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Give things unique ID types, not aliases, to prevent mixups

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This commit is contained in:
James Wilson
2021-06-30 16:59:03 +01:00
parent 06bd660599
commit 4308359feb
14 changed files with 308 additions and 394 deletions
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backend/common/src/assign_id.rs
+21 -34
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@@ -1,65 +1,52 @@
use std::{fmt::Display, hash::Hash}; use std::hash::Hash;
use serde::{Serialize,Deserialize};
use bimap::BiMap; use bimap::BiMap;
#[derive(Clone,Copy,Debug,Hash,PartialEq,Eq,Serialize,Deserialize)]
pub struct Id(usize);
impl std::convert::From<Id> for usize {
fn from(id: Id) -> usize {
id.0
}
}
impl std::convert::From<usize> for Id {
fn from(n: usize) -> Id {
Id(n)
}
}
impl Display for Id {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
self.0.fmt(f)
}
}
/// A struct that allows you to assign an ID to an arbitrary set of /// A struct that allows you to assign an ID to an arbitrary set of
/// details (so long as they are Eq+Hash+Clone), and then access /// details (so long as they are Eq+Hash+Clone), and then access
/// the assigned ID given those details or access the details given /// the assigned ID given those details or access the details given
/// the ID. /// the ID.
#[derive(Debug)] #[derive(Debug)]
pub struct AssignId<Details> { pub struct AssignId<Id, Details> {
current_id: Id, current_id: usize,
mapping: BiMap<Id, Details> mapping: BiMap<usize, Details>,
_id_type: std::marker::PhantomData<Id>
} }
impl <Details> AssignId<Details> where Details: Eq + Hash { impl <Id, Details> AssignId<Id, Details>
where
Details: Eq + Hash,
Id: From<usize> + Copy,
usize: From<Id>
{
pub fn new() -> Self { pub fn new() -> Self {
Self { Self {
current_id: Id(0), current_id: 0,
mapping: BiMap::new() mapping: BiMap::new(),
_id_type: std::marker::PhantomData
} }
} }
pub fn assign_id(&mut self, details: Details) -> Id { pub fn assign_id(&mut self, details: Details) -> Id {
let this_id = self.current_id; let this_id = self.current_id;
self.current_id.0 += 1; self.current_id += 1;
self.mapping.insert(this_id, details); self.mapping.insert(this_id, details);
this_id this_id.into()
} }
pub fn get_details(&mut self, id: Id) -> Option<&Details> { pub fn get_details(&mut self, id: Id) -> Option<&Details> {
self.mapping.get_by_left(&id) self.mapping.get_by_left(&id.into())
} }
pub fn get_id(&mut self, details: &Details) -> Option<Id> { pub fn get_id(&mut self, details: &Details) -> Option<Id> {
self.mapping.get_by_right(details).map(|id| *id) self.mapping.get_by_right(details).map(|&id| id.into())
} }
pub fn remove_by_id(&mut self, id: Id) -> Option<Details> { pub fn remove_by_id(&mut self, id: Id) -> Option<Details> {
self.mapping.remove_by_left(&id).map(|(_,details)| details) self.mapping.remove_by_left(&id.into()).map(|(_,details)| details)
} }
pub fn remove_by_details(&mut self, details: &Details) -> Option<Id> { pub fn remove_by_details(&mut self, details: &Details) -> Option<Id> {
self.mapping.remove_by_right(&details).map(|(id,_)| id) self.mapping.remove_by_right(&details).map(|(id,_)| id.into())
} }
pub fn clear(&mut self) { pub fn clear(&mut self) {
@@ -67,6 +54,6 @@ impl <Details> AssignId<Details> where Details: Eq + Hash {
} }
pub fn iter(&self) -> impl Iterator<Item = (Id, &Details)> { pub fn iter(&self) -> impl Iterator<Item = (Id, &Details)> {
self.mapping.iter().map(|(id, details)| (*id, details)) self.mapping.iter().map(|(&id, details)| (id.into(), details))
} }
} }
backend/common/src/id_type.rs
+56
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@@ -0,0 +1,56 @@
/// Define a type that can be used as an ID, be converted from/to the inner type,
/// and serialized/deserialized transparently into the inner type.
#[macro_export]
macro_rules! id_type {
($( #[$attrs:meta] )* $vis:vis $ty:ident ( $inner:ident ) $(;)? ) => {
#[derive(Debug,Clone,Copy,PartialEq,Eq,Hash)]
$( #[$attrs] )*
$vis struct $ty($inner);
impl $ty {
#[allow(dead_code)]
pub fn new(inner: $inner) -> Self {
Self(inner)
}
}
impl From<$inner> for $ty {
fn from(inner: $inner) -> Self {
Self(inner)
}
}
impl From<$ty> for $inner {
fn from(ty: $ty) -> Self {
ty.0
}
}
}
}
#[cfg(test)]
mod test {
#[test]
fn create_and_use_new_id_type() {
id_type!{
Foo(usize)
};
let _ = Foo::new(123);
let id = Foo::from(123);
let _: usize = id.into();
// Check that these don't lead to compile errors:
id_type!{
Bar(usize);
};
id_type!{
pub Wibble(u64)
};
id_type!{
/// We can have doc strings, too
pub(crate) Wobble(u16)
};
}
}
backend/common/src/internal_messages.rs
+12 -8
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@@ -2,12 +2,16 @@ use std::net::IpAddr;
use crate::node::Payload; use crate::node::Payload;
use crate::types::{NodeDetails, BlockHash}; use crate::types::{NodeDetails, BlockHash};
use crate::assign_id::Id; use crate::id_type;
use serde::{Deserialize, Serialize}; use serde::{Deserialize, Serialize};
/// The shard-local ID of a given node, where a single connection id_type! {
/// might send data on behalf of more than one chain. /// The shard-local ID of a given node, where a single connection
pub type LocalId = Id; /// might send data on behalf of more than one chain.
#[derive(serde::Serialize, serde::Deserialize)]
pub ShardNodeId(usize);
}
/// Message sent from the shard to the backend core /// Message sent from the shard to the backend core
#[derive(Deserialize, Serialize, Debug, Clone)] #[derive(Deserialize, Serialize, Debug, Clone)]
@@ -16,17 +20,17 @@ pub enum FromShardAggregator {
AddNode { AddNode {
ip: Option<IpAddr>, ip: Option<IpAddr>,
node: NodeDetails, node: NodeDetails,
local_id: LocalId, local_id: ShardNodeId,
genesis_hash: BlockHash genesis_hash: BlockHash
}, },
/// Send a message payload to update details for a node /// Send a message payload to update details for a node
UpdateNode { UpdateNode {
local_id: LocalId, local_id: ShardNodeId,
payload: Payload, payload: Payload,
}, },
/// Inform the core that a node has been removed /// Inform the core that a node has been removed
RemoveNode { RemoveNode {
local_id: LocalId local_id: ShardNodeId
} }
} }
@@ -34,7 +38,7 @@ pub enum FromShardAggregator {
#[derive(Deserialize, Serialize, Debug, Clone)] #[derive(Deserialize, Serialize, Debug, Clone)]
pub enum FromTelemetryCore { pub enum FromTelemetryCore {
Mute { Mute {
local_id: LocalId, local_id: ShardNodeId,
reason: MuteReason reason: MuteReason
} }
} }
backend/common/src/lib.rs
+1
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@@ -6,3 +6,4 @@ pub mod json;
pub mod log_level; pub mod log_level;
pub mod assign_id; pub mod assign_id;
pub mod most_seen; pub mod most_seen;
pub mod id_type;
backend/common/src/types.rs
-17
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@@ -4,10 +4,8 @@ use serde::{Deserialize, Serialize};
use crate::util::{now, MeanList}; use crate::util::{now, MeanList};
use crate::json; use crate::json;
pub type NodeId = usize;
pub type BlockNumber = u64; pub type BlockNumber = u64;
pub type Timestamp = u64; pub type Timestamp = u64;
pub type Address = Box<str>;
pub use primitive_types::H256 as BlockHash; pub use primitive_types::H256 as BlockHash;
#[derive(Serialize, Deserialize, Debug, Clone)] #[derive(Serialize, Deserialize, Debug, Clone)]
@@ -106,21 +104,6 @@ pub struct NodeLocation {
pub city: Box<str>, pub city: Box<str>,
} }
// impl Serialize for NodeDetails {
// fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
// where
// S: Serializer,
// {
// let mut tup = serializer.serialize_tuple(6)?;
// tup.serialize_element(&self.name)?;
// tup.serialize_element(&self.implementation)?;
// tup.serialize_element(&self.version)?;
// tup.serialize_element(&self.validator)?;
// tup.serialize_element(&self.network_id)?;
// tup.end()
// }
// }
impl Serialize for NodeStats { impl Serialize for NodeStats {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where where
backend/common/src/util.rs
-2
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@@ -1,11 +1,9 @@
mod dense_map; mod dense_map;
mod mean_list; mod mean_list;
mod null;
mod num_stats; mod num_stats;
pub use dense_map::DenseMap; pub use dense_map::DenseMap;
pub use mean_list::MeanList; pub use mean_list::MeanList;
pub use null::NullAny;
pub use num_stats::NumStats; pub use num_stats::NumStats;
pub fn fnv<D: AsRef<[u8]>>(data: D) -> u64 { pub fn fnv<D: AsRef<[u8]>>(data: D) -> u64 {
backend/common/src/util/dense_map.rs
+19 -10
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@@ -1,17 +1,22 @@
pub type Id = usize; pub struct DenseMap<Id, T> {
pub struct DenseMap<T> {
/// List of retired indexes that can be re-used /// List of retired indexes that can be re-used
retired: Vec<Id>, retired: Vec<usize>,
/// All items /// All items
items: Vec<Option<T>>, items: Vec<Option<T>>,
/// Our ID type
_id_ty: std::marker::PhantomData<Id>
} }
impl<T> DenseMap<T> { impl<Id, T> DenseMap<Id, T>
where
Id: From<usize> + Copy,
usize: From<Id>
{
pub fn new() -> Self { pub fn new() -> Self {
DenseMap { DenseMap {
retired: Vec::new(), retired: Vec::new(),
items: Vec::new(), items: Vec::new(),
_id_ty: std::marker::PhantomData
} }
} }
@@ -25,11 +30,12 @@ impl<T> DenseMap<T> {
{ {
match self.retired.pop() { match self.retired.pop() {
Some(id) => { Some(id) => {
self.items[id] = Some(f(id)); let id_out = id.into();
id self.items[id] = Some(f(id_out));
id_out
} }
None => { None => {
let id = self.items.len(); let id = self.items.len().into();
self.items.push(Some(f(id))); self.items.push(Some(f(id)));
id id
} }
@@ -37,14 +43,17 @@ impl<T> DenseMap<T> {
} }
pub fn get(&self, id: Id) -> Option<&T> { pub fn get(&self, id: Id) -> Option<&T> {
let id: usize = id.into();
self.items.get(id).and_then(|item| item.as_ref()) self.items.get(id).and_then(|item| item.as_ref())
} }
pub fn get_mut(&mut self, id: Id) -> Option<&mut T> { pub fn get_mut(&mut self, id: Id) -> Option<&mut T> {
let id: usize = id.into();
self.items.get_mut(id).and_then(|item| item.as_mut()) self.items.get_mut(id).and_then(|item| item.as_mut())
} }
pub fn remove(&mut self, id: Id) -> Option<T> { pub fn remove(&mut self, id: Id) -> Option<T> {
let id: usize = id.into();
let old = self.items.get_mut(id).and_then(|item| item.take()); let old = self.items.get_mut(id).and_then(|item| item.take());
if old.is_some() { if old.is_some() {
@@ -60,14 +69,14 @@ impl<T> DenseMap<T> {
self.items self.items
.iter() .iter()
.enumerate() .enumerate()
.filter_map(|(id, item)| Some((id, item.as_ref()?))) .filter_map(|(id, item)| Some((id.into(), item.as_ref()?)))
} }
pub fn iter_mut(&mut self) -> impl Iterator<Item = (Id, &mut T)> + '_ { pub fn iter_mut(&mut self) -> impl Iterator<Item = (Id, &mut T)> + '_ {
self.items self.items
.iter_mut() .iter_mut()
.enumerate() .enumerate()
.filter_map(|(id, item)| Some((id, item.as_mut()?))) .filter_map(|(id, item)| Some((id.into(), item.as_mut()?)))
} }
pub fn len(&self) -> usize { pub fn len(&self) -> usize {
backend/common/src/util/null.rs
-136
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@@ -1,136 +0,0 @@
use serde::de::{Deserialize, Deserializer, IgnoredAny};
use serde::ser::{Serialize, Serializer};
/// Alternative to `serde::de::IgnoreAny` that implements `Serialize`.
/// Will serialize to `null` in JSON, or empty data in bincode.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub struct NullAny;
impl<'de> Deserialize<'de> for NullAny {
#[inline]
fn deserialize<D>(deserializer: D) -> Result<NullAny, D::Error>
where
D: Deserializer<'de>,
{
// `bincode` is going to throw an error here as it does not support `IgnoredAny`.
//
// When using `bincode` `NullAny` will always serialize to unit (aka no data), so
// this safely becomes a no-op.
let _ = deserializer.deserialize_ignored_any(IgnoredAny);
Ok(NullAny)
}
}
impl Serialize for NullAny {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
serializer.serialize_unit()
}
}
#[cfg(test)]
mod tests {
use super::NullAny;
use bincode::Options;
use serde::{Deserialize, Serialize};
#[derive(Debug, PartialEq, Eq, Serialize, Deserialize)]
struct Dummy {
ignore: NullAny,
}
#[test]
fn deserialize_json_null() {
let dummy: Dummy = serde_json::from_str(r#"{"ignore":null}"#).unwrap();
assert_eq!(dummy, Dummy { ignore: NullAny });
}
#[test]
fn deserialize_json_struct() {
let dummy: Dummy = serde_json::from_str(r#"{"ignore":{"foo":"bar"}}"#).unwrap();
assert_eq!(dummy, Dummy { ignore: NullAny });
}
#[test]
fn deserialize_json_struct_invalid() {
let dummy = serde_json::from_str::<Dummy>(r#"{"ignore":{"foo":"bar"}"#);
assert!(dummy.is_err());
}
#[test]
fn deserialize_json_vec_any() {
let raw = [NullAny; 10];
let json = r#"[null,true,false,10,{},[],[null],{"foo":"bar"},[9,9,9],"ten"]"#;
let deserialized: Vec<NullAny> = serde_json::from_str(json).unwrap();
assert_eq!(&raw[..], &deserialized);
}
#[test]
fn serialize_json_null() {
let dummy = Dummy { ignore: NullAny };
let json = serde_json::to_string(&dummy).unwrap();
assert_eq!(json, r#"{"ignore":null}"#);
}
#[test]
fn bincode_vec() {
let raw = vec![NullAny; 10];
let bytes = bincode::options().serialize(&raw).unwrap();
assert_eq!(bytes, &[10u8]);
let deserialized: Vec<NullAny> = bincode::options().deserialize(&bytes).unwrap();
assert_eq!(raw, deserialized);
}
#[test]
fn bincode_tuple() {
let raw = (NullAny, "Hello world".to_string());
let bytes = bincode::options().serialize(&raw).unwrap();
assert_eq!(bytes, b"\x0BHello world"); // 0B = 11 = length of string
let deserialized: (NullAny, String) = bincode::options().deserialize(&bytes).unwrap();
assert_eq!(raw, deserialized);
}
#[test]
fn json_vec() {
let raw = vec![NullAny; 10];
let json = serde_json::to_string(&raw).unwrap();
assert_eq!(json, "[null,null,null,null,null,null,null,null,null,null]");
let deserialized: Vec<NullAny> = serde_json::from_str(&json).unwrap();
assert_eq!(raw, deserialized);
}
#[test]
fn json_tuple() {
let raw = (NullAny, "Hello world".to_string());
let json = serde_json::to_string(&raw).unwrap();
assert_eq!(json, r#"[null,"Hello world"]"#);
let deserialized: (NullAny, String) = serde_json::from_str(&json).unwrap();
assert_eq!(raw, deserialized);
}
}
backend/shard/src/aggregator.rs
+2 -2
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@@ -1,4 +1,4 @@
use common::{internal_messages::{self, LocalId}, node, assign_id::AssignId, types::BlockHash}; use common::{internal_messages::{self, ShardNodeId}, node, assign_id::AssignId, types::BlockHash};
use std::sync::Arc; use std::sync::Arc;
use std::sync::atomic::AtomicU64; use std::sync::atomic::AtomicU64;
use futures::{channel::mpsc, future}; use futures::{channel::mpsc, future};
@@ -119,7 +119,7 @@ impl Aggregator {
let mut to_local_id = AssignId::new(); let mut to_local_id = AssignId::new();
// Any messages coming from nodes that have been muted are ignored: // Any messages coming from nodes that have been muted are ignored:
let mut muted: HashSet<LocalId> = HashSet::new(); let mut muted: HashSet<ShardNodeId> = HashSet::new();
// Now, loop and receive messages to handle. // Now, loop and receive messages to handle.
while let Some(msg) = rx_from_external.next().await { while let Some(msg) = rx_from_external.next().await {
backend/telemetry/src/aggregator/aggregator.rs
+11 -8
View File
@@ -5,12 +5,15 @@ use futures::{ future, Sink, SinkExt };
use super::inner_loop; use super::inner_loop;
use crate::find_location::find_location; use crate::find_location::find_location;
use crate::state::NodeId; use crate::state::NodeId;
use common::id_type;
use std::net::Ipv4Addr; use std::net::Ipv4Addr;
/// A unique Id is assigned per websocket connection (or more accurately, id_type! {
/// per feed socket and per shard socket). This can be combined with the /// A unique Id is assigned per websocket connection (or more accurately,
/// [`LocalId`] of messages to give us a global ID. /// per feed socket and per shard socket). This can be combined with the
type ConnId = u64; /// [`LocalId`] of messages to give us a global ID.
pub ConnId(u64)
}
#[derive(Clone)] #[derive(Clone)]
pub struct Aggregator(Arc<AggregatorInternal>); pub struct Aggregator(Arc<AggregatorInternal>);
@@ -64,13 +67,13 @@ impl Aggregator {
pub fn subscribe_shard(&self) -> impl Sink<inner_loop::FromShardWebsocket, Error = anyhow::Error> + Unpin { pub fn subscribe_shard(&self) -> impl Sink<inner_loop::FromShardWebsocket, Error = anyhow::Error> + Unpin {
// Assign a unique aggregator-local ID to each connection that subscribes, and pass // Assign a unique aggregator-local ID to each connection that subscribes, and pass
// that along with every message to the aggregator loop: // that along with every message to the aggregator loop:
let shard_conn_id: ConnId = self.0.shard_conn_id.fetch_add(1, std::sync::atomic::Ordering::Relaxed); let shard_conn_id = self.0.shard_conn_id.fetch_add(1, std::sync::atomic::Ordering::Relaxed);
let tx_to_aggregator = self.0.tx_to_aggregator.clone(); let tx_to_aggregator = self.0.tx_to_aggregator.clone();
// Calling `send` on this Sink requires Unpin. There may be a nicer way than this, // Calling `send` on this Sink requires Unpin. There may be a nicer way than this,
// but pinning by boxing is the easy solution for now: // but pinning by boxing is the easy solution for now:
Box::pin(tx_to_aggregator.with(move |msg| async move { Box::pin(tx_to_aggregator.with(move |msg| async move {
Ok(inner_loop::ToAggregator::FromShardWebsocket(shard_conn_id, msg)) Ok(inner_loop::ToAggregator::FromShardWebsocket(shard_conn_id.into(), msg))
})) }))
} }
@@ -78,13 +81,13 @@ impl Aggregator {
pub fn subscribe_feed(&self) -> impl Sink<inner_loop::FromFeedWebsocket, Error = anyhow::Error> + Unpin { pub fn subscribe_feed(&self) -> impl Sink<inner_loop::FromFeedWebsocket, Error = anyhow::Error> + Unpin {
// Assign a unique aggregator-local ID to each connection that subscribes, and pass // Assign a unique aggregator-local ID to each connection that subscribes, and pass
// that along with every message to the aggregator loop: // that along with every message to the aggregator loop:
let feed_conn_id: ConnId = self.0.feed_conn_id.fetch_add(1, std::sync::atomic::Ordering::Relaxed); let feed_conn_id = self.0.feed_conn_id.fetch_add(1, std::sync::atomic::Ordering::Relaxed);
let tx_to_aggregator = self.0.tx_to_aggregator.clone(); let tx_to_aggregator = self.0.tx_to_aggregator.clone();
// Calling `send` on this Sink requires Unpin. There may be a nicer way than this, // Calling `send` on this Sink requires Unpin. There may be a nicer way than this,
// but pinning by boxing is the easy solution for now: // but pinning by boxing is the easy solution for now:
Box::pin(tx_to_aggregator.with(move |msg| async move { Box::pin(tx_to_aggregator.with(move |msg| async move {
Ok(inner_loop::ToAggregator::FromFeedWebsocket(feed_conn_id, msg)) Ok(inner_loop::ToAggregator::FromFeedWebsocket(feed_conn_id.into(), msg))
})) }))
} }
backend/telemetry/src/aggregator/inner_loop.rs
+36 -41
View File
@@ -1,7 +1,7 @@
use common::{ use common::{
internal_messages::{ internal_messages::{
self, self,
LocalId, ShardNodeId,
MuteReason MuteReason
}, },
types::BlockHash, types::BlockHash,
@@ -16,11 +16,7 @@ use std::collections::{ HashMap, HashSet };
use crate::state::{ self, State, NodeId }; use crate::state::{ self, State, NodeId };
use crate::feed_message::{ self, FeedMessageSerializer }; use crate::feed_message::{ self, FeedMessageSerializer };
use crate::find_location; use crate::find_location;
use super::aggregator::ConnId;
/// A unique Id is assigned per websocket connection (or more accurately,
/// per feed socket and per shard socket). This can be combined with the
/// [`LocalId`] of messages to give us a global ID.
type ConnId = u64;
/// Incoming messages come via subscriptions, and end up looking like this. /// Incoming messages come via subscriptions, and end up looking like this.
#[derive(Clone,Debug)] #[derive(Clone,Debug)]
@@ -40,19 +36,19 @@ pub enum FromShardWebsocket {
}, },
/// Tell the aggregator about a new node. /// Tell the aggregator about a new node.
Add { Add {
local_id: LocalId, local_id: ShardNodeId,
ip: Option<std::net::IpAddr>, ip: Option<std::net::IpAddr>,
node: common::types::NodeDetails, node: common::types::NodeDetails,
genesis_hash: common::types::BlockHash genesis_hash: common::types::BlockHash
}, },
/// Update/pass through details about a node. /// Update/pass through details about a node.
Update { Update {
local_id: LocalId, local_id: ShardNodeId,
payload: node::Payload payload: node::Payload
}, },
/// Tell the aggregator that a node has been removed when it disconnects. /// Tell the aggregator that a node has been removed when it disconnects.
Remove { Remove {
local_id: LocalId, local_id: ShardNodeId,
}, },
/// The shard is disconnected. /// The shard is disconnected.
Disconnected Disconnected
@@ -63,7 +59,7 @@ pub enum FromShardWebsocket {
pub enum ToShardWebsocket { pub enum ToShardWebsocket {
/// Mute messages to the core by passing the shard-local ID of them. /// Mute messages to the core by passing the shard-local ID of them.
