wasm fixes
This commit is contained in:
parent
b1cc0d803c
commit
e77577ba66
@ -74,7 +74,7 @@ fi
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rustup target add aarch64-linux-android armv7-linux-androideabi i686-linux-android x86_64-linux-android wasm32-unknown-unknown
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# install cargo packages
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cargo install wasm-bindgen-cli
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cargo install wasm-bindgen-cli wasm-pack
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# Ensure packages are installed
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sudo apt-get install libc6-dev-i386 libc6:i386 libncurses5:i386 libstdc++6:i386 lib32z1 libbz2-1.0:i386 openjdk-11-jdk llvm wabt capnproto protobuf-compiler
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@ -90,13 +90,7 @@ fi
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rustup target add aarch64-apple-darwin aarch64-apple-ios x86_64-apple-darwin x86_64-apple-ios wasm32-unknown-unknown aarch64-linux-android armv7-linux-androideabi i686-linux-android x86_64-linux-android
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# install cargo packages
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cargo install wasm-bindgen-cli
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# install bitcode compatible ios toolchain
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# echo Manual Step:
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# echo install +ios-arm64-1.57.0 toolchain for bitcode from https://github.com/getditto/rust-bitcode/releases/latest and unzip
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# echo xattr -d -r com.apple.quarantine .
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# echo ./install.sh
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cargo install wasm-bindgen-cli wasm-pack
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# ensure we have command line tools
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xcode-select --install
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@ -251,7 +251,8 @@ impl ConnectionManager {
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// Async lock on the remote address for atomicity per remote
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let peer_address = dial_info.to_peer_address();
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let remote_addr = peer_address.to_socket_addr();
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let _lock_guard = self.arc.address_lock_table.lock_tag(remote_addr);
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let _lock_guard = self.arc.address_lock_table.lock_tag(remote_addr).await;
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log_net!(
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"== get_or_create_connection local_addr={:?} dial_info={:?}",
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@ -369,7 +370,7 @@ impl ConnectionManager {
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// Called by low-level network when any connection-oriented protocol connection appears
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// either from incoming connections.
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#[cfg_attr(target_os = "wasm32", allow(dead_code))]
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#[cfg_attr(target_arch = "wasm32", allow(dead_code))]
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pub(super) async fn on_accepted_protocol_network_connection(
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&self,
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protocol_connection: ProtocolNetworkConnection,
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@ -353,7 +353,7 @@ impl NetworkManager {
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let node_refs = routing_table.get_nodes_needing_ping(RoutingDomain::PublicInternet, cur_ts);
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// Look up any NAT mappings we may need to try to preserve with keepalives
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let mut mapped_port_info = routing_table.get_mapped_port_info();
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let mut mapped_port_info = routing_table.get_low_level_port_info();
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// Get the PublicInternet relay if we are using one
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let opt_relay_nr = routing_table.relay_node(RoutingDomain::PublicInternet);
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@ -558,7 +558,8 @@ impl NetworkManager {
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// Do we need a relay?
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if !has_relay && node_info.requires_relay() {
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// Do we need an outbound relay?
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// Do we want an outbound relay?
