veilid/veilid-core/src/attachment_manager.rs
2022-10-30 19:29:31 -04:00

420 lines
14 KiB
Rust

use crate::callback_state_machine::*;
use crate::crypto::Crypto;
use crate::network_manager::*;
use crate::routing_table::*;
use crate::xx::*;
use crate::*;
use core::convert::TryFrom;
use core::fmt;
use serde::*;
state_machine! {
derive(Debug, PartialEq, Eq, Clone, Copy, Serialize, Deserialize)
pub Attachment(Detached)
//---
Detached(AttachRequested) => Attaching [StartAttachment],
Attaching => {
AttachmentStopped => Detached,
WeakPeers => AttachedWeak,
GoodPeers => AttachedGood,
StrongPeers => AttachedStrong,
FullPeers => FullyAttached,
TooManyPeers => OverAttached,
DetachRequested => Detaching [StopAttachment]
},
AttachedWeak => {
NoPeers => Attaching,
GoodPeers => AttachedGood,
StrongPeers => AttachedStrong,
FullPeers => FullyAttached,
TooManyