok(self
.validator_api
.get_gateway_core_status_count(identity, since)
@@ -632,39 +661,39 @@ impl ApiClient {
pub async fn get_mixnode_core_status_count(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
since: Option<i64>,
) -> Result<MixnodeCoreStatusResponse, ValidatorClientError> {
) -> Result<CoreNodeStatusResponse, ValidatorClientError> {
Ok(self
.validator_api
.get_mixnode_core_status_count(mix_id, since)
.get_mixnode_core_status_count(identity, since)
.await?)
}
pub async fn get_mixnode_status(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<MixnodeStatusResponse, ValidatorClientError> {
Ok(self.validator_api.get_mixnode_status(mix_id).await?)
Ok(self.validator_api.get_mixnode_status(identity).await?)
}
pub async fn get_mixnode_reward_estimation(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<RewardEstimationResponse, ValidatorClientError> {
Ok(self
.validator_api
.get_mixnode_reward_estimation(mix_id)
.get_mixnode_reward_estimation(identity)
.await?)
}
pub async fn get_mixnode_stake_saturation(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<StakeSaturationResponse, ValidatorClientError> {
Ok(self
.validator_api
.get_mixnode_stake_saturation(mix_id)
.get_mixnode_stake_saturation(identity)
.await?)
}
@@ -1,12 +1,11 @@
use crate::nymd::error::NymdError;
use crate::nymd::{Config as ClientConfig, NymdClient, QueryNymdClient};
use crate::ApiClient;
use network_defaults::all::Network;
use crate::nymd::traits::MixnetQueryClient;
use colored::Colorize;
use core::fmt;
use itertools::Itertools;
use network_defaults::NymNetworkDetails;
use std::collections::HashMap;
use std::hash::BuildHasher;
use std::time::Duration;
@@ -18,12 +17,12 @@ const CONNECTION_TEST_TIMEOUT_SEC: u64 = 2;
// Run connection tests for all specified nymd and api urls. These are all run concurrently.
pub async fn run_validator_connection_test<H: BuildHasher + 'static>(
nymd_urls: impl Iterator<Item = (NymNetworkDetails, Url)>,
api_urls: impl Iterator<Item = (NymNetworkDetails, Url)>,
mixnet_contract_address: HashMap<NymNetworkDetails, cosmrs::AccountId, H>,
nymd_urls: impl Iterator<Item = (Network, Url)>,
api_urls: impl Iterator<Item = (Network, Url)>,
mixnet_contract_address: HashMap<Network, cosmrs::AccountId, H>,
) -> (
HashMap<NymNetworkDetails, Vec<(Url, bool)>>,
HashMap<NymNetworkDetails, Vec<(Url, bool)>>,
HashMap<Network, Vec<(Url, bool)>>,
HashMap<Network, Vec<(Url, bool)>>,
) {
// Setup all the clients for the connection tests
let connection_test_clients =
@@ -46,16 +45,16 @@ pub async fn run_validator_connection_test<H: BuildHasher + 'static>(
}
fn setup_connection_tests<H: BuildHasher + 'static>(
nymd_urls: impl Iterator<Item = (NymNetworkDetails, Url)>,
api_urls: impl Iterator<Item = (NymNetworkDetails, Url)>,
mixnet_contract_address: HashMap<NymNetworkDetails, cosmrs::AccountId, H>,
nymd_urls: impl Iterator<Item = (Network, Url)>,
api_urls: impl Iterator<Item = (Network, Url)>,
mixnet_contract_address: HashMap<Network, cosmrs::AccountId, H>,
) -> impl Iterator<Item = ClientForConnectionTest> {
let nymd_connection_test_clients = nymd_urls.filter_map(move |(network, url)| {
let address = mixnet_contract_address
.get(&network)
.expect("No configured contract address")
.clone();
let config = ClientConfig::try_from_nym_network_details(&network)
let config = ClientConfig::try_from_nym_network_details(&network.details())
.expect("failed to create valid nymd client config");
if let Ok(mut client) = NymdClient::<QueryNymdClient>::connect(config, url.as_str()) {
@@ -81,7 +80,7 @@ fn setup_connection_tests<H: BuildHasher + 'static>(
fn extract_and_collect_results_into_map(
connection_results: &[ConnectionResult],
url_type: &UrlType,
) -> HashMap<NymNetworkDetails, Vec<(Url, bool)>> {
) -> HashMap<Network, Vec<(Url, bool)>> {
connection_results
.iter()
.filter(|c| &c.url_type() == url_type)
@@ -93,7 +92,7 @@ fn extract_and_collect_results_into_map(
}
async fn test_nymd_connection(
network: NymNetworkDetails,
network: Network,
url: &Url,
client: &NymdClient<QueryNymdClient>,
) -> ConnectionResult {
@@ -105,47 +104,56 @@ async fn test_nymd_connection(
{
Ok(Err(NymdError::TendermintError(e))) => {
// If we get a tendermint-rpc error, we classify the node as not contactable
log::debug!("Checking: nymd_url: {url}: {}: {}", "failed".red(), e);
log::debug!(
"Checking: nymd_url: {network}: {url}: {}: {}",
"failed".red(),
e
);
false
}
Ok(Err(NymdError::AbciError(code, log))) => {
// We accept the mixnet contract not found as ok from a connection standpoint. This happens
// for example on a pre-launch network.
log::debug!(
"Checking: nymd_url: {url}: {}, but with abci error: {code}: {log}",
"Checking: nymd_url: {network}: {url}: {}, but with abci error: {code}: {log}",
"success".green()
);
code == 18
}
Ok(Err(error @ NymdError::NoContractAddressAvailable)) => {
log::debug!("Checking: nymd_url: {url}: {}: {error}", "failed".red());
log::debug!(
"Checking: nymd_url: {network}: {url}: {}: {error}",
"failed".red()
);
false
}
Ok(Err(e)) => {
// For any other error, we're optimistic and just try anyway.
log::debug!(
"Checking: nymd_url: {url}: {}, but with error: {e}",
"Checking: nymd_url: {network}: {url}: {}, but with error: {e}",
"success".green()
);
true
}
Ok(Ok(_)) => {
log::debug!("Checking: nymd_url: {url}: {}", "success".green());
log::debug!(
"Checking: nymd_url: {network}: {url}: {}",
"success".green()
);
true
}
Err(e) => {
log::debug!("Checking: nymd_url: {url}: {}: {e}", "failed".red());
log::debug!(
"Checking: nymd_url: {network}: {url}: {}: {e}",
"failed".red()
);
false
}
};
ConnectionResult::Nymd(network, url.clone(), result)
}
async fn test_api_connection(
network: NymNetworkDetails,
url: &Url,
client: &ApiClient,
) -> ConnectionResult {
async fn test_api_connection(network: Network, url: &Url, client: &ApiClient) -> ConnectionResult {
let result = match timeout(
Duration::from_secs(CONNECTION_TEST_TIMEOUT_SEC),
client.get_cached_mixnodes(),
@@ -153,15 +161,21 @@ async fn test_api_connection(
.await
{
Ok(Ok(_)) => {
log::debug!("Checking: api_url: {url}: {}", "success".green());
log::debug!("Checking: api_url: {network}: {url}: {}", "success".green());
true
}
Ok(Err(e)) => {
log::debug!("Checking: api_url: {url}: {}: {e}", "failed".red());
log::debug!(
"Checking: api_url: {network}: {url}: {}: {e}",
"failed".red()
);
false
}
Err(e) => {
log::debug!("Checking: api_url: {url}: {}: {e}", "failed".red());
log::debug!(
"Checking: api_url: {network}: {url}: {}: {e}",
"failed".red()
);
false
}
};
@@ -169,8 +183,8 @@ async fn test_api_connection(
}
enum ClientForConnectionTest {
Nymd(NymNetworkDetails, Url, Box<NymdClient<QueryNymdClient>>),
Api(NymNetworkDetails, Url, ApiClient),
Nymd(Network, Url, Box<NymdClient<QueryNymdClient>>),
Api(Network, Url, ApiClient),
}
impl ClientForConnectionTest {
@@ -203,12 +217,12 @@ impl fmt::Display for UrlType {
#[derive(Debug)]
enum ConnectionResult {
Nymd(NymNetworkDetails, Url, bool),
Api(NymNetworkDetails, Url, bool),
Nymd(Network, Url, bool),
Api(Network, Url, bool),
}
impl ConnectionResult {
fn result(&self) -> (&NymNetworkDetails, &Url, &bool) {
fn result(&self) -> (&Network, &Url, &bool) {
match self {
ConnectionResult::Nymd(network, url, result)
| ConnectionResult::Api(network, url, result) => (network, url, result),
@@ -225,8 +239,11 @@ impl ConnectionResult {
impl fmt::Display for ConnectionResult {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
let (_network, url, result) = self.result();
let (network, url, result) = self.result();
let url_type = self.url_type();
write!(f, "{url}: {url_type}: connection is successful: {result}")
write!(
f,
"{network}: {url}: {url_type}: connection is successful: {result}"
)
}
}
File diff suppressed because it is too large Load Diff
@@ -1,387 +0,0 @@
// Copyright 2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
pub use crate::nymd::cosmwasm_client::client::CosmWasmClient;
use crate::nymd::error::NymdError;
use crate::nymd::NymdClient;
use async_trait::async_trait;
use cosmrs::AccountId;
use mixnet_contract_common::delegation::{MixNodeDelegationResponse, OwnerProxySubKey};
use mixnet_contract_common::mixnode::{
MixNodeDetails, MixnodeRewardingDetailsResponse, PagedMixnodesDetailsResponse,
PagedUnbondedMixnodesResponse, StakeSaturationResponse, UnbondedMixnodeResponse,
};
use mixnet_contract_common::reward_params::{Performance, RewardingParams};
use mixnet_contract_common::rewarding::{
EstimatedCurrentEpochRewardResponse, PendingRewardResponse,
};
use mixnet_contract_common::{
delegation, ContractBuildInformation, ContractState, ContractStateParams,
CurrentIntervalResponse, EpochEventId, GatewayBondResponse, GatewayOwnershipResponse,
IdentityKey, IntervalEventId, LayerDistribution, MixOwnershipResponse, MixnodeDetailsResponse,
NodeId, PagedAllDelegationsResponse, PagedDelegatorDelegationsResponse, PagedGatewayResponse,
PagedMixNodeDelegationsResponse, PagedMixnodeBondsResponse, PagedRewardedSetResponse,
PendingEpochEventsResponse, PendingIntervalEventsResponse, QueryMsg as MixnetQueryMsg,
};
use serde::Deserialize;