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let mut got_outbound_relay = false;
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if network_class.outbound_wants_relay() {
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// The outbound relay is the host of the PWA
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if let Some(outbound_relay_peerinfo) = intf::get_outbound_relay_peer().await {
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@ -571,10 +572,11 @@ impl NetworkManager {
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) {
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info!("Outbound relay node selected: {}", nr);
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editor.set_relay_node(nr);
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got_outbound_relay = true;
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}
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}
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// Otherwise we must need an inbound relay
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} else {
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}
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if !got_outbound_relay {
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// Find a node in our routing table that is an acceptable inbound relay
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if let Some(nr) =
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routing_table.find_inbound_relay(RoutingDomain::PublicInternet, cur_ts)
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@ -52,6 +52,7 @@ pub async fn test_add_get_remove() {
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);
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let c1 = NetworkConnection::dummy(1, a1);
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let c1b = NetworkConnection::dummy(10, a1);
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let c1h = c1.get_handle();
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let c2 = NetworkConnection::dummy(2, a2);
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let c3 = NetworkConnection::dummy(3, a3);
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@ -65,6 +66,7 @@ pub async fn test_add_get_remove() {
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assert_eq!(table.connection_count(), 0);
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assert_eq!(table.get_connection_by_descriptor(a1), None);
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table.add_connection(c1).unwrap();
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assert!(table.add_connection(c1b).is_err());
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assert_eq!(table.connection_count(), 1);
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assert!(table.remove_connection_by_id(4).is_none());
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@ -16,7 +16,10 @@ struct NetworkInner {
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}
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struct NetworkUnlockedInner {
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// Accessors
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routing_table: RoutingTable,
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network_manager: NetworkManager,
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connection_manager: ConnectionManager,
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}
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#[derive(Clone)]
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@ -35,9 +38,15 @@ impl Network {
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}
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}
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fn new_unlocked_inner(network_manager: NetworkManager) -> NetworkUnlockedInner {
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fn new_unlocked_inner(
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network_manager: NetworkManager,
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routing_table: RoutingTable,
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connection_manager: ConnectionManager,
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) -> NetworkUnlockedInner {
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NetworkUnlockedInner {
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network_manager
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network_manager,
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routing_table,
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connection_manager
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}
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}
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@ -49,15 +58,18 @@ impl Network {
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Self {
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config: network_manager.config(),
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inner: Arc::new(Mutex::new(Self::new_inner())),
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unlocked_inner: Arc::new(Self::new_unlocked_inner(network_manager))
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unlocked_inner: Arc::new(Self::new_unlocked_inner(network_manager, routing_table, connection_manager))
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}
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}
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fn network_manager(&self) -> NetworkManager {
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self.unlocked_inner.network_manager.clone()
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}
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fn routing_table(&self) -> RoutingTable {
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self.unlocked_inner.routing_table.clone()
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}
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fn connection_manager(&self) -> ConnectionManager {
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self.unlocked_inner.network_manager.connection_manager()
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self.unlocked_inner.connection_manager.clone()
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}
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/////////////////////////////////////////////////////////////////
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@ -279,8 +291,7 @@ impl Network {
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trace!("stopping network");
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// Reset state
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let network_manager = self.network_manager();
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let routing_table = network_manager.routing_table();
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let routing_table = self.routing_table();
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// Drop all dial info
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let mut editor = routing_table.edit_routing_domain(RoutingDomain::PublicInternet);
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@ -299,7 +310,7 @@ impl Network {
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trace!("network stopped");
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}
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pub fn is_usable_interface_address(&self, addr: IpAddr) -> bool {
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pub fn is_usable_interface_address(&self, _addr: IpAddr) -> bool {
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false
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}
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@ -112,7 +112,7 @@ impl WebsocketProtocolHandler {
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timeout_ms: u32,
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) -> io::Result<NetworkResult<ProtocolNetworkConnection>> {
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// Split dial info up
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let (tls, scheme) = match dial_info {
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let (_tls, scheme) = match dial_info {
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DialInfo::WS(_) => (false, "ws"),
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DialInfo::WSS(_) => (true, "wss"),
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_ => panic!("invalid dialinfo for WS/WSS protocol"),
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@ -7,7 +7,7 @@ use crate::*;
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pub type LowLevelProtocolPorts = BTreeSet<(LowLevelProtocolType, AddressType, u16)>;
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pub type ProtocolToPortMapping = BTreeMap<(ProtocolType, AddressType), (LowLevelProtocolType, u16)>;
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#[derive(Clone, Debug)]
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pub struct MappedPortInfo {
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pub struct LowLevelPortInfo {
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pub low_level_protocol_ports: LowLevelProtocolPorts,
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pub protocol_to_port: ProtocolToPortMapping,
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}
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@ -389,7 +389,7 @@ impl RoutingTable {
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// Only one protocol per low level protocol/port combination is required
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// For example, if WS/WSS and TCP protocols are on the same low-level TCP port, only TCP keepalives will be required
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// and we do not need to do WS/WSS keepalive as well. If they are on different ports, then we will need WS/WSS keepalives too.