Mute { Mute {
local_id: LocalId, local_id: ShardNodeId,
reason: internal_messages::MuteReason reason: internal_messages::MuteReason
} }
} }
@@ -129,7 +125,7 @@ pub struct InnerLoop {
node_state: State, node_state: State,
/// We maintain a mapping between NodeId and ConnId+LocalId, so that we know /// We maintain a mapping between NodeId and ConnId+LocalId, so that we know
/// which messages are about which nodes. /// which messages are about which nodes.
node_ids: BiMap<NodeId, (ConnId, LocalId)>, node_ids: BiMap<NodeId, (ConnId, ShardNodeId)>,
/// Keep track of how to send messages out to feeds. /// Keep track of how to send messages out to feeds.
feed_channels: HashMap<ConnId, mpsc::UnboundedSender<ToFeedWebsocket>>, feed_channels: HashMap<ConnId, mpsc::UnboundedSender<ToFeedWebsocket>>,
@@ -194,7 +190,7 @@ impl InnerLoop {
if let Some(loc) = location { if let Some(loc) = location {
let mut feed_message_serializer = FeedMessageSerializer::new(); let mut feed_message_serializer = FeedMessageSerializer::new();
feed_message_serializer.push(feed_message::LocatedNode( feed_message_serializer.push(feed_message::LocatedNode(
node_id, node_id.get_chain_node_id().into(),
loc.latitude, loc.latitude,
loc.longitude, loc.longitude,
&loc.city &loc.city
@@ -212,7 +208,8 @@ impl InnerLoop {
/// Handle messages coming from shards. /// Handle messages coming from shards.
async fn handle_from_shard(&mut self, shard_conn_id: ConnId, msg: FromShardWebsocket) { async fn handle_from_shard(&mut self, shard_conn_id: ConnId, msg: FromShardWebsocket) {
log::debug!("Message from shard ({}): {:?}", shard_conn_id, msg); log::debug!("Message from shard ({:?}): {:?}", shard_conn_id, msg);
match msg { match msg {
FromShardWebsocket::Initialize { channel } => { FromShardWebsocket::Initialize { channel } => {
self.shard_channels.insert(shard_conn_id, channel); self.shard_channels.insert(shard_conn_id, channel);
@@ -249,7 +246,7 @@ impl InnerLoop {
// Tell chain subscribers about the node we've just added: // Tell chain subscribers about the node we've just added:
let mut feed_messages_for_chain = FeedMessageSerializer::new(); let mut feed_messages_for_chain = FeedMessageSerializer::new();
feed_messages_for_chain.push(feed_message::AddedNode(node_id, &details.node)); feed_messages_for_chain.push(feed_message::AddedNode(node_id.get_chain_node_id().into(), &details.node));
self.finalize_and_broadcast_to_chain_feeds(&genesis_hash, feed_messages_for_chain).await; self.finalize_and_broadcast_to_chain_feeds(&genesis_hash, feed_messages_for_chain).await;
// Tell everybody about the new node count and potential rename: // Tell everybody about the new node count and potential rename:
@@ -272,7 +269,7 @@ impl InnerLoop {
let node_id = match self.node_ids.remove_by_right(&(shard_conn_id, local_id)) { let node_id = match self.node_ids.remove_by_right(&(shard_conn_id, local_id)) {
Some((node_id, _)) => node_id, Some((node_id, _)) => node_id,
None => { None => {
log::error!("Cannot find ID for node with shard/connectionId of {}/{}", shard_conn_id, local_id); log::error!("Cannot find ID for node with shard/connectionId of {:?}/{:?}", shard_conn_id, local_id);
return return
} }
}; };
@@ -282,11 +279,22 @@ impl InnerLoop {
let node_id = match self.node_ids.get_by_right(&(shard_conn_id, local_id)) { let node_id = match self.node_ids.get_by_right(&(shard_conn_id, local_id)) {
Some(id) => *id, Some(id) => *id,
None => { None => {
log::error!("Cannot find ID for node with shard/connectionId of {}/{}", shard_conn_id, local_id); log::error!("Cannot find ID for node with shard/connectionId of {:?}/{:?}", shard_conn_id, local_id);
return return
} }
}; };
self.handle_from_shard_update(node_id, payload).await;
let mut feed_message_serializer = FeedMessageSerializer::new();
let broadcast_finality = self.node_state.update_node(node_id, payload, &mut feed_message_serializer);
if let Some(chain) = self.node_state.get_chain_by_node_id(node_id) {
let genesis_hash = *chain.genesis_hash();
if broadcast_finality {
self.finalize_and_broadcast_to_chain_finality_feeds(&genesis_hash, feed_message_serializer).await;
} else {
self.finalize_and_broadcast_to_chain_feeds(&genesis_hash, feed_message_serializer).await;
}
}
}, },
FromShardWebsocket::Disconnected => { FromShardWebsocket::Disconnected => {
// Find all nodes associated with this shard connection ID: // Find all nodes associated with this shard connection ID:
@@ -302,24 +310,9 @@ impl InnerLoop {
} }
} }
async fn handle_from_shard_update(&mut self, node_id: NodeId, payload: node::Payload) {
let mut feed_message_serializer = FeedMessageSerializer::new();
let broadcast_finality = self.node_state.update_node(node_id, payload, &mut feed_message_serializer);
if let Some(chain) = self.node_state.get_chain_by_node_id(node_id) {
let genesis_hash = *chain.genesis_hash();
if broadcast_finality {
self.finalize_and_broadcast_to_chain_finality_feeds(&genesis_hash, feed_message_serializer).await;
} else {
self.finalize_and_broadcast_to_chain_feeds(&genesis_hash, feed_message_serializer).await;
}
}
}
/// Handle messages coming from feeds. /// Handle messages coming from feeds.
async fn handle_from_feed(&mut self, feed_conn_id: ConnId, msg: FromFeedWebsocket) { async fn handle_from_feed(&mut self, feed_conn_id: ConnId, msg: FromFeedWebsocket) {
log::debug!("Message from feed ({}): {:?}", feed_conn_id, msg); log::debug!("Message from feed ({:?}): {:?}", feed_conn_id, msg);
match msg { match msg {
FromFeedWebsocket::Initialize { mut channel } => { FromFeedWebsocket::Initialize { mut channel } => {
self.feed_channels.insert(feed_conn_id, channel.clone()); self.feed_channels.insert(feed_conn_id, channel.clone());
@@ -396,7 +389,9 @@ impl InnerLoop {
new_chain.finalized_block().height, new_chain.finalized_block().height,
new_chain.finalized_block().hash new_chain.finalized_block().hash
)); ));
for (idx, (node_id, node)) in new_chain.iter_nodes().enumerate() { for (idx, (chain_node_id, node)) in new_chain.iter_nodes().enumerate() {
let chain_node_id = chain_node_id.into();
// Send subscription confirmation and chain head before doing all the nodes, // Send subscription confirmation and chain head before doing all the nodes,
// and continue sending batches of 32 nodes a time over the wire subsequently // and continue sending batches of 32 nodes a time over the wire subsequently
if idx % 32 == 0 { if idx % 32 == 0 {
@@ -404,14 +399,14 @@ impl InnerLoop {
let _ = feed_channel.send(ToFeedWebsocket::Bytes(bytes)).await; let _ = feed_channel.send(ToFeedWebsocket::Bytes(bytes)).await;
} }
} }
feed_serializer.push(feed_message::AddedNode(node_id, node)); feed_serializer.push(feed_message::AddedNode(chain_node_id, node));
feed_serializer.push(feed_message::FinalizedBlock( feed_serializer.push(feed_message::FinalizedBlock(
node_id, chain_node_id,
node.finalized().height, node.finalized().height,
node.finalized().hash, node.finalized().hash,
)); ));
if node.stale() { if node.stale() {
feed_serializer.push(feed_message::StaleNode(node_id)); feed_serializer.push(feed_message::StaleNode(chain_node_id));
} }
} }
if let Some(bytes) = feed_serializer.into_finalized() { if let Some(bytes) = feed_serializer.into_finalized() {
@@ -480,9 +475,9 @@ impl InnerLoop {
self.node_ids.remove_by_left(&node_id); self.node_ids.remove_by_left(&node_id);
let removed_details = match self.node_state.remove_node(node_id) { let removed_details = match self.node_state.remove_node(node_id) {
Ok(remove_details) => remove_details, Some(remove_details) => remove_details,
Err(err) => { None => {
log::error!("Error removing node {}: {}", node_id, err); log::error!("Could not find node {:?}", node_id);
return return
} }
}; };
@@ -504,7 +499,7 @@ impl InnerLoop {
// Assuming the chain hasn't gone away, tell chain subscribers about the node removal // Assuming the chain hasn't gone away, tell chain subscribers about the node removal
if removed_details.chain_node_count != 0 { if removed_details.chain_node_count != 0 {
feed_for_chain.push( feed_for_chain.push(
feed_message::RemovedNode(node_id) feed_message::RemovedNode(node_id.get_chain_node_id().into())
); );
} }
} }
backend/telemetry/src/feed_message.rs
+13 -10
View File
@@ -7,10 +7,13 @@ use std::mem;
use crate::state::Node; use crate::state::Node;
use serde_json::to_writer; use serde_json::to_writer;
use common::types::{ use common::types::{
Address, BlockDetails, BlockHash, BlockNumber, NodeHardware, NodeIO, NodeId, NodeStats, BlockDetails, BlockHash, BlockNumber, NodeHardware, NodeIO, NodeStats,
Timestamp Timestamp
}; };
type Address = Box<str>;
type FeedNodeId = usize;
pub trait FeedMessage { pub trait FeedMessage {
const ACTION: u8; const ACTION: u8;
} }
@@ -133,28 +136,28 @@ pub struct BestBlock(pub BlockNumber, pub Timestamp, pub Option<u64>);
#[derive(Serialize)] #[derive(Serialize)]
pub struct BestFinalized(pub BlockNumber, pub BlockHash); pub struct BestFinalized(pub BlockNumber, pub BlockHash);
pub struct AddedNode<'a>(pub NodeId, pub &'a Node); pub struct AddedNode<'a>(pub FeedNodeId, pub &'a Node);
#[derive(Serialize)] #[derive(Serialize)]
pub struct RemovedNode(pub NodeId); pub struct RemovedNode(pub FeedNodeId);
#[derive(Serialize)] #[derive(Serialize)]
pub struct LocatedNode<'a>(pub NodeId, pub f32, pub f32, pub &'a str); pub struct LocatedNode<'a>(pub FeedNodeId, pub f32, pub f32, pub &'a str);
#[derive(Serialize)] #[derive(Serialize)]
pub struct ImportedBlock<'a>(pub NodeId, pub &'a BlockDetails); pub struct ImportedBlock<'a>(pub FeedNodeId, pub &'a BlockDetails);
#[derive(Serialize)] #[derive(Serialize)]
pub struct FinalizedBlock(pub NodeId, pub BlockNumber, pub BlockHash); pub struct FinalizedBlock(pub FeedNodeId, pub BlockNumber, pub BlockHash);
#[derive(Serialize)] #[derive(Serialize)]
pub struct NodeStatsUpdate<'a>(pub NodeId, pub &'a NodeStats); pub struct NodeStatsUpdate<'a>(pub FeedNodeId, pub &'a NodeStats);
#[derive(Serialize)] #[derive(Serialize)]
pub struct NodeIOUpdate<'a>(pub NodeId, pub &'a NodeIO); pub struct NodeIOUpdate<'a>(pub FeedNodeId, pub &'a NodeIO);
#[derive(Serialize)] #[derive(Serialize)]
pub struct Hardware<'a>(pub NodeId, pub &'a NodeHardware); pub struct Hardware<'a>(pub FeedNodeId, pub &'a NodeHardware);
#[derive(Serialize)] #[derive(Serialize)]
pub struct TimeSync(pub u64); pub struct TimeSync(pub u64);
@@ -203,7 +206,7 @@ pub struct AfgAuthoritySet(
); );
#[derive(Serialize)] #[derive(Serialize)]
pub struct StaleNode(pub NodeId); pub struct StaleNode(pub FeedNodeId);
impl FeedMessageWrite for AddedNode<'_> { impl FeedMessageWrite for AddedNode<'_> {
fn write_to_feed(&self, ser: &mut FeedMessageSerializer) { fn write_to_feed(&self, ser: &mut FeedMessageSerializer) {
backend/telemetry/src/state/chain.rs
+57 -37
View File
@@ -5,11 +5,17 @@ use common::util::{now, DenseMap, NumStats};
use common::most_seen::MostSeen; use common::most_seen::MostSeen;
use common::node::Payload; use common::node::Payload;
use once_cell::sync::Lazy; use once_cell::sync::Lazy;
use common::id_type;
use crate::feed_message::{self, FeedMessageSerializer}; use crate::feed_message::{self, FeedMessageSerializer};
use crate::find_location;
use super::node::Node; use super::node::Node;
use super::NodeId;
id_type!{
/// A Node ID that is unique to the chain it's in.
pub ChainNodeId(usize)
}
pub type Label = Box<str>; pub type Label = Box<str>;
@@ -20,7 +26,7 @@ pub struct Chain {
/// the most commonly used label as nodes are added/removed. /// the most commonly used label as nodes are added/removed.
labels: MostSeen<Label>, labels: MostSeen<Label>,
/// Set of nodes that are in this chain /// Set of nodes that are in this chain
node_ids: HashSet<NodeId>, nodes: DenseMap<ChainNodeId, Node>,
/// Best block /// Best block
best: Block, best: Block,
/// Finalized block /// Finalized block
@@ -38,6 +44,7 @@ pub struct Chain {
pub enum AddNodeResult { pub enum AddNodeResult {
Overquota, Overquota,
Added { Added {
id: ChainNodeId,
chain_renamed: bool chain_renamed: bool
} }
} }
@@ -65,7 +72,7 @@ impl Chain {
pub fn new(genesis_hash: BlockHash) -> Self { pub fn new(genesis_hash: BlockHash) -> Self {
Chain { Chain {
labels: MostSeen::default(), labels: MostSeen::default(),
node_ids: HashSet::new(), nodes: DenseMap::new(),
best: Block::zero(), best: Block::zero(),
finalized: Block::zero(), finalized: Block::zero(),
block_times: NumStats::new(50), block_times: NumStats::new(50),
@@ -79,29 +86,34 @@ impl Chain {
pub fn can_add_node(&self) -> bool { pub fn can_add_node(&self) -> bool {
// Dynamically determine the max nodes based on the most common // Dynamically determine the max nodes based on the most common
// label so far, in case it changes to something with a different limit. // label so far, in case it changes to something with a different limit.
self.node_ids.len() < max_nodes(self.labels.best()) self.nodes.len() < max_nodes(self.labels.best())
} }
/// Assign a node to this chain. If the function returns false, it /// Assign a node to this chain.
/// means that the node could not be added as we're at quota. pub fn add_node(&mut self, node: Node) -> AddNodeResult {
pub fn add_node(&mut self, node_id: NodeId, chain_label: &Box<str>) -> AddNodeResult {
if !self.can_add_node() { if !self.can_add_node() {
return AddNodeResult::Overquota return AddNodeResult::Overquota
} }
let label_result = self.labels.insert(chain_label); let node_chain_label = &node.details().chain;
self.node_ids.insert(node_id); let label_result = self.labels.insert(node_chain_label);
let node_id = self.nodes.add(node);
AddNodeResult::Added { AddNodeResult::Added {
id: node_id,
chain_renamed: label_result.has_changed() chain_renamed: label_result.has_changed()
} }
} }
/// Remove a node from this chain. We expect the label it used for the chain so /// Remove a node from this chain.
/// that we can keep track of which label is most popular. pub fn remove_node(&mut self, node_id: ChainNodeId) -> RemoveNodeResult {
pub fn remove_node(&mut self, node_id: NodeId, chain_label: &Box<str>) -> RemoveNodeResult { let node = match self.nodes.remove(node_id) {
let label_result = self.labels.remove(&chain_label); Some(node) => node,
self.node_ids.remove(&node_id); None => return RemoveNodeResult { chain_renamed: false }
};
let node_chain_label = &node.details().chain;
let label_result = self.labels.remove(node_chain_label);
RemoveNodeResult { RemoveNodeResult {
chain_renamed: label_result.has_changed() chain_renamed: label_result.has_changed()
@@ -110,25 +122,25 @@ impl Chain {
/// Attempt to update the best block seen in this chain. /// Attempt to update the best block seen in this chain.
/// Returns a boolean which denotes whether the output is for finalization feeds (true) or not (false). /// Returns a boolean which denotes whether the output is for finalization feeds (true) or not (false).
pub fn update_node(&mut self, all_nodes: &mut DenseMap<Node>, nid: NodeId, payload: Payload, feed: &mut FeedMessageSerializer) -> bool { pub fn update_node(&mut self, nid: ChainNodeId, payload: Payload, feed: &mut FeedMessageSerializer) -> bool {
if let Some(block) = payload.best_block() { if let Some(block) = payload.best_block() {
self.handle_block(all_nodes, block, nid, feed); self.handle_block(block, nid, feed);
} }
if let Some(node) = all_nodes.get_mut(nid) { if let Some(node) = self.nodes.get_mut(nid) {
match payload { match payload {
Payload::SystemInterval(ref interval) => { Payload::SystemInterval(ref interval) => {
if node.update_hardware(interval) { if node.update_hardware(interval) {
feed.push(feed_message::Hardware(nid, node.hardware())); feed.push(feed_message::Hardware(nid.into(), node.hardware()));
} }
if let Some(stats) = node.update_stats(interval) { if let Some(stats) = node.update_stats(interval) {
feed.push(feed_message::NodeStatsUpdate(nid, stats)); feed.push(feed_message::NodeStatsUpdate(nid.into(), stats));
} }
if let Some(io) = node.update_io(interval) { if let Some(io) = node.update_io(interval) {
feed.push(feed_message::NodeIOUpdate(nid, io)); feed.push(feed_message::NodeIOUpdate(nid.into(), io));
} }
} }
Payload::AfgAuthoritySet(authority) => { Payload::AfgAuthoritySet(authority) => {
@@ -187,7 +199,7 @@ impl Chain {
if let Some(block) = payload.finalized_block() { if let Some(block) = payload.finalized_block() {
if let Some(finalized) = node.update_finalized(block) { if let Some(finalized) = node.update_finalized(block) {
feed.push(feed_message::FinalizedBlock( feed.push(feed_message::FinalizedBlock(
nid, nid.into(),
finalized.height, finalized.height,
finalized.hash, finalized.hash,
)); ));
@@ -203,14 +215,14 @@ impl Chain {
false false
} }
fn handle_block(&mut self, all_nodes: &mut DenseMap<Node>, block: &Block, nid: NodeId, feed: &mut FeedMessageSerializer) { fn handle_block(&mut self, block: &Block, nid: ChainNodeId, feed: &mut FeedMessageSerializer) {
let mut propagation_time = None; let mut propagation_time = None;
let now = now(); let now = now();
let nodes_len = self.node_ids.len(); let nodes_len = self.nodes.len();
self.update_stale_nodes(all_nodes, now, feed); self.update_stale_nodes(now, feed);
let node = match all_nodes.get_mut(nid) { let node = match self.nodes.get_mut(nid) {
Some(node) => node, Some(node) => node,
None => return, None => return,
}; };
@@ -243,14 +255,14 @@ impl Chain {
} }
if let Some(details) = node.update_details(now, propagation_time) { if let Some(details) = node.update_details(now, propagation_time) {
feed.push(feed_message::ImportedBlock(nid, details)); feed.push(feed_message::ImportedBlock(nid.into(), details));
} }
} }
} }
/// Check if the chain is stale (has not received a new best block in a while). /// Check if the chain is stale (has not received a new best block in a while).
/// If so, find a new best block, ignoring any stale nodes and marking them as such. /// If so, find a new best block, ignoring any stale nodes and marking them as such.
fn update_stale_nodes(&mut self, all_nodes: &mut DenseMap<Node>, now: u64, feed: &mut FeedMessageSerializer) { fn update_stale_nodes(&mut self, now: u64, feed: &mut FeedMessageSerializer) {
let threshold = now - STALE_TIMEOUT; let threshold = now - STALE_TIMEOUT;
let timestamp = match self.timestamp { let timestamp = match self.timestamp {
@@ -267,11 +279,7 @@ impl Chain {
let mut finalized = Block::zero(); let mut finalized = Block::zero();
let mut timestamp = None; let mut timestamp = None;
for &nid in self.node_ids.iter() { for (nid, node) in self.nodes.iter_mut() {
let node = match all_nodes.get_mut(nid) {
Some(node) => node,
None => continue
};
if !node.update_stale(threshold) { if !node.update_stale(threshold) {
if node.best().height > best.height { if node.best().height > best.height {
best = *node.best(); best = *node.best();
@@ -282,7 +290,7 @@ impl Chain {
finalized = *node.finalized(); finalized = *node.finalized();
} }
} else { } else {
feed.push(feed_message::StaleNode(nid)); feed.push(feed_message::StaleNode(nid.into()));
} }
} }
@@ -301,14 +309,26 @@ impl Chain {
} }
} }
pub fn update_node_location(&mut self, node_id: ChainNodeId, location: find_location::Location) -> bool {
if let Some(node) = self.nodes.get_mut(node_id) {
node.update_location(location);
true
} else {
false
}
}
pub fn get_node(&self, id: ChainNodeId) -> Option<&Node> {
self.nodes.get(id)
}
pub fn iter_nodes(&self) -> impl Iterator<Item=(ChainNodeId, &Node)> {
self.nodes.iter()
}
pub fn label(&self) -> &str { pub fn label(&self) -> &str {
&self.labels.best() &self.labels.best()
} }
pub fn node_ids(&self) -> impl Iterator<Item=NodeId> + '_ {
self.node_ids.iter().copied()
}
pub fn node_count(&self) -> usize { pub fn node_count(&self) -> usize {
self.node_ids.len() self.nodes.len()
} }
pub fn best_block(&self) -> &Block { pub fn best_block(&self) -> &Block {
&self.best &self.best
backend/telemetry/src/state/state.rs
+79 -88
View File
@@ -7,28 +7,39 @@ use common::node::Payload;
use std::iter::IntoIterator; use std::iter::IntoIterator;
use crate::feed_message::FeedMessageSerializer; use crate::feed_message::FeedMessageSerializer;
use crate::find_location; use crate::find_location;
use common::id_type;
use super::chain::{ self, Chain }; use super::chain::{ self, Chain, ChainNodeId };
pub type NodeId = usize; id_type!{
pub type ChainId = usize; /// A globally unique Chain ID.
pub ChainId(usize)
}
/// A "global" Node ID is a composite of the ID of the chain it's
/// on, and it's chain local ID.
#[derive(Debug,Clone,Copy,Hash,PartialEq,Eq)]
pub struct NodeId(ChainId, ChainNodeId);
impl NodeId {
pub fn get_chain_node_id(&self) -> ChainNodeId {
self.1
}
}
/// Our state constains node and chain information /// Our state constains node and chain information
pub struct State { pub struct State {
// Store nodes and chains in a fairly compact format. chains: DenseMap<ChainId, Chain>,
nodes: DenseMap<Node>,
chains: DenseMap<Chain>,
// Find the right chain given various details. // Find the right chain given various details.
chains_by_genesis_hash: HashMap<BlockHash, ChainId>, chains_by_genesis_hash: HashMap<BlockHash, ChainId>,
chains_by_label: HashMap<Box<str>, ChainId>, chains_by_label: HashMap<Box<str>, ChainId>,
chains_by_node: HashMap<NodeId, ChainId>,
/// Chain labels that we do not want to allow connecting. /// Chain labels that we do not want to allow connecting.
denylist: HashSet<String>, denylist: HashSet<String>,
} }
/// Adding a node to a chain leads to this result /// Adding a node to a chain leads to this node_idult
pub enum AddNodeResult<'a> { pub enum AddNodeResult<'a> {
/// The chain is on the "deny list", so we can't add the node /// The chain is on the "deny list", so we can't add the node
ChainOnDenyList, ChainOnDenyList,
@@ -38,6 +49,16 @@ pub enum AddNodeResult<'a> {
NodeAddedToChain(NodeAddedToChain<'a>) NodeAddedToChain(NodeAddedToChain<'a>)
} }
#[cfg(test)]
impl <'a> AddNodeResult<'a> {
pub fn unwrap_id(&self) -> NodeId {
match &self {
AddNodeResult::NodeAddedToChain(d) => d.id,
_ => panic!("Attempt to unwrap_id on AddNodeResult that did not succeed")
}
}
}
pub struct NodeAddedToChain<'a> { pub struct NodeAddedToChain<'a> {
/// The ID assigned to this node. /// The ID assigned to this node.
pub id: NodeId, pub id: NodeId,
@@ -65,25 +86,12 @@ pub struct RemovedNode {
pub new_chain_label: Box<str>, pub new_chain_label: Box<str>,
} }
/// If removing a node goes wrong, we get this back
#[derive(Debug, thiserror::Error)]
pub enum RemoveNodeError {
/// The node that you tried to remove wasn't found
#[error("Node not found")]
NodeNotFound,
/// The chain associated to the node wasn't found
#[error("Node chain not found")]
NodeChainNotFound
}
impl State { impl State {
pub fn new<T: IntoIterator<Item=String>>(denylist: T) -> State { pub fn new<T: IntoIterator<Item=String>>(denylist: T) -> State {
State { State {
nodes: DenseMap::new(),
chains: DenseMap::new(), chains: DenseMap::new(),
chains_by_genesis_hash: HashMap::new(), chains_by_genesis_hash: HashMap::new(),
chains_by_label: HashMap::new(), chains_by_label: HashMap::new(),
chains_by_node: HashMap::new(),
denylist: denylist.into_iter().collect(), denylist: denylist.into_iter().collect(),
} }
} }
@@ -91,28 +99,27 @@ impl State {
pub fn iter_chains(&self) -> impl Iterator<Item=StateChain<'_>> { pub fn iter_chains(&self) -> impl Iterator<Item=StateChain<'_>> {
self.chains self.chains
.iter() .iter()
.map(move |(_,chain)| StateChain { state: self, chain }) .map(move |(_,chain)| StateChain { chain })
} }
pub fn get_chain_by_node_id(&self, node_id: NodeId) -> Option<StateChain<'_>> { pub fn get_chain_by_node_id(&self, node_id: NodeId) -> Option<StateChain<'_>> {
self.chains_by_node self.chains
.get(&node_id) .get(node_id.0)
.and_then(|&chain_id| self.chains.get(chain_id)) .map(|chain| StateChain { chain })
.map(|chain| StateChain { state: self, chain })
} }
pub fn get_chain_by_genesis_hash(&self, genesis_hash: &BlockHash) -> Option<StateChain<'_>> { pub fn get_chain_by_genesis_hash(&self, genesis_hash: &BlockHash) -> Option<StateChain<'_>> {
self.chains_by_genesis_hash self.chains_by_genesis_hash
.get(genesis_hash) .get(genesis_hash)
.and_then(|&chain_id| self.chains.get(chain_id)) .and_then(|&chain_id| self.chains.get(chain_id))
.map(|chain| StateChain { state: self, chain }) .map(|chain| StateChain { chain })
} }
pub fn get_chain_by_label(&self, label: &str) -> Option<StateChain<'_>> { pub fn get_chain_by_label(&self, label: &str) -> Option<StateChain<'_>> {
self.chains_by_label self.chains_by_label
.get(label) .get(label)
.and_then(|&chain_id| self.chains.get(chain_id)) .and_then(|&chain_id| self.chains.get(chain_id))
.map(|chain| StateChain { state: self, chain }) .map(|chain| StateChain { chain })
} }
pub fn add_node(&mut self, genesis_hash: BlockHash, node_details: NodeDetails) -> AddNodeResult<'_> { pub fn add_node(&mut self, genesis_hash: BlockHash, node_details: NodeDetails) -> AddNodeResult<'_> {
@@ -137,36 +144,26 @@ impl State {
let chain = self.chains.get_mut(chain_id) let chain = self.chains.get_mut(chain_id)
.expect("should be known to exist after the above (unless chains_by_genesis_hash out of sync)"); .expect("should be known to exist after the above (unless chains_by_genesis_hash out of sync)");
// What ID will the node have when it's added? We don't actually want let node = Node::new(node_details);
// to add it until we know whether the chain will accept it, but we want
// an ID to give to the chain.
let node_id = self.nodes.next_id();
let node_chain_label = node_details.chain.clone();
let old_chain_label = chain.label().into(); let old_chain_label = chain.label().into();
match chain.add_node(node_id, &node_chain_label) { match chain.add_node(node) {
chain::AddNodeResult::Overquota => { chain::AddNodeResult::Overquota => {
AddNodeResult::ChainOverQuota AddNodeResult::ChainOverQuota
}, },
chain::AddNodeResult::Added { chain_renamed } => { chain::AddNodeResult::Added { id, chain_renamed } => {
let chain = &*chain; let chain = &*chain;
// Actually add the node, and a reference to its chain,
// if the chain adds it successfully:
self.nodes.add(Node::new(node_details));
self.chains_by_node.insert(node_id, chain_id);
// Update the label we use to reference the chain if // Update the label we use to reference the chain if
// it changes (it'll always change first time a node's added): // it changes (it'll always change first time a node's added):
if chain_renamed { if chain_renamed {
self.chains_by_label.remove(&old_chain_label); self.chains_by_label.remove(&old_chain_label);
self.chains_by_label.insert(chain.label().to_string().into_boxed_str(), chain_id); self.chains_by_label.insert(chain.label().into(), chain_id);
} }
let node = self.nodes.get(node_id).expect("node added above");
AddNodeResult::NodeAddedToChain(NodeAddedToChain { AddNodeResult::NodeAddedToChain(NodeAddedToChain {
id: node_id, id: NodeId(chain_id, id),
node: node, node: chain.get_node(id).expect("node added above"),
old_chain_label: old_chain_label, old_chain_label: old_chain_label,
new_chain_label: chain.label(), new_chain_label: chain.label(),
chain_node_count: chain.node_count(), chain_node_count: chain.node_count(),
@@ -177,24 +174,20 @@ impl State {
} }
/// Remove a node /// Remove a node
pub fn remove_node(&mut self, node_id: NodeId) -> Result<RemovedNode,RemoveNodeError> { pub fn remove_node(&mut self, NodeId(chain_id, chain_node_id): NodeId) -> Option<RemovedNode> {
self.nodes.remove(node_id) let chain = self.chains.get_mut(chain_id)?;
.ok_or(RemoveNodeError::NodeNotFound)?; let old_chain_label = chain.label().into();
let chain_id = self.chains_by_node.remove(&node_id) // Actually remove the node
.ok_or(RemoveNodeError::NodeChainNotFound)?; let remove_result = chain.remove_node(chain_node_id);
let chain = self.chains.get_mut(chain_id) // Get updated chain details.
.ok_or(RemoveNodeError::NodeChainNotFound)?; let new_chain_label: Box<str> = chain.label().into();
let old_chain_label = chain.label().to_string().into_boxed_str();
let remove_result = chain.remove_node(node_id, &old_chain_label);
let new_chain_label = chain.label().to_string().into_boxed_str();
let chain_node_count = chain.node_count(); let chain_node_count = chain.node_count();
let genesis_hash = *chain.genesis_hash();
// Is the chain empty? Remove if so and clean up indexes to it // Is the chain empty? Remove if so and clean up indexes to it
if chain_node_count == 0 { if chain_node_count == 0 {
let genesis_hash = *chain.genesis_hash();
self.chains_by_label.remove(&old_chain_label); self.chains_by_label.remove(&old_chain_label);
self.chains_by_genesis_hash.remove(&genesis_hash); self.chains_by_genesis_hash.remove(&genesis_hash);
self.chains.remove(chain_id); self.chains.remove(chain_id);
@@ -206,7 +199,7 @@ impl State {
self.chains_by_label.insert(new_chain_label.clone(), chain_id); self.chains_by_label.insert(new_chain_label.clone(), chain_id);
} }
Ok(RemovedNode { Some(RemovedNode {
old_chain_label, old_chain_label,
new_chain_label, new_chain_label,
chain_node_count: chain_node_count, chain_node_count: chain_node_count,
@@ -216,25 +209,19 @@ impl State {
/// Attempt to update the best block seen, given a node and block. /// Attempt to update the best block seen, given a node and block.