#[async_trait]
pub trait MixnetQueryClient {
async fn query_mixnet_contract<T>(&self, query: MixnetQueryMsg) -> Result<T, NymdError>
where
for<'a> T: Deserialize<'a>;
// state/sys-params-related
async fn get_mixnet_contract_version(&self) -> Result<ContractBuildInformation, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetContractVersion {})
.await
}
async fn get_rewarding_validator_address(&self) -> Result<AccountId, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetRewardingValidatorAddress {})
.await
}
async fn get_mixnet_contract_settings(&self) -> Result<ContractStateParams, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetStateParams {})
.await
}
async fn get_mixnet_contract_state(&self) -> Result<ContractState, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetState {})
.await
}
async fn get_rewarding_parameters(&self) -> Result<RewardingParams, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetRewardingParams {})
.await
}
async fn get_current_interval_details(&self) -> Result<CurrentIntervalResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetCurrentIntervalDetails {})
.await
}
async fn get_rewarded_set_paged(
&self,
start_after: Option<NodeId>,
limit: Option<u32>,
) -> Result<PagedRewardedSetResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetRewardedSet { limit, start_after })
.await
}
// mixnode-related:
async fn get_mixnode_bonds_paged(
&self,
limit: Option<u32>,
start_after: Option<NodeId>,
) -> Result<PagedMixnodeBondsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetMixNodeBonds { limit, start_after })
.await
}
async fn get_mixnodes_detailed_paged(
&self,
limit: Option<u32>,
start_after: Option<NodeId>,
) -> Result<PagedMixnodesDetailsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetMixNodesDetailed { limit, start_after })
.await
}
async fn get_unbonded_paged(
&self,
limit: Option<u32>,
start_after: Option<NodeId>,
) -> Result<PagedUnbondedMixnodesResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetUnbondedMixNodes { limit, start_after })
.await
}
async fn get_unbonded_by_owner_paged(
&self,
owner: &AccountId,
limit: Option<u32>,
start_after: Option<NodeId>,
) -> Result<PagedUnbondedMixnodesResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetUnbondedMixNodesByOwner {
owner: owner.to_string(),
limit,
start_after,
})
.await
}
async fn get_unbonded_by_identity_paged(
&self,
identity_key: String,
limit: Option<u32>,
start_after: Option<NodeId>,
) -> Result<PagedUnbondedMixnodesResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetUnbondedMixNodesByIdentityKey {
identity_key,
limit,
start_after,
})
.await
}
async fn get_owned_mixnode(
&self,
address: &AccountId,
) -> Result<MixOwnershipResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetOwnedMixnode {
address: address.to_string(),
})
.await
}
async fn get_mixnode_details(
&self,
mix_id: NodeId,
) -> Result<MixnodeDetailsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetMixnodeDetails { mix_id })
.await
}
async fn get_mixnode_rewarding_details(
&self,
mix_id: NodeId,
) -> Result<MixnodeRewardingDetailsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetMixnodeRewardingDetails { mix_id })
.await
}
async fn get_mixnode_stake_saturation(
&self,
mix_id: NodeId,
) -> Result<StakeSaturationResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetStakeSaturation { mix_id })
.await
}
async fn get_unbonded_mixnode_information(
&self,
mix_id: NodeId,
) -> Result<UnbondedMixnodeResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetUnbondedMixNodeInformation { mix_id })
.await
}
async fn get_layer_distribution(&self) -> Result<LayerDistribution, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetLayerDistribution {})
.await
}
// gateway-related:
async fn get_gateways_paged(
&self,
start_after: Option<IdentityKey>,
limit: Option<u32>,
) -> Result<PagedGatewayResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetGateways { start_after, limit })
.await
}
/// Checks whether there is a bonded gateway associated with the provided identity key
async fn get_gateway_bond(
&self,
identity: IdentityKey,
) -> Result<GatewayBondResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetGatewayBond { identity })
.await
}
/// Checks whether there is a bonded gateway associated with the provided client's address
async fn get_owned_gateway(
&self,
address: &AccountId,
) -> Result<GatewayOwnershipResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetOwnedGateway {
address: address.to_string(),
})
.await
}
// delegation-related:
/// Gets list of all delegations towards particular mixnode on particular page.
async fn get_mixnode_delegations_paged(
&self,
mix_id: NodeId,
start_after: Option<String>,
limit: Option<u32>,
) -> Result<PagedMixNodeDelegationsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetMixnodeDelegations {
mix_id,
start_after,
limit,
})
.await
}
/// Gets list of all the mixnodes to which a particular address delegated.
async fn get_delegator_delegations_paged(
&self,
delegator: String,
start_after: Option<(NodeId, OwnerProxySubKey)>,
limit: Option<u32>,
) -> Result<PagedDelegatorDelegationsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetDelegatorDelegations {
delegator,
start_after,
limit,
})
.await
}
/// Checks value of delegation of given client towards particular mixnode.
async fn get_delegation_details(
&self,
mix_id: NodeId,
delegator: &AccountId,
proxy: Option<String>,
) -> Result<MixNodeDelegationResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetDelegationDetails {
mix_id,
delegator: delegator.to_string(),
proxy,
})
.await
}
/// Gets all the delegations on the entire network
async fn get_all_network_delegations_paged(
&self,
start_after: Option<delegation::StorageKey>,
limit: Option<u32>,
) -> Result<PagedAllDelegationsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetAllDelegations { start_after, limit })
.await
}
// rewards related
async fn get_pending_operator_reward(
&self,
operator: &AccountId,
) -> Result<PendingRewardResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetPendingOperatorReward {
address: operator.to_string(),
})
.await
}
async fn get_pending_mixnode_operator_reward(
&self,
mix_id: NodeId,
) -> Result<PendingRewardResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetPendingMixNodeOperatorReward { mix_id })
.await
}
async fn get_pending_delegator_reward(
&self,
delegator: &AccountId,
mix_id: NodeId,
proxy: Option<String>,
) -> Result<PendingRewardResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetPendingDelegatorReward {
address: delegator.to_string(),
mix_id,
proxy,
})
.await
}
// given the provided performance, estimate the reward at the end of the current epoch
async fn get_estimated_current_epoch_operator_reward(
&self,
mix_id: NodeId,
estimated_performance: Performance,
) -> Result<EstimatedCurrentEpochRewardResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetEstimatedCurrentEpochOperatorReward {
mix_id,
estimated_performance,
})
.await
}
// given the provided performance, estimate the reward at the end of the current epoch
async fn get_estimated_current_epoch_delegator_reward(
&self,
delegator: &AccountId,
mix_id: NodeId,
proxy: Option<String>,
estimated_performance: Performance,
) -> Result<EstimatedCurrentEpochRewardResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetEstimatedCurrentEpochDelegatorReward {
address: delegator.to_string(),
mix_id,
proxy,
estimated_performance,
})
.await
}
// interval-related
async fn get_pending_epoch_events_paged(
&self,
start_after: Option<EpochEventId>,
limit: Option<u32>,
) -> Result<PendingEpochEventsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetPendingEpochEvents { start_after, limit })
.await
}
async fn get_pending_interval_events_paged(
&self,
start_after: Option<IntervalEventId>,
limit: Option<u32>,
) -> Result<PendingIntervalEventsResponse, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetPendingIntervalEvents { start_after, limit })
.await
}
async fn get_mixnode_details_by_identity(
&self,
mix_identity: IdentityKey,
) -> Result<Option<MixNodeDetails>, NymdError> {
self.query_mixnet_contract(MixnetQueryMsg::GetBondedMixnodeDetailsByIdentity {
mix_identity,
})
.await
}
}
#[async_trait]
impl<C> MixnetQueryClient for NymdClient<C>
where
C: CosmWasmClient + Sync + Send,
{
async fn query_mixnet_contract<T>(&self, query: MixnetQueryMsg) -> Result<T, NymdError>
where
for<'a> T: Deserialize<'a>,
{
self.client
.query_contract_smart(self.mixnet_contract_address(), &query)
.await
}
}
#[async_trait]
impl<C> MixnetQueryClient for crate::Client<C>
where
C: CosmWasmClient + Sync + Send,
{
async fn query_mixnet_contract<T>(&self, query: MixnetQueryMsg) -> Result<T, NymdError>
where
for<'a> T: Deserialize<'a>,
{
self.nymd.query_mixnet_contract(query).await
}
}
@@ -1,496 +0,0 @@
// Copyright 2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::nymd::coin::Coin;
pub use crate::nymd::cosmwasm_client::client::CosmWasmClient;
use crate::nymd::cosmwasm_client::types::ExecuteResult;
use crate::nymd::error::NymdError;
use crate::nymd::{Fee, NymdClient, SigningCosmWasmClient};