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pub fn get_mapped_port_info(&self) -> MappedPortInfo {
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pub fn get_low_level_port_info(&self) -> LowLevelPortInfo {
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let mut low_level_protocol_ports =
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BTreeSet::<(LowLevelProtocolType, AddressType, u16)>::new();
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let mut protocol_to_port =
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@ -412,7 +412,7 @@ impl RoutingTable {
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),
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);
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}
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MappedPortInfo {
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LowLevelPortInfo {
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low_level_protocol_ports,
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protocol_to_port,
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}
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@ -423,7 +423,7 @@ impl RoutingTable {
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let outbound_dif = self
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.network_manager()
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.get_outbound_dial_info_filter(RoutingDomain::PublicInternet);
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let mapped_port_info = self.get_mapped_port_info();
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let mapped_port_info = self.get_low_level_port_info();
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move |e: &BucketEntryInner| {
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// Ensure this node is not on the local network
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@ -435,6 +435,9 @@ impl RoutingTable {
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// as we need to be able to use the relay for keepalives for all nat mappings
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let mut low_level_protocol_ports = mapped_port_info.low_level_protocol_ports.clone();
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info!("outbound_dif: {:?}", outbound_dif);
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info!("low_level_protocol_ports: {:?}", low_level_protocol_ports);
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let can_serve_as_relay = e
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.node_info(RoutingDomain::PublicInternet)
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.map(|n| {
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@ -8,6 +8,7 @@ impl RPCProcessor {
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self,
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peer: NodeRef,
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) -> Result<NetworkResult<Answer<SenderInfo>>, RPCError> {
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info!("ping to {:?}", peer);
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let routing_domain = match peer.best_routing_domain() {
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Some(rd) => rd,
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None => {
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@ -43,6 +44,7 @@ impl RPCProcessor {
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},
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_ => return Err(RPCError::invalid_format("not an answer")),
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};
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info!("qwer");
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// Ensure the returned node status is the kind for the routing domain we asked for
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match routing_domain {
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@ -62,6 +64,8 @@ impl RPCProcessor {
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}
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}
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info!("zxzxv");
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// Update latest node status in routing table
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peer.update_node_status(status_a.node_status);
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@ -35,20 +35,20 @@ pub async fn test_simple_single_contention() {
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let g1 = table.lock_tag(a1).await;
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println!("locked");
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info!("locked");
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let t1 = intf::spawn(async move {
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// move the guard into the task
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let _g1_take = g1;
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// hold the guard for a bit
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println!("waiting");
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info!("waiting");
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intf::sleep(1000).await;
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// release the guard
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println!("released");
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info!("released");
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});
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// wait to lock again, will contend until spawned task exits
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let _g1_b = table.lock_tag(a1).await;
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println!("locked");
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info!("locked");
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// Ensure task is joined
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t1.await;
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@ -67,24 +67,24 @@ pub async fn test_simple_double_contention() {
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let g1 = table.lock_tag(a1).await;
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let g2 = table.lock_tag(a2).await;
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println!("locked");
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info!("locked");
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let t1 = intf::spawn(async move {
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// move the guard into the task
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// move the guard into the tas
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let _g1_take = g1;
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// hold the guard for a bit
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println!("waiting");
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info!("waiting");
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intf::sleep(1000).await;
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// release the guard
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println!("released");
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info!("released");
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});
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let t2 = intf::spawn(async move {
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// move the guard into the task
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let _g2_take = g2;
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// hold the guard for a bit
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println!("waiting");
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info!("waiting");
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intf::sleep(500).await;
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// release the guard
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println!("released");
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info!("released");
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});
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// wait to lock again, will contend until spawned task exits
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@ -92,7 +92,7 @@ pub async fn test_simple_double_contention() {
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// wait to lock again, should complete immediately
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let _g2_b = table.lock_tag(a2).await;
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println!("locked");
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info!("locked");
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// Ensure tasks are joined
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t1.await;
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@ -112,36 +112,36 @@ pub async fn test_parallel_single_contention() {
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let t1 = intf::spawn(async move {
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// lock the tag
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let _g = table1.lock_tag(a1).await;
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println!("locked t1");
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info!("locked t1");