/// Returns a boolean which denotes whether the output is for finalization feeds (true) or not (false). /// Returns a boolean which denotes whether the output is for finalization feeds (true) or not (false).
pub fn update_node(&mut self, node_id: NodeId, payload: Payload, feed: &mut FeedMessageSerializer) -> bool { pub fn update_node(&mut self, NodeId(chain_id, chain_node_id): NodeId, payload: Payload, feed: &mut FeedMessageSerializer) -> bool {
let chain_id = match self.chains_by_node.get(&node_id) {
Some(chain_id) => *chain_id,
None => { log::error!("Cannot find chain_id for node with ID {}", node_id); return false }
};
let chain = match self.chains.get_mut(chain_id) { let chain = match self.chains.get_mut(chain_id) {
Some(chain) => chain, Some(chain) => chain,
None => { log::error!("Cannot find chain for node with ID {}", node_id); return false } None => { log::error!("Cannot find chain for node with ID {:?}", chain_id); return false }
}; };
chain.update_node(&mut self.nodes, node_id, payload, feed) chain.update_node(chain_node_id, payload, feed)
} }
/// Update the location for a node. Return `false` if the node was not found. /// Update the location for a node. Return `false` if the node was not found.
pub fn update_node_location(&mut self, node_id: NodeId, location: find_location::Location) -> bool { pub fn update_node_location(&mut self, NodeId(chain_id, chain_node_id): NodeId, location: find_location::Location) -> bool {
if let Some(node) = self.nodes.get_mut(node_id) { if let Some(chain) = self.chains.get_mut(chain_id) {
node.update_location(location); chain.update_node_location(chain_node_id, location)
true
} else { } else {
false false
} }
@@ -247,7 +234,6 @@ impl State {
/// aren't really intended for use outside of [`State`] methods. Any modification /// aren't really intended for use outside of [`State`] methods. Any modification
/// of a chain needs to go through [`State`]. /// of a chain needs to go through [`State`].
pub struct StateChain<'a> { pub struct StateChain<'a> {
state: &'a State,
chain: &'a Chain chain: &'a Chain
} }
@@ -273,11 +259,8 @@ impl <'a> StateChain<'a> {
pub fn finalized_block(&self) -> &'a Block { pub fn finalized_block(&self) -> &'a Block {
self.chain.finalized_block() self.chain.finalized_block()
} }
pub fn iter_nodes(&self) -> impl Iterator<Item=(NodeId, &'a Node)> + 'a { pub fn iter_nodes(&self) -> impl Iterator<Item=(ChainNodeId, &'a Node)> + 'a {
let state = self.state; self.chain.iter_nodes()
self.chain.node_ids().filter_map(move |id| {
Some((id, state.nodes.get(id)?))
})
} }
} }
@@ -314,7 +297,7 @@ mod test {
AddNodeResult::NodeAddedToChain(details) => details AddNodeResult::NodeAddedToChain(details) => details
}; };
assert_eq!(add_node_result.id, 0); assert_eq!(add_node_result.id, NodeId(0.into(), 0.into()));
assert_eq!(&*add_node_result.old_chain_label, ""); assert_eq!(&*add_node_result.old_chain_label, "");
assert_eq!(&*add_node_result.new_chain_label, "Chain One"); assert_eq!(&*add_node_result.new_chain_label, "Chain One");
assert_eq!(add_node_result.chain_node_count, 1); assert_eq!(add_node_result.chain_node_count, 1);
@@ -331,7 +314,7 @@ mod test {
AddNodeResult::NodeAddedToChain(details) => details AddNodeResult::NodeAddedToChain(details) => details
}; };
assert_eq!(add_node_result.id, 1); assert_eq!(add_node_result.id, NodeId(0.into(), 1.into()));
assert_eq!(&*add_node_result.old_chain_label, "Chain One"); assert_eq!(&*add_node_result.old_chain_label, "Chain One");
assert_eq!(&*add_node_result.new_chain_label, "Chain One"); assert_eq!(&*add_node_result.new_chain_label, "Chain One");
assert_eq!(add_node_result.chain_node_count, 2); assert_eq!(add_node_result.chain_node_count, 2);
@@ -343,32 +326,38 @@ mod test {
let mut state = State::new(None); let mut state = State::new(None);
let chain1_genesis = BlockHash::from_low_u64_be(1); let chain1_genesis = BlockHash::from_low_u64_be(1);
state.add_node(chain1_genesis, node("A", "Chain One")); // 0 let node_id0 = state
.add_node(chain1_genesis, node("A", "Chain One")) // 0
.unwrap_id();
assert_eq!(state.get_chain_by_node_id(0).expect("Chain should exist").label(), "Chain One"); assert_eq!(state.get_chain_by_node_id(node_id0).expect("Chain should exist").label(), "Chain One");
assert!(state.get_chain_by_label("Chain One").is_some()); assert!(state.get_chain_by_label("Chain One").is_some());
assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some()); assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some());
state.add_node(chain1_genesis, node("B", "Chain Two")); // 1 let node_id1 = state
.add_node(chain1_genesis, node("B", "Chain Two")) // 1
.unwrap_id();
// Chain name hasn't changed yet; "Chain One" as common as "Chain Two".. // Chain name hasn't changed yet; "Chain One" as common as "Chain Two"..
assert_eq!(state.get_chain_by_node_id(0).expect("Chain should exist").label(), "Chain One"); assert_eq!(state.get_chain_by_node_id(node_id0).expect("Chain should exist").label(), "Chain One");
assert!(state.get_chain_by_label("Chain One").is_some()); assert!(state.get_chain_by_label("Chain One").is_some());
assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some()); assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some());
state.add_node(chain1_genesis, node("B", "Chain Two")); // 2 let node_id2 = state
.add_node(chain1_genesis, node("B", "Chain Two"))
.unwrap_id(); // 2
// Chain name has changed; "Chain Two" the winner now.. // Chain name has changed; "Chain Two" the winner now..
assert_eq!(state.get_chain_by_node_id(0).expect("Chain should exist").label(), "Chain Two"); assert_eq!(state.get_chain_by_node_id(node_id0).expect("Chain should exist").label(), "Chain Two");
assert!(state.get_chain_by_label("Chain One").is_none()); assert!(state.get_chain_by_label("Chain One").is_none());
assert!(state.get_chain_by_label("Chain Two").is_some()); assert!(state.get_chain_by_label("Chain Two").is_some());
assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some()); assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some());
state.remove_node(1).expect("Removal OK (id: 1)"); state.remove_node(node_id1).expect("Removal OK (id: 1)");
state.remove_node(2).expect("Removal OK (id: 2"); state.remove_node(node_id2).expect("Removal OK (id: 2)");
// Removed both "Chain Two" nodes; dominant name now "Chain One" again.. // Removed both "Chain Two" nodes; dominant name now "Chain One" again..
assert_eq!(state.get_chain_by_node_id(0).expect("Chain should exist").label(), "Chain One"); assert_eq!(state.get_chain_by_node_id(node_id0).expect("Chain should exist").label(), "Chain One");
assert!(state.get_chain_by_label("Chain One").is_some()); assert!(state.get_chain_by_label("Chain One").is_some());
assert!(state.get_chain_by_label("Chain Two").is_none()); assert!(state.get_chain_by_label("Chain Two").is_none());
assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some()); assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some());
@@ -379,13 +368,15 @@ mod test {
let mut state = State::new(None); let mut state = State::new(None);
let chain1_genesis = BlockHash::from_low_u64_be(1); let chain1_genesis = BlockHash::from_low_u64_be(1);
state.add_node(chain1_genesis, node("A", "Chain One")); // 0 let node_id = state
.add_node(chain1_genesis, node("A", "Chain One")) // 0
.unwrap_id();
assert!(state.get_chain_by_label("Chain One").is_some()); assert!(state.get_chain_by_label("Chain One").is_some());
assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some()); assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_some());
assert_eq!(state.iter_chains().count(), 1); assert_eq!(state.iter_chains().count(), 1);
state.remove_node(0); state.remove_node(node_id);
assert!(state.get_chain_by_label("Chain One").is_none()); assert!(state.get_chain_by_label("Chain One").is_none());
assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_none()); assert!(state.get_chain_by_genesis_hash(&chain1_genesis).is_none());