use async_trait::async_trait;
use cosmrs::AccountId;
use mixnet_contract_common::mixnode::{MixNodeConfigUpdate, MixNodeCostParams};
use mixnet_contract_common::reward_params::{IntervalRewardingParamsUpdate, Performance};
use mixnet_contract_common::{
ContractStateParams, ExecuteMsg as MixnetExecuteMsg, Gateway, MixNode, NodeId,
};
#[async_trait]
pub trait MixnetSigningClient {
async fn execute_mixnet_contract(
&self,
fee: Option<Fee>,
msg: MixnetExecuteMsg,
funds: Vec<Coin>,
) -> Result<ExecuteResult, NymdError>;
// state/sys-params-related
async fn update_rewarding_validator_address(
&self,
address: AccountId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateRewardingValidatorAddress {
address: address.to_string(),
},
vec![],
)
.await
}
async fn update_contract_state_params(
&self,
updated_parameters: ContractStateParams,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateContractStateParams { updated_parameters },
vec![],
)
.await
}
async fn update_active_set_size(
&self,
active_set_size: u32,
force_immediately: bool,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateActiveSetSize {
active_set_size,
force_immediately,
},
vec![],
)
.await
}
async fn update_rewarding_parameters(
&self,
updated_params: IntervalRewardingParamsUpdate,
force_immediately: bool,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateRewardingParams {
updated_params,
force_immediately,
},
vec![],
)
.await
}
async fn update_interval_config(
&self,
epochs_in_interval: u32,
epoch_duration_secs: u64,
force_immediately: bool,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateIntervalConfig {
epochs_in_interval,
epoch_duration_secs,
force_immediately,
},
vec![],
)
.await
}
async fn advance_current_epoch(
&self,
new_rewarded_set: Vec<NodeId>,
expected_active_set_size: u32,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::AdvanceCurrentEpoch {
new_rewarded_set,
expected_active_set_size,
},
vec![],
)
.await
}
async fn reconcile_epoch_events(
&self,
limit: Option<u32>,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::ReconcileEpochEvents { limit },
vec![],
)
.await
}
// mixnode-related:
async fn bond_mixnode(
&self,
mix_node: MixNode,
cost_params: MixNodeCostParams,
owner_signature: String,
pledge: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::BondMixnode {
mix_node,
cost_params,
owner_signature,
},
vec![pledge],
)
.await
}
async fn bond_mixnode_on_behalf(
&self,
owner: AccountId,
mix_node: MixNode,
cost_params: MixNodeCostParams,
owner_signature: String,
pledge: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::BondMixnodeOnBehalf {
mix_node,
cost_params,
owner_signature,
owner: owner.to_string(),
},
vec![pledge],
)
.await
}
async fn unbond_mixnode(&self, fee: Option<Fee>) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(fee, MixnetExecuteMsg::UnbondMixnode {}, vec![])
.await
}
async fn unbond_mixnode_on_behalf(
&self,
owner: AccountId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UnbondMixnodeOnBehalf {
owner: owner.to_string(),
},
vec![],
)
.await
}
async fn update_mixnode_cost_params(
&self,
new_costs: MixNodeCostParams,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateMixnodeCostParams { new_costs },
vec![],
)
.await
}
async fn update_mixnode_cost_params_on_behalf(
&self,
owner: AccountId,
new_costs: MixNodeCostParams,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateMixnodeCostParamsOnBehalf {
new_costs,
owner: owner.to_string(),
},
vec![],
)
.await
}
async fn update_mixnode_config(
&self,
new_config: MixNodeConfigUpdate,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateMixnodeConfig { new_config },
vec![],
)
.await
}
async fn update_mixnode_config_on_behalf(
&self,
owner: AccountId,
new_config: MixNodeConfigUpdate,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UpdateMixnodeConfigOnBehalf {
new_config,
owner: owner.to_string(),
},
vec![],
)
.await
}
// gateway-related:
async fn bond_gateway(
&self,
gateway: Gateway,
owner_signature: String,
pledge: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::BondGateway {
gateway,
owner_signature,
},
vec![pledge],
)
.await
}
async fn bond_gateway_on_behalf(
&self,
owner: AccountId,
gateway: Gateway,
owner_signature: String,
pledge: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::BondGatewayOnBehalf {
gateway,
owner_signature,
owner: owner.to_string(),
},
vec![pledge],
)
.await
}
async fn unbond_gateway(&self, fee: Option<Fee>) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(fee, MixnetExecuteMsg::UnbondGateway {}, vec![])
.await
}
async fn unbond_gateway_on_behalf(
&self,
owner: AccountId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UnbondGatewayOnBehalf {
owner: owner.to_string(),
},
vec![],
)
.await
}
// delegation-related:
async fn delegate_to_mixnode(
&self,
mix_id: NodeId,
amount: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::DelegateToMixnode { mix_id },
vec![amount],
)
.await
}
async fn delegate_to_mixnode_on_behalf(
&self,
delegate: AccountId,
mix_id: NodeId,
amount: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::DelegateToMixnodeOnBehalf {
mix_id,
delegate: delegate.to_string(),
},
vec![amount],
)
.await
}
async fn undelegate_from_mixnode(
&self,
mix_id: NodeId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UndelegateFromMixnode { mix_id },
vec![],
)
.await
}
async fn undelegate_to_mixnode_on_behalf(
&self,
delegate: AccountId,
mix_id: NodeId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::UndelegateFromMixnodeOnBehalf {
mix_id,
delegate: delegate.to_string(),
},
vec![],
)
.await
}
// reward-related
async fn reward_mixnode(
&self,
mix_id: NodeId,
performance: Performance,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::RewardMixnode {
mix_id,
performance,
},
vec![],
)
.await
}
async fn withdraw_operator_reward(&self, fee: Option<Fee>) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(fee, MixnetExecuteMsg::WithdrawOperatorReward {}, vec![])
.await
}
async fn withdraw_operator_reward_on_behalf(
&self,
owner: AccountId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::WithdrawOperatorRewardOnBehalf {
owner: owner.to_string(),
},
vec![],
)
.await
}
async fn withdraw_delegator_reward(
&self,
mix_id: NodeId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::WithdrawDelegatorReward { mix_id },
vec![],
)
.await
}
async fn withdraw_delegator_reward_on_behalf(
&self,
owner: AccountId,
mix_id: NodeId,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_mixnet_contract(
fee,
MixnetExecuteMsg::WithdrawDelegatorRewardOnBehalf {
mix_id,
owner: owner.to_string(),
},
vec![],
)
.await
}
}
#[async_trait]
impl<C> MixnetSigningClient for NymdClient<C>
where
C: SigningCosmWasmClient + Sync + Send,
{
async fn execute_mixnet_contract(
&self,
fee: Option<Fee>,
msg: MixnetExecuteMsg,
funds: Vec<Coin>,
) -> Result<ExecuteResult, NymdError> {
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let memo = msg.default_memo();
self.client
.execute(
self.address(),
self.mixnet_contract_address(),
&msg,
fee,
memo,
funds,
)
.await
}
}
#[async_trait]
impl<C> MixnetSigningClient for crate::Client<C>
where
C: SigningCosmWasmClient + Sync + Send,
{
async fn execute_mixnet_contract(
&self,
fee: Option<Fee>,
msg: MixnetExecuteMsg,
funds: Vec<Coin>,
) -> Result<ExecuteResult, NymdError> {
self.nymd.execute_mixnet_contract(fee, msg, funds).await
}
}
@@ -1,10 +1,8 @@
// Copyright 2021-2022 - Nym Technologies SA <contact@nymtech.net>
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
mod coconut_bandwidth_query_client;
mod coconut_bandwidth_signing_client;
mod mixnet_query_client;
mod mixnet_signing_client;
mod multisig_query_client;
mod multisig_signing_client;
mod vesting_query_client;
@@ -12,8 +10,6 @@ mod vesting_signing_client;
pub use coconut_bandwidth_query_client::CoconutBandwidthQueryClient;
pub use coconut_bandwidth_signing_client::CoconutBandwidthSigningClient;
pub use mixnet_query_client::MixnetQueryClient;
pub use mixnet_signing_client::MixnetSigningClient;
pub use multisig_query_client::MultisigQueryClient;
pub use multisig_signing_client::MultisigSigningClient;
pub use vesting_query_client::VestingQueryClient;
@@ -7,7 +7,7 @@ use crate::nymd::error::NymdError;
use crate::nymd::NymdClient;
use async_trait::async_trait;
use cosmwasm_std::{Coin as CosmWasmCoin, Timestamp};
use mixnet_contract_common::NodeId;
use mixnet_contract_common::IdentityKey;
use vesting_contract::vesting::Account;
use vesting_contract_common::{
messages::QueryMsg as VestingQueryMsg, AllDelegationsResponse, DelegationTimesResponse,
@@ -76,12 +76,12 @@ pub trait VestingQueryClient {
async fn get_delegation_timestamps(
&self,
address: &str,
mix_id: NodeId,
mix_identity: String,
) -> Result<DelegationTimesResponse, NymdError>;
async fn get_all_vesting_delegations_paged(
&self,
start_after: Option<(u32, NodeId, u64)>,
start_after: Option<(u32, IdentityKey, u64)>,
limit: Option<u32>,
) -> Result<AllDelegationsResponse, NymdError>;
@@ -269,11 +269,11 @@ impl<C: CosmWasmClient + Sync + Send> VestingQueryClient for NymdClient<C> {
async fn get_delegation_timestamps(
&self,