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// hold the guard for a bit
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println!("waiting t1");
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info!("waiting t1");
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intf::sleep(500).await;
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// release the guard
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println!("released t1");
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info!("released t1");
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});
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let table2 = table.clone();
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let t2 = intf::spawn(async move {
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// lock the tag
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let _g = table2.lock_tag(a1).await;
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println!("locked t2");
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info!("locked t2");
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// hold the guard for a bit
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println!("waiting t2");
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info!("waiting t2");
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intf::sleep(500).await;
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// release the guard
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println!("released t2");
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info!("released t2");
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});
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let table3 = table.clone();
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let t3 = intf::spawn(async move {
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// lock the tag
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let _g = table3.lock_tag(a1).await;
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println!("locked t3");
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info!("locked t3");
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// hold the guard for a bit
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println!("waiting t3");
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info!("waiting t3");
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intf::sleep(500).await;
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// release the guard
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println!("released t3");
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info!("released t3");
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});
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// Ensure tasks are joined
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@ -1,18 +1,33 @@
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use super::*;
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use core::fmt::Debug;
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use core::hash::Hash;
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#[derive(Debug)]
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pub struct AsyncTagLockGuard<T>
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where
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T: Hash + Eq + Clone,
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T: Hash + Eq + Clone + Debug,
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{
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table: AsyncTagLockTable<T>,
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tag: T,
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_guard: AsyncMutexGuardArc<()>,
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}
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impl<T> AsyncTagLockGuard<T>
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where
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T: Hash + Eq + Clone + Debug,
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{
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fn new(table: AsyncTagLockTable<T>, tag: T, guard: AsyncMutexGuardArc<()>) -> Self {
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Self {
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table,
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tag,
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_guard: guard,
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}
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}
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}
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impl<T> Drop for AsyncTagLockGuard<T>
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where
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T: Hash + Eq + Clone,
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T: Hash + Eq + Clone + Debug,
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{
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fn drop(&mut self) {
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let mut inner = self.table.inner.lock();
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@ -33,7 +48,7 @@ where
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}
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}
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#[derive(Clone)]
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#[derive(Clone, Debug)]
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struct AsyncTagLockTableEntry {
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mutex: Arc<AsyncMutex<()>>,
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waiters: usize,
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@ -41,7 +56,7 @@ struct AsyncTagLockTableEntry {
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struct AsyncTagLockTableInner<T>
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where
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T: Hash + Eq + Clone,
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T: Hash + Eq + Clone + Debug,
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{
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table: HashMap<T, AsyncTagLockTableEntry>,
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}
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@ -49,14 +64,14 @@ where
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#[derive(Clone)]
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pub struct AsyncTagLockTable<T>
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where
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T: Hash + Eq + Clone,
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T: Hash + Eq + Clone + Debug,
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{
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inner: Arc<Mutex<AsyncTagLockTableInner<T>>>,
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}
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impl<T> fmt::Debug for AsyncTagLockTable<T>
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where
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T: Hash + Eq + Clone,
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T: Hash + Eq + Clone + Debug,
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{
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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f.debug_struct("AsyncTagLockTable").finish()
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@ -65,7 +80,7 @@ where
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impl<T> AsyncTagLockTable<T>
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where
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T: Hash + Eq + Clone,
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T: Hash + Eq + Clone + Debug,
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{
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pub fn new() -> Self {
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Self {
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@ -111,16 +126,12 @@ where
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// tokio version
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guard = mutex.lock_owned().await;
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} else {
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// async_std and wasm async_mutex version
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// async-std and wasm async-lock version
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guard = mutex.lock_arc().await;
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}
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}
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// Return the locked guard
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AsyncTagLockGuard {
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table: self.clone(),
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tag,
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_guard: guard,
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}
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AsyncTagLockGuard::new(self.clone(), tag, guard)
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}
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}
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