better route selection
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parent
1f57b05708
commit
6f937039c7
2
external/keyring-manager
vendored
2
external/keyring-manager
vendored
@ -1 +1 @@
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Subproject commit c153eb3015d6d118e5d467865510d053ddd84533
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Subproject commit b127b2d3c653fea163a776dd58b3798f28aeeee3
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@ -1379,9 +1379,13 @@ impl NetworkManager {
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let some_relay_nr = if self.check_client_whitelist(sender_id) {
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// Full relay allowed, do a full resolve_node
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rpc.resolve_node(recipient_id).await.wrap_err(
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"failed to resolve recipient node for relay, dropping outbound relayed packet",
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)?
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match rpc.resolve_node(recipient_id).await {
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Ok(v) => v,
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Err(e) => {
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log_net!(debug "failed to resolve recipient node for relay, dropping outbound relayed packet: {}" ,e);
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return Ok(false);
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}
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}
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} else {
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// If this is not a node in the client whitelist, only allow inbound relay
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// which only performs a lightweight lookup before passing the packet back out
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@ -1396,9 +1400,14 @@ impl NetworkManager {
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if let Some(relay_nr) = some_relay_nr {
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// Relay the packet to the desired destination
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log_net!("relaying {} bytes to {}", data.len(), relay_nr);
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network_result_value_or_log!(self.send_data(relay_nr, data.to_vec())
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.await
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.wrap_err("failed to forward envelope")? => {
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network_result_value_or_log!(match self.send_data(relay_nr, data.to_vec())
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.await {
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Ok(v) => v,
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Err(e) => {
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log_net!(debug "failed to forward envelope: {}" ,e);
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return Ok(false);
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}
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} => {
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return Ok(false);
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}
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);
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@ -1411,10 +1420,15 @@ impl NetworkManager {
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let node_id_secret = routing_table.node_id_secret();
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// Decrypt the envelope body
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let body = match envelope
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.decrypt_body(self.crypto(), data, &node_id_secret) {
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Ok(v) => v,
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Err(e) => {
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log_net!(debug "failed to decrypt envelope body: {}",e);
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// xxx: punish nodes that send messages that fail to decrypt eventually
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let body = envelope
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.decrypt_body(self.crypto(), data, &node_id_secret)
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.wrap_err("failed to decrypt envelope body")?;
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return Ok(false);
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}
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};
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// Cache the envelope information in the routing table
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let source_noderef = match routing_table.register_node_with_existing_connection(
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@ -646,25 +646,46 @@ impl RouteSpecStore {
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let v = v.unwrap();
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// Exclude our relay if we have one
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if let Some(relay_id) = opt_relay_id {
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if k == relay_id {
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if let Some(own_relay_id) = opt_relay_id {
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if k == own_relay_id {
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return false;
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}
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}
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// Exclude nodes on our local network
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let on_local_network = v.with(rti, |_rti, e| {
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e.node_info(RoutingDomain::LocalNetwork).is_some()
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});
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if on_local_network {
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return false;
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}
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// Exclude nodes we have specifically chosen to avoid
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if avoid_node_ids.contains(&k) {
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return false;
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}
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// Process node info exclusions
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let keep = v.with(rti, |_rti, e| {
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// Exclude nodes on our local network
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if e.node_info(RoutingDomain::LocalNetwork).is_some() {
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return false;
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}
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// Exclude nodes that have no publicinternet signednodeinfo
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let Some(sni) = e.signed_node_info(RoutingDomain::PublicInternet) else {
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return false;
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};
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// Relay check
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if let Some(relay_id) = sni.relay_id() {
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// Exclude nodes whose relays we have chosen to avoid
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if avoid_node_ids.contains(&relay_id.key) {
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return false;
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}
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// Exclude nodes whose relay is our own relay if we have one
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if let Some(own_relay_id) = opt_relay_id {
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if own_relay_id == relay_id.key {
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return false;
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}
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}
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}
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return true;
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});
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if !keep {
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return false;
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}
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// Exclude nodes with no publicinternet nodeinfo, or incompatible nodeinfo or node status won't route
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v.with(rti, move |_rti, e| {
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let node_info_ok =
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@ -774,6 +795,22 @@ impl RouteSpecStore {
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return None;
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}
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// Ensure the route doesn't contain both a node and its relay
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let mut seen_nodes: HashSet<DHTKey> = HashSet::new();
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for n in permutation {
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let node = nodes.get(*n).unwrap();
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if !seen_nodes.insert(node.node_id.key) {
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// Already seen this node, should not be in the route twice
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return None;
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}
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if let Some(relay_id) = node.signed_node_info.relay_id() {
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if !seen_nodes.insert(relay_id.key) {
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// Already seen this node, should not be in the route twice
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return None;
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}
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}
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}
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// Ensure this route is viable by checking that each node can contact the next one
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if directions.contains(Direction::Outbound) {
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let mut previous_node = &our_peer_info;
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@ -294,8 +294,10 @@ impl RoutingDomainDetail for PublicInternetRoutingDomainDetail {
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// Get the target's inbound relay, it must have one or it is not reachable
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if let Some(node_b_relay) = peer_b.signed_node_info.relay_info() {
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let node_b_relay_id = peer_b.signed_node_info.relay_id().unwrap();
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// Note that relay_peer_info could be node_a, in which case a connection already exists
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// and we shouldn't have even gotten here
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// and we only get here if the connection had dropped, in which case node_a is unreachable until
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// it gets a new relay connection up
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if node_b_relay_id.key == peer_a.node_id.key {
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return ContactMethod::Existing;
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}
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@ -376,6 +378,13 @@ impl RoutingDomainDetail for PublicInternetRoutingDomainDetail {
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else if let Some(node_b_relay) = peer_b.signed_node_info.relay_info() {
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let node_b_relay_id = peer_b.signed_node_info.relay_id().unwrap();
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// Note that relay_peer_info could be node_a, in which case a connection already exists
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// and we only get here if the connection had dropped, in which case node_a is unreachable until
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// it gets a new relay connection up
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if node_b_relay_id.key == peer_a.node_id.key {
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return ContactMethod::Existing;
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}
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// Can we reach the full relay?
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if first_filtered_dial_info_detail(
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node_a,
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@ -1988,7 +1988,6 @@ impl SignedNodeInfo {
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SignedNodeInfo::Relayed(r) => r.timestamp,
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}
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}
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pub fn node_info(&self) -> &NodeInfo {
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match self {
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SignedNodeInfo::Direct(d) => &d.node_info,
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