address: &str,
mix_id: NodeId,
mix_identity: String,
) -> Result<DelegationTimesResponse, NymdError> {
let request = VestingQueryMsg::GetDelegationTimes {
address: address.to_string(),
mix_id,
mix_identity,
};
self.client
.query_contract_smart(self.vesting_contract_address(), &request)
@@ -282,7 +282,7 @@ impl<C: CosmWasmClient + Sync + Send> VestingQueryClient for NymdClient<C> {
async fn get_all_vesting_delegations_paged(
&self,
start_after: Option<(u32, NodeId, u64)>,
start_after: Option<(u32, IdentityKey, u64)>,
limit: Option<u32>,
) -> Result<AllDelegationsResponse, NymdError> {
let request = VestingQueryMsg::GetAllDelegations { start_after, limit };
@@ -6,28 +6,14 @@ use crate::nymd::cosmwasm_client::types::ExecuteResult;
use crate::nymd::error::NymdError;
use crate::nymd::{Coin, Fee, NymdClient};
use async_trait::async_trait;
use mixnet_contract_common::mixnode::{MixNodeConfigUpdate, MixNodeCostParams};
use mixnet_contract_common::{Gateway, MixNode, NodeId};
use mixnet_contract_common::{Gateway, IdentityKey, IdentityKeyRef, MixNode};
use vesting_contract_common::messages::{ExecuteMsg as VestingExecuteMsg, VestingSpecification};
#[async_trait]
pub trait VestingSigningClient {
async fn execute_vesting_contract(
&self,
fee: Option<Fee>,
msg: VestingExecuteMsg,
funds: Vec<Coin>,
) -> Result<ExecuteResult, NymdError>;
async fn vesting_update_mixnode_cost_params(
&self,
new_costs: MixNodeCostParams,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError>;
async fn vesting_update_mixnode_config(
&self,
new_config: MixNodeConfigUpdate,
profix_margin_percent: u8,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError>;
@@ -57,12 +43,10 @@ pub trait VestingSigningClient {
async fn vesting_bond_mixnode(
&self,
mix_node: MixNode,
cost_params: MixNodeCostParams,
owner_signature: &str,
pledge: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError>;
async fn vesting_unbond_mixnode(&self, fee: Option<Fee>) -> Result<ExecuteResult, NymdError>;
async fn vesting_track_unbond_mixnode(
@@ -81,21 +65,21 @@ pub trait VestingSigningClient {
async fn vesting_track_undelegation(
&self,
address: &str,
mix_id: NodeId,
mix_identity: IdentityKey,
amount: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError>;
async fn vesting_delegate_to_mixnode(
async fn vesting_delegate_to_mixnode<'a>(
&self,
mix_id: NodeId,
mix_identity: IdentityKeyRef<'a>,
amount: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError>;
async fn vesting_undelegate_from_mixnode(
async fn vesting_undelegate_from_mixnode<'a>(
&self,
mix_id: NodeId,
mix_identity: IdentityKeyRef<'a>,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError>;
@@ -111,46 +95,15 @@ pub trait VestingSigningClient {
#[async_trait]
impl<C: SigningCosmWasmClient + Sync + Send> VestingSigningClient for NymdClient<C> {
async fn execute_vesting_contract(
&self,
fee: Option<Fee>,
msg: VestingExecuteMsg,
funds: Vec<Coin>,
) -> Result<ExecuteResult, NymdError> {
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let memo = msg.name().to_string();
self.client
.execute(
self.address(),
self.vesting_contract_address(),
&msg,
fee,
memo,
funds,
)
.await
}
async fn vesting_update_mixnode_cost_params(
&self,
new_costs: MixNodeCostParams,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_vesting_contract(
fee,
VestingExecuteMsg::UpdateMixnodeCostParams { new_costs },
vec![],
)
.await
}
async fn vesting_update_mixnode_config(
&self,
new_config: MixNodeConfigUpdate,
profit_margin_percent: u8,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let req = VestingExecuteMsg::UpdateMixnodeConfig { new_config };
let req = VestingExecuteMsg::UpdateMixnodeConfig {
profit_margin_percent,
};
self.client
.execute(
self.address(),
@@ -250,22 +203,26 @@ impl<C: SigningCosmWasmClient + Sync + Send> VestingSigningClient for NymdClient
async fn vesting_bond_mixnode(
&self,
mix_node: MixNode,
cost_params: MixNodeCostParams,
owner_signature: &str,
pledge: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_vesting_contract(
fee,
VestingExecuteMsg::BondMixnode {
mix_node,
cost_params,
owner_signature: owner_signature.to_string(),
amount: pledge.into(),
},
vec![],
)
.await
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let req = VestingExecuteMsg::BondMixnode {
mix_node,
owner_signature: owner_signature.to_string(),
amount: pledge.into(),
};
self.client
.execute(
self.address(),
self.vesting_contract_address(),
&req,
fee,
"VestingContract::BondMixnode",
vec![],
)
.await
}
async fn vesting_unbond_mixnode(&self, fee: Option<Fee>) -> Result<ExecuteResult, NymdError> {
@@ -305,7 +262,6 @@ impl<C: SigningCosmWasmClient + Sync + Send> VestingSigningClient for NymdClient
)
.await
}
async fn withdraw_vested_coins(
&self,
amount: Coin,
@@ -326,54 +282,72 @@ impl<C: SigningCosmWasmClient + Sync + Send> VestingSigningClient for NymdClient
)
.await
}
async fn vesting_track_undelegation(
&self,
address: &str,
mix_id: NodeId,
mix_identity: IdentityKey,
amount: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_vesting_contract(
fee,
VestingExecuteMsg::TrackUndelegation {
owner: address.to_string(),
mix_id,
amount: amount.into(),
},
vec![],
)
.await
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let req = VestingExecuteMsg::TrackUndelegation {
owner: address.to_string(),
mix_identity,
amount: amount.into(),
};
self.client
.execute(
self.address(),
self.vesting_contract_address(),
&req,
fee,
"VestingContract::TrackUndelegation",
vec![],
)
.await
}
async fn vesting_delegate_to_mixnode(
async fn vesting_delegate_to_mixnode<'a>(
&self,
mix_id: NodeId,
mix_identity: IdentityKeyRef<'a>,
amount: Coin,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_vesting_contract(
fee,
VestingExecuteMsg::DelegateToMixnode {
mix_id,
amount: amount.into(),
},
vec![],
)
.await
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let req = VestingExecuteMsg::DelegateToMixnode {
mix_identity: mix_identity.into(),
amount: amount.into(),
};
self.client
.execute(
self.address(),
self.vesting_contract_address(),
&req,
fee,
"VestingContract::DelegateToMixnode",
vec![],
)
.await
}
async fn vesting_undelegate_from_mixnode(
async fn vesting_undelegate_from_mixnode<'a>(
&self,
mix_id: NodeId,
mix_identity: IdentityKeyRef<'a>,
fee: Option<Fee>,
) -> Result<ExecuteResult, NymdError> {
self.execute_vesting_contract(
fee,
VestingExecuteMsg::UndelegateFromMixnode { mix_id },
vec![],
)
.await
let fee = fee.unwrap_or(Fee::Auto(Some(self.simulated_gas_multiplier)));
let req = VestingExecuteMsg::UndelegateFromMixnode {
mix_identity: mix_identity.into(),
};
self.client
.execute(
self.address(),
self.vesting_contract_address(),
&req,
fee,
"VestingContract::UndelegateFromMixnode",
vec![],
)
.await
}
async fn create_periodic_vesting_account(
@@ -72,7 +72,7 @@ impl DirectSecp256k1HdWallet {
}
fn derive_keypair(&self, hd_path: &DerivationPath) -> Result<Secp256k1Keypair, NymdError> {
let extended_private_key = XPrv::derive_from_path(self.seed, hd_path)?;
let extended_private_key = XPrv::derive_from_path(&self.seed, hd_path)?;
let private_key: SigningKey = extended_private_key.into();
let public_key = private_key.public_key();
@@ -207,9 +207,8 @@ impl DirectSecp256k1HdWalletBuilder {
#[cfg(test)]
mod tests {
use network_defaults::NymNetworkDetails;
use super::*;
use network_defaults::all::Network::*;
#[test]
fn generating_account_addresses() {
@@ -219,9 +218,7 @@ mod tests {
"acquire rebel spot skin gun such erupt pull swear must define ill chief turtle today flower chunk truth battle claw rigid detail gym feel",
"step income throw wheat mobile ship wave drink pool sudden upset jaguar bar globe rifle spice frost bless glimpse size regular carry aspect ball"
];
let prefix = NymNetworkDetails::new_mainnet()
.chain_details
.bech32_account_prefix;
let prefix = MAINNET.bech32_prefix();
let addrs = vec![
"n1jw6mp7d5xqc7w6xm79lha27glmd0vdt3l9artf",
@@ -3,18 +3,17 @@
use crate::validator_api::error::ValidatorAPIError;
use crate::validator_api::routes::{CORE_STATUS_COUNT, SINCE_ARG};
use mixnet_contract_common::mixnode::MixNodeDetails;
use mixnet_contract_common::{GatewayBond, IdentityKeyRef, NodeId};
use mixnet_contract_common::{GatewayBond, IdentityKeyRef, MixNodeBond};
use serde::{Deserialize, Serialize};
use std::collections::HashMap;
use url::Url;
use validator_api_requests::coconut::{
BlindSignRequestBody, BlindedSignatureResponse, CosmosAddressResponse, VerificationKeyResponse,
VerifyCredentialBody, VerifyCredentialResponse,
};
use validator_api_requests::models::{
GatewayCoreStatusResponse, InclusionProbabilityResponse, MixNodeBondAnnotated,
MixnodeCoreStatusResponse, MixnodeStatusResponse, RewardEstimationResponse,
StakeSaturationResponse, UptimeResponse,
CoreNodeStatusResponse, InclusionProbabilityResponse, MixNodeBondAnnotated,
MixnodeStatusResponse, RewardEstimationResponse, StakeSaturationResponse, UptimeResponse,
};
pub mod error;
@@ -58,7 +57,6 @@ impl Client {
V: AsRef<str>,
{
let url = create_api_url(&self.url, path, params);
log::trace!("url: {:?}", url.as_str());
Ok(self.reqwest_client.get(url).send().await?.json().await?)
}
@@ -85,7 +83,7 @@ impl Client {
}
}
pub async fn get_mixnodes(&self) -> Result<Vec<MixNodeDetails>, ValidatorAPIError> {
pub async fn get_mixnodes(&self) -> Result<Vec<MixNodeBond>, ValidatorAPIError> {
self.query_validator_api(&[routes::API_VERSION, routes::MIXNODES], NO_PARAMS)
.await
}
@@ -105,7 +103,7 @@ impl Client {
.await
}
pub async fn get_active_mixnodes(&self) -> Result<Vec<MixNodeDetails>, ValidatorAPIError> {
pub async fn get_active_mixnodes(&self) -> Result<Vec<MixNodeBond>, ValidatorAPIError> {
self.query_validator_api(
&[routes::API_VERSION, routes::MIXNODES, routes::ACTIVE],
NO_PARAMS,
@@ -128,7 +126,7 @@ impl Client {
.await
}
pub async fn get_rewarded_mixnodes(&self) -> Result<Vec<MixNodeDetails>, ValidatorAPIError> {
pub async fn get_rewarded_mixnodes(&self) -> Result<Vec<MixNodeBond>, ValidatorAPIError> {
self.query_validator_api(
&[routes::API_VERSION, routes::MIXNODES, routes::REWARDED],
NO_PARAMS,
@@ -151,11 +149,28 @@ impl Client {
.await
}
pub async fn get_probs_mixnode_rewarded(
&self,
mixnode_id: &str,
) -> Result<HashMap<String, f32>, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::MIXNODES,
routes::REWARDED,
routes::INCLUSION_CHANCE,
mixnode_id,
],
NO_PARAMS,
)
.await
}
pub async fn get_gateway_core_status_count(
&self,
identity: IdentityKeyRef<'_>,
since: Option<i64>,
) -> Result<GatewayCoreStatusResponse, ValidatorAPIError> {
) -> Result<CoreNodeStatusResponse, ValidatorAPIError> {
if let Some(since) = since {
self.query_validator_api(
&[
@@ -184,16 +199,16 @@ impl Client {
pub async fn get_mixnode_core_status_count(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
since: Option<i64>,
) -> Result<MixnodeCoreStatusResponse, ValidatorAPIError> {
) -> Result<CoreNodeStatusResponse, ValidatorAPIError> {
if let Some(since) = since {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
identity,
CORE_STATUS_COUNT,
],
&[(SINCE_ARG, since.to_string())],
@@ -205,8 +220,7 @@ impl Client {
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
CORE_STATUS_COUNT,
identity,
],
NO_PARAMS,
)
@@ -216,14 +230,14 @@ impl Client {
pub async fn get_mixnode_status(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<MixnodeStatusResponse, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
identity,
routes::STATUS,
],
NO_PARAMS,
@@ -233,14 +247,14 @@ impl Client {
pub async fn get_mixnode_reward_estimation(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<RewardEstimationResponse, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
identity,
routes::REWARD_ESTIMATION,
],
NO_PARAMS,
@@ -250,14 +264,14 @@ impl Client {
pub async fn get_mixnode_stake_saturation(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<StakeSaturationResponse, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
identity,
routes::STAKE_SATURATION,
],
NO_PARAMS,
@@ -267,14 +281,14 @@ impl Client {
pub async fn get_mixnode_inclusion_probability(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<InclusionProbabilityResponse, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
identity,
routes::INCLUSION_CHANCE,
],
NO_PARAMS,
@@ -284,14 +298,27 @@ impl Client {
pub async fn get_mixnode_avg_uptime(
&self,
mix_id: NodeId,
identity: IdentityKeyRef<'_>,
) -> Result<UptimeResponse, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODE,
&mix_id.to_string(),
identity,
routes::AVG_UPTIME,
],
NO_PARAMS,
)
.await
}
pub async fn get_mixnode_avg_uptimes(&self) -> Result<Vec<UptimeResponse>, ValidatorAPIError> {
self.query_validator_api(
&[
routes::API_VERSION,
routes::STATUS_ROUTES,
routes::MIXNODES,
routes::AVG_UPTIME,
],
NO_PARAMS,
-5
View File
@@ -28,11 +28,6 @@ pub fn pretty_cosmwasm_coin(coin: &CosmWasmCoin) -> String {
format!("{} {}", amount, denom)
}
pub fn pretty_decimal_with_denom(value: Decimal, denom: &str) -> String {
// TODO: we might have to truncate the value here (that's why I moved it to separate function)
format!("{} {}", value, denom)
}
pub fn show_error<E>(e: E)
where
E: Display,
@@ -51,7 +51,7 @@ pub async fn query_balance(
return;
}
let denom = args.denom.unwrap_or_default();
let denom = args.denom.unwrap_or_else(|| "".to_string());
for coin in coins {
if denom.is_empty() || denom.eq_ignore_ascii_case(&coin.denom) {
@@ -4,16 +4,12 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use mixnet_contract_common::{Coin, NodeId};
use validator_client::nymd::traits::{MixnetQueryClient, MixnetSigningClient};
use mixnet_contract_common::Coin;
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub mix_id: Option<NodeId>,
#[clap(long)]
pub identity_key: Option<String>,
pub identity_key: String,
#[clap(long)]
pub amount: u128,
@@ -24,25 +20,10 @@ pub async fn delegate_to_mixnode(args: Args, client: SigningClient) {
info!("Starting delegation to mixnode");
let mix_id = match args.mix_id {
Some(mix_id) => mix_id,
None => {
let identity_key = args
.identity_key
.expect("either mix_id or mix_identity has to be specified");
let node_details = client
.get_mixnode_details_by_identity(identity_key)
.await
.expect("contract query failed")
.expect("mixnode with the specified identity doesnt exist");
node_details.mix_id()
}
};
let coin = Coin::new(args.amount, denom);
let res = client
.delegate_to_mixnode(mix_id, coin.into(), None)
.delegate_to_mixnode(&*args.identity_key, coin.into(), None)
.await
.expect("failed to delegate to mixnode!");
@@ -8,8 +8,8 @@ use crate::context::SigningClientWithValidatorAPI;
use crate::utils::{pretty_cosmwasm_coin, show_error_passthrough};
use comfy_table::Table;
use cosmwasm_std::Addr;
use mixnet_contract_common::{Delegation, PendingEpochEvent, PendingEpochEventData};
use mixnet_contract_common::mixnode::DelegationEvent;
use mixnet_contract_common::Delegation;
#[derive(Debug, Parser)]
pub struct Args {}
@@ -26,7 +26,19 @@ pub async fn execute(_args: Args, client: SigningClientWithValidatorAPI) {
.map_err(show_error_passthrough);
let mixnet_contract_events = client
.get_all_nymd_pending_epoch_events()
.nymd
.get_pending_delegation_events(client.nymd.address().to_string(), None)
.await
.map_err(show_error_passthrough);
let vesting_contract = client.nymd.vesting_contract_address();
let vesting_contract_events = client
.nymd
.get_pending_delegation_events(
client.nymd.address().to_string(),
Some(vesting_contract.to_string()),
)
.await
.map_err(show_error_passthrough);
@@ -46,6 +58,13 @@ pub async fn execute(_args: Args, client: SigningClientWithValidatorAPI) {
print_delegation_events(res, &client).await;
}
}
if let Ok(res) = vesting_contract_events {
if !res.is_empty() {
println!();
println!("Pending delegations (locked tokens):");
print_delegation_events(res, &client).await;
}
}
}
async fn to_iso_timestamp(block_height: u32, client: &SigningClientWithValidatorAPI) -> String {
@@ -58,17 +77,14 @@ async fn to_iso_timestamp(block_height: u32, client: &SigningClientWithValidator
async fn print_delegations(delegations: Vec<Delegation>, client: &SigningClientWithValidatorAPI) {
let mut table = Table::new();
table.set_header(vec!["Timestamp", "Mix Id", "Delegation", "Proxy"]);
table.set_header(vec!["Timestamp", "Identity Key", "Delegation", "Proxy"]);
for delegation in delegations {
table.add_row(vec![
to_iso_timestamp(delegation.height as u32, client).await,
delegation.mix_id.to_string(),
to_iso_timestamp(delegation.block_height as u32, client).await,
delegation.node_identity.to_string(),
pretty_cosmwasm_coin(&delegation.amount),
delegation
.proxy
.map(Addr::into_string)
.unwrap_or_else(|| "-".into()),
format!("{:?}", delegation.proxy),
]);
}
@@ -76,53 +92,36 @@ async fn print_delegations(delegations: Vec<Delegation>, client: &SigningClientW
}
async fn print_delegation_events(
events: Vec<PendingEpochEvent>,
events: Vec<DelegationEvent>,
client: &SigningClientWithValidatorAPI,
) {
let mut table = Table::new();
table.set_header(vec![
"Timestamp",
"Mix id",
"Identity Key",
"Delegation",
"Event Type",
"Proxy",
]);
for event in events {
match event.event {
PendingEpochEventData::Delegate {
owner,
mix_id,
amount,
proxy,
} => {
if owner.as_str() == client.nymd.address().as_ref() {
table.add_row(vec![
"not-sure-if-applicable".into(),
mix_id.to_string(),
pretty_cosmwasm_coin(&amount),
"Delegate".to_string(),
proxy.map(Addr::into_string).unwrap_or_else(|| "-".into()),
]);
}
match event {
DelegationEvent::Delegate(delegation) => {
table.add_row(vec![
to_iso_timestamp(delegation.block_height as u32, client).await,
delegation.node_identity.to_string(),
pretty_cosmwasm_coin(&delegation.amount),
"Delegate".to_string(),
]);
}
PendingEpochEventData::Undelegate {
owner,
mix_id,
proxy,
} => {
if owner.as_str() == client.nymd.address().as_ref() {
table.add_row(vec![
"not-sure-if-applicable".into(),
mix_id.to_string(),
"-".to_string(),
"Undelegate".to_string(),
proxy.map(Addr::into_string).unwrap_or_else(|| "-".into()),
]);
}
DelegationEvent::Undelegate(undelegate) => {
table.add_row(vec![
to_iso_timestamp(undelegate.block_height() as u32, client).await,
undelegate.mix_identity().to_string(),
"-".to_string(),
"Undelegate".to_string(),
]);
}
_ => {}
}
}
@@ -4,38 +4,18 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use mixnet_contract_common::NodeId;
use validator_client::nymd::traits::{MixnetQueryClient, MixnetSigningClient};
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub mix_id: Option<NodeId>,
#[clap(long)]
pub identity_key: Option<String>,
pub identity_key: String,
}
pub async fn claim_delegator_reward(args: Args, client: SigningClient) {
info!("Claim delegator reward");
let mix_id = match args.mix_id {
Some(mix_id) => mix_id,
None => {
let identity_key = args
.identity_key
.expect("either mix_id or mix_identity has to be specified");
let node_details = client
.get_mixnode_details_by_identity(identity_key)
.await
.expect("contract query failed")
.expect("mixnode with the specified identity doesnt exist");
node_details.mix_id()
}
};
let res = client
.withdraw_delegator_reward(mix_id, None)
.execute_claim_delegator_reward(args.identity_key, None)
.await
.expect("failed to claim delegator-reward");
@@ -4,38 +4,18 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use mixnet_contract_common::NodeId;
use validator_client::nymd::traits::{MixnetQueryClient, MixnetSigningClient};
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub mix_id: Option<NodeId>,
#[clap(long)]
pub identity_key: Option<String>,
pub identity: String,
}
pub async fn vesting_claim_delegator_reward(args: Args, client: SigningClient) {
info!("Claim vesting delegator reward");
let mix_id = match args.mix_id {
Some(mix_id) => mix_id,
None => {
let identity_key = args
.identity_key
.expect("either mix_id or mix_identity has to be specified");
let node_details = client
.get_mixnode_details_by_identity(identity_key)
.await
.expect("contract query failed")
.expect("mixnode with the specified identity doesnt exist");
node_details.mix_id()
}
};
let res = client
.withdraw_delegator_reward_on_behalf(client.address().clone(), mix_id, None)
.execute_vesting_claim_delegator_reward(args.identity, None)
.await
.expect("failed to claim vesting delegator-reward");
@@ -4,38 +4,18 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use mixnet_contract_common::NodeId;
use validator_client::nymd::traits::{MixnetQueryClient, MixnetSigningClient};
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub mix_id: Option<NodeId>,
#[clap(long)]
pub identity_key: Option<String>,
pub identity_key: String,
}
pub async fn undelegate_from_mixnode(args: Args, client: SigningClient) {
info!("removing stake from mix-node");
let mix_id = match args.mix_id {
Some(mix_id) => mix_id,
None => {
let identity_key = args
.identity_key
.expect("either mix_id or mix_identity has to be specified");
let node_details = client
.get_mixnode_details_by_identity(identity_key)
.await
.expect("contract query failed")
.expect("mixnode with the specified identity doesnt exist");
node_details.mix_id()
}
};
let res = client
.undelegate_from_mixnode(mix_id, None)
.remove_mixnode_delegation(&*args.identity_key, None)
.await
.expect("failed to remove stake from mixnode!");
@@ -4,8 +4,7 @@
use clap::Parser;
use log::info;
use mixnet_contract_common::{Coin, NodeId};
use validator_client::nymd::traits::MixnetQueryClient;
use mixnet_contract_common::Coin;
use validator_client::nymd::VestingSigningClient;
use crate::context::SigningClient;
@@ -13,10 +12,7 @@ use crate::context::SigningClient;
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub mix_id: Option<NodeId>,
#[clap(long)]
pub identity_key: Option<String>,
pub identity_key: String,
#[clap(long)]
pub amount: u128,
@@ -27,25 +23,10 @@ pub async fn vesting_delegate_to_mixnode(args: Args, client: SigningClient) {
info!("Starting vesting delegation to mixnode");
let mix_id = match args.mix_id {
Some(mix_id) => mix_id,
None => {
let identity_key = args
.identity_key
.expect("either mix_id or mix_identity has to be specified");
let node_details = client
.get_mixnode_details_by_identity(identity_key)
.await
.expect("contract query failed")
.expect("mixnode with the specified identity doesnt exist");
node_details.mix_id()
}
};
let coin = Coin::new(args.amount, denom);
let res = client
.vesting_delegate_to_mixnode(mix_id, coin.into(), None)
.vesting_delegate_to_mixnode(&*args.identity_key, coin.into(), None)
.await
.expect("failed to delegate to mixnode!");
@@ -3,8 +3,7 @@
use clap::Parser;
use log::info;
use mixnet_contract_common::NodeId;
use validator_client::nymd::traits::MixnetQueryClient;
use validator_client::nymd::VestingSigningClient;
use crate::context::SigningClient;
@@ -12,32 +11,14 @@ use crate::context::SigningClient;
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub mix_id: Option<NodeId>,
#[clap(long)]
pub identity_key: Option<String>,
pub identity_key: String,
}
pub async fn vesting_undelegate_from_mixnode(args: Args, client: SigningClient) {
info!("removing stake from vesting mix-node");
let mix_id = match args.mix_id {
Some(mix_id) => mix_id,
None => {
let identity_key = args
.identity_key
.expect("either mix_id or mix_identity has to be specified");
let node_details = client
.get_mixnode_details_by_identity(identity_key)
.await
.expect("contract query failed")
.expect("mixnode with the specified identity doesnt exist");
node_details.mix_id()
}
};
let res = client
.vesting_undelegate_from_mixnode(mix_id, None)
.vesting_undelegate_from_mixnode(&*args.identity_key, None)
.await
.expect("failed to remove stake from vesting account on mixnode!");
@@ -6,7 +6,6 @@ use clap::Parser;
use log::{info, warn};
use mixnet_contract_common::Coin;
use network_defaults::{DEFAULT_CLIENT_LISTENING_PORT, DEFAULT_MIX_LISTENING_PORT};
use validator_client::nymd::traits::MixnetSigningClient;
#[derive(Debug, Parser)]
pub struct Args {
@@ -4,7 +4,6 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use validator_client::nymd::traits::MixnetSigningClient;
#[derive(Debug, Parser)]
pub struct Args {}
@@ -68,7 +68,7 @@ pub async fn vesting_bond_gateway(client: SigningClient, args: Args, denom: &str
let coin = Coin::new(args.amount, denom);
let res = client
.vesting_bond_gateway(gateway, &args.signature, coin.into(), None)
.vesting_bond_gateway(gateway, &*args.signature, coin.into(), None)
.await
.expect("failed to bond gateway!");
@@ -4,7 +4,6 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use validator_client::nymd::traits::MixnetSigningClient;
#[derive(Debug, Parser)]
pub struct Args {}
@@ -2,15 +2,12 @@
// SPDX-License-Identifier: Apache-2.0
use clap::Parser;
use cosmwasm_std::Uint128;
use log::{info, warn};
use mixnet_contract_common::{Coin, MixNodeCostParams, Percent};
use mixnet_contract_common::Coin;
use network_defaults::{
DEFAULT_HTTP_API_LISTENING_PORT, DEFAULT_MIX_LISTENING_PORT, DEFAULT_VERLOC_LISTENING_PORT,
};
use validator_client::nymd::traits::MixnetSigningClient;
use validator_client::nymd::CosmWasmCoin;
use crate::context::SigningClient;
@@ -43,12 +40,6 @@ pub struct Args {
#[clap(long)]
pub profit_margin_percent: Option<u8>,
#[clap(
long,
help = "operating cost in current DENOMINATION (so it would be 'unym', rather than 'nym')"
)]
pub interval_operating_cost: Option<u128>,
#[clap(
long,
help = "bonding amount in current DENOMINATION (so it would be 'unym', rather than 'nym')"
@@ -80,23 +71,13 @@ pub async fn bond_mixnode(args: Args, client: SigningClient) {
sphinx_key: args.sphinx_key,
identity_key: args.identity_key,
version: args.version,
profit_margin_percent: args.profit_margin_percent.unwrap_or(10),
};
let coin = Coin::new(args.amount, denom);
let cost_params = MixNodeCostParams {
profit_margin_percent: Percent::from_percentage_value(
args.profit_margin_percent.unwrap_or(10) as u64,
)
.unwrap(),
interval_operating_cost: CosmWasmCoin {
denom: denom.into(),
amount: Uint128::new(args.interval_operating_cost.unwrap_or(40_000_000)),
},
};
let res = client
.bond_mixnode(mixnode, cost_params, args.signature, coin.into(), None)
.bond_mixnode(mixnode, args.signature, coin.into(), None)
.await
.expect("failed to bond mixnode!");
@@ -4,7 +4,6 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use validator_client::nymd::traits::MixnetSigningClient;
#[derive(Debug, Parser)]
pub struct Args {}
@@ -13,7 +12,7 @@ pub async fn claim_operator_reward(_args: Args, client: SigningClient) {
info!("Claim operator reward");
let res = client
.withdraw_operator_reward(None)
.execute_claim_operator_reward(None)
.await
.expect("failed to claim operator reward");
@@ -4,7 +4,6 @@
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use validator_client::nymd::traits::MixnetSigningClient;
#[derive(Debug, Parser)]
pub struct Args {
@@ -16,7 +15,7 @@ pub async fn vesting_claim_operator_reward(client: SigningClient) {
info!("Claim vesting operator reward");
let res = client
.withdraw_operator_reward_on_behalf(client.address().clone(), None)
.execute_vesting_claim_operator_reward(None)
.await
.expect("failed to claim vesting operator reward");
@@ -3,8 +3,8 @@
use clap::{Args, Subcommand};
pub mod update_config;
pub mod vesting_update_config;
pub mod update_profit_percent;
pub mod vesting_update_profit_percent;
#[derive(Debug, Args)]
#[clap(args_conflicts_with_subcommands = true, subcommand_required = true)]
@@ -15,12 +15,8 @@ pub struct MixnetOperatorsMixnodeSettings {
#[derive(Debug, Subcommand)]
pub enum MixnetOperatorsMixnodeSettingsCommands {
/// Update mixnode configuration
UpdateConfig(update_config::Args),
/// Update mixnode configuration for a mixnode bonded with locked tokens
VestingUpdateConfig(vesting_update_config::Args),
/// Update mixnode cost parameters
UpdateCostParameters,
/// Update mixnode cost parameters for a mixnode bonded with locked tokens
VestingUpdateCostParameters,
/// Update profit percentage
UpdateProfitPercentage(update_profit_percent::Args),
/// Update profit percentage for a mixnode bonded with locked tokens
VestingUpdateProfitPercentage(vesting_update_profit_percent::Args),
}
@@ -1,68 +0,0 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use mixnet_contract_common::MixNodeConfigUpdate;
use validator_client::nymd::traits::{MixnetQueryClient, MixnetSigningClient};
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub host: Option<String>,
#[clap(long)]
pub mix_port: Option<u16>,
#[clap(long)]
pub verloc_port: Option<u16>,
#[clap(long)]
pub http_api_port: Option<u16>,
#[clap(long)]
pub version: Option<String>,
}
pub async fn update_config(args: Args, client: SigningClient) {
info!("Update mix node config!");
let current_details = match client
.get_owned_mixnode(client.address())
.await
.expect("failed to query the chain for mixnode details")
.mixnode_details
{
Some(details) => details,
None => {
log::warn!("this operator does not own a mixnode to update");
return;
}
};
let update = MixNodeConfigUpdate {
host: args
.host
.unwrap_or(current_details.bond_information.mix_node.host),
mix_port: args
.mix_port
.unwrap_or(current_details.bond_information.mix_node.mix_port),
verloc_port: args
.verloc_port
.unwrap_or(current_details.bond_information.mix_node.verloc_port),
http_api_port: args
.http_api_port
.unwrap_or(current_details.bond_information.mix_node.http_api_port),
version: args
.version
.unwrap_or(current_details.bond_information.mix_node.version),
};
let res = client
.update_mixnode_config(update, None)
.await
.expect("updating mix-node config");
info!("mixnode config updated: {:?}", res)
}
@@ -0,0 +1,24 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::context::SigningClient;
use clap::Parser;
use log::info;
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub profit_percent: u8,
}
pub async fn update_profit_percent(args: Args, client: SigningClient) {
info!("Update mix node profit percent - get those rewards!");
//profit percent between 1-100
let res = client
.update_mixnode_config(args.profit_percent, None)
.await
.expect("updating mix-node profit percent");
info!("profit percentage updated: {:?}", res)
}
@@ -1,69 +0,0 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use mixnet_contract_common::MixNodeConfigUpdate;
use validator_client::nymd::traits::MixnetQueryClient;
use validator_client::nymd::VestingSigningClient;
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub host: Option<String>,
#[clap(long)]
pub mix_port: Option<u16>,
#[clap(long)]
pub verloc_port: Option<u16>,
#[clap(long)]
pub http_api_port: Option<u16>,
#[clap(long)]
pub version: Option<String>,
}
pub async fn vesting_update_config(client: SigningClient, args: Args) {
info!("Update vesting mix node config!");
let current_details = match client
.get_owned_mixnode(client.address())
.await
.expect("failed to query the chain for mixnode details")
.mixnode_details
{
Some(details) => details,
None => {
log::warn!("this operator does not own a mixnode to update");
return;
}
};
let update = MixNodeConfigUpdate {
host: args
.host
.unwrap_or(current_details.bond_information.mix_node.host),
mix_port: args
.mix_port
.unwrap_or(current_details.bond_information.mix_node.mix_port),
verloc_port: args
.verloc_port
.unwrap_or(current_details.bond_information.mix_node.verloc_port),
http_api_port: args
.http_api_port
.unwrap_or(current_details.bond_information.mix_node.http_api_port),
version: args
.version
.unwrap_or(current_details.bond_information.mix_node.version),
};
let res = client
.vesting_update_mixnode_config(update, None)
.await
.expect("updating vesting mix-node config");
info!("mixnode config updated: {:?}", res)
}
@@ -0,0 +1,28 @@
// Copyright 2021 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use crate::context::SigningClient;
use clap::Parser;
use log::info;
use validator_client::nymd::VestingSigningClient;
#[derive(Debug, Parser)]
pub struct Args {
#[clap(long)]
pub profit_percent: u8,
#[clap(long)]
pub gas: Option<u64>,
}
pub async fn vesting_update_profit_percent(client: SigningClient, args: Args) {
info!("Update vesting mix node profit percent - get those rewards!");
//profit percent between 1-100
let res = client
.vesting_update_mixnode_config(args.profit_percent, None)
.await
.expect("updating vesting mix-node profit percent");
info!("profit percentage updated: {:?}", res)
}
@@ -3,7 +3,6 @@
use clap::Parser;
use log::info;
use validator_client::nymd::traits::MixnetSigningClient;
use crate::context::SigningClient;
@@ -3,14 +3,13 @@
use crate::context::SigningClient;
use clap::Parser;
use cosmwasm_std::Uint128;
use log::{info, warn};
use mixnet_contract_common::{Coin, MixNodeCostParams};
use mixnet_contract_common::{MixNode, Percent};
use mixnet_contract_common::Coin;
use mixnet_contract_common::MixNode;
use network_defaults::{
DEFAULT_HTTP_API_LISTENING_PORT, DEFAULT_MIX_LISTENING_PORT, DEFAULT_VERLOC_LISTENING_PORT,
};
use validator_client::nymd::{CosmWasmCoin, VestingSigningClient};
use validator_client::nymd::VestingSigningClient;
#[derive(Debug, Parser)]
pub struct Args {
@@ -41,12 +40,6 @@ pub struct Args {
#[clap(long)]
pub profit_margin_percent: Option<u8>,
#[clap(
long,
help = "operating cost in current DENOMINATION (so it would be 'unym', rather than 'nym')"
)]
pub interval_operating_cost: Option<u128>,
#[clap(
long,
help = "bonding amount in current DENOMINATION (so it would be 'unym', rather than 'nym')"
@@ -79,23 +72,13 @@ pub async fn vesting_bond_mixnode(client: SigningClient, args: Args, denom: &str
sphinx_key: args.sphinx_key,
identity_key: args.identity_key,
version: args.version,
profit_margin_percent: args.profit_margin_percent.unwrap_or(10),
};
let coin = Coin::new(args.amount, denom);
let cost_params = MixNodeCostParams {
profit_margin_percent: Percent::from_percentage_value(
args.profit_margin_percent.unwrap_or(10) as u64,
)
.unwrap(),
interval_operating_cost: CosmWasmCoin {
denom: denom.into(),
amount: Uint128::new(args.interval_operating_cost.unwrap_or(40_000_000)),
},
};
let res = client
.vesting_bond_mixnode(mixnode, cost_params, &args.signature, coin.into(), None)
.vesting_bond_mixnode(mixnode, &*args.signature, coin.into(), None)
.await
.expect("failed to bond vesting mixnode!");
@@ -5,7 +5,7 @@ use clap::Parser;
use comfy_table::Table;
use crate::context::QueryClientWithValidatorAPI;
use crate::utils::{pretty_decimal_with_denom, show_error};
use crate::utils::{pretty_cosmwasm_coin, show_error};
#[derive(Debug, Parser)]
pub struct Args {
@@ -19,8 +19,7 @@ pub async fn query(args: Args, client: &QueryClientWithValidatorAPI) {
Ok(res) => match args.identity_key {
Some(identity_key) => {
let node = res.iter().find(|node| {
node.bond_information
.mix_node
node.mix_node
.identity_key
.to_string()
.eq_ignore_ascii_case(&identity_key)
@@ -34,7 +33,6 @@ pub async fn query(args: Args, client: &QueryClientWithValidatorAPI) {
let mut table = Table::new();
table.set_header(vec![
"Mix id",
"Identity Key",
"Owner",
"Host",
@@ -43,15 +41,13 @@ pub async fn query(args: Args, client: &QueryClientWithValidatorAPI) {
"Version",
]);
for node in res {
let denom = &node.bond_information.original_pledge().denom;
table.add_row(vec![
node.mix_id().to_string(),
node.bond_information.mix_node.identity_key.clone(),
node.bond_information.owner.clone().into_string(),
node.bond_information.mix_node.host.clone(),
pretty_decimal_with_denom(node.rewarding_details.operator, denom),
pretty_decimal_with_denom(node.rewarding_details.delegates, denom),
node.bond_information.mix_node.version,
node.mix_node.identity_key.to_string(),
node.owner.to_string(),
node.mix_node.host.to_string(),
pretty_cosmwasm_coin(&node.pledge_amount),
pretty_cosmwasm_coin(&node.total_delegation()),
node.mix_node.version,
]);
}
@@ -51,7 +51,7 @@ pub async fn create(args: Args, client: SigningClient, network_details: &NymNetw
let res = client
.create_periodic_vesting_account(
&args.address,
&*args.address,
args.staking_address,
Some(vesting),
coin.into(),
@@ -70,7 +70,7 @@ pub async fn create(args: Args, client: SigningClient, network_details: &NymNetw
let send_coin_response = client
.send(
&AccountId::from_str(&args.address).unwrap(),
&AccountId::from_str(&*args.address).unwrap(),
vec![coin.into()],
"payment made :)",
None,
-11
View File
@@ -1,11 +0,0 @@
[package]
name = "completions"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
clap = { version = "3.2", features = ["derive"] }
clap_complete = "3.2"
clap_complete_fig = "3.2"
-58
View File
@@ -1,58 +0,0 @@
use clap::builder::Command;
use clap::clap_derive::ArgEnum;
use clap::Args;
use clap_complete::generator::generate;
use clap_complete::Shell as ClapShell;
use std::io;
pub fn fig_generate(command: &mut Command, name: &str) {
clap_complete::generate(
clap_complete_fig::Fig,
command,
name,
&mut std::io::stdout(),
)
}
#[derive(ArgEnum, Copy, Clone)]
pub enum Shell {
Bash,
Elvish,
Fish,
PowerShell,
Zsh,
}
#[derive(Args, Copy, Clone)]
pub struct ArgShell {
#[clap(arg_enum, value_name = "SHELL")]
shell: Shell,
}
impl ArgShell {
pub fn generate(&self, command: &mut Command, name: &str) {
self.shell.generate(command, name)
}
}
impl Shell {
pub fn generate(&self, command: &mut Command, name: &str) {
match &self {
Self::Bash => {
generate(ClapShell::Bash, command, name, &mut io::stdout());
}
Self::Elvish => {
generate(ClapShell::Elvish, command, name, &mut io::stdout());
}
Self::Fish => {
generate(ClapShell::Fish, command, name, &mut io::stdout());
}
Self::PowerShell => {
generate(ClapShell::PowerShell, command, name, &mut io::stdout());
}
Self::Zsh => {
generate(ClapShell::Zsh, command, name, &mut io::stdout());
}
}
}
}
-1
View File
@@ -88,7 +88,6 @@ pub trait NymConfig: Default + Serialize + DeserializeOwned {
let location = custom_location
.unwrap_or_else(|| self.config_directory().join(Self::config_file_name()));
log::info!("Configuration file will be saved to {:?}", location);
cfg_if::cfg_if! {
if #[cfg(unix)] {
@@ -8,4 +8,3 @@ edition = "2021"
[dependencies]
cosmwasm-std = "1.0.0"
serde = { version = "1.0", features = ["derive"] }
@@ -28,26 +28,3 @@ pub fn may_find_attribute(event: &Event, key: &str) -> Option<String> {
}
None
}
pub trait OptionallyAddAttribute {
fn add_optional_attribute(
self,
key: impl Into<String>,
value: Option<impl Into<String>>,
) -> Self;
}
impl OptionallyAddAttribute for Event {
fn add_optional_attribute(
self,
key: impl Into<String>,
value: Option<impl Into<String>>,
) -> Self {
if let Some(value) = value {
self.add_attribute(key, value)
} else {
// TODO: perhaps if value doesn't exist, we should emit explicit 'null'?
self
}
}
}
@@ -2,6 +2,3 @@
// SPDX-License-Identifier: Apache-2.0
pub mod events;
pub mod types;
pub use types::*;
@@ -1,33 +0,0 @@
// Copyright 2022 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use serde::{Deserialize, Serialize};
// TODO: there's no reason this couldn't be used for proper binaries, but in that case
// perhaps the struct should get renamed and moved to a "more" common crate
#[derive(Debug, Serialize, Deserialize)]
pub struct ContractBuildInformation {
// VERGEN_BUILD_TIMESTAMP
/// Provides the build timestamp, for example `2021-02-23T20:14:46.558472672+00:00`.
pub build_timestamp: String,
// VERGEN_BUILD_SEMVER
/// Provides the build version, for example `0.1.0-9-g46f83e1`.
pub build_version: String,
// VERGEN_GIT_SHA
/// Provides the hash of the commit that was used for the build, for example `46f83e112520533338245862d366f6a02cef07d4`.
pub commit_sha: String,
// VERGEN_GIT_COMMIT_TIMESTAMP
/// Provides the timestamp of the commit that was used for the build, for example `2021-02-23T08:08:02-05:00`.
pub commit_timestamp: String,
// VERGEN_GIT_BRANCH
/// Provides the name of the git branch that was used for the build, for example `master`.
pub commit_branch: String,
// VERGEN_RUSTC_SEMVER
/// Provides the rustc version that was used for the build, for example `1.52.0-nightly`.
pub rustc_version: String,
}
@@ -8,22 +8,21 @@ rust-version = "1.62"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
bs58 = "0.4.0"
cosmwasm-std = "1.0.0"
serde = { version = "1.0", features = ["derive"] }
serde_repr = "0.1"
schemars = "0.8"
thiserror = "1.0"
contracts-common = { path = "../contracts-common" }
serde_json = "1.0.0"
# TO CHECK WHETHER STILL NEEDED:
fixed = { version = "1.1", features = ["serde"] }
az = "1.1"
log = "0.4.14"
time = { version = "0.3.6", features = ["parsing", "formatting"] }
ts-rs = { version = "6.1.2", optional = true }
ts-rs = {version = "6.1.2", optional = true}
contracts-common = { path = "../contracts-common" }
[dev-dependencies]
rand_chacha = "0.3"
time = { version = "0.3.5", features = ["serde", "macros"] }
[features]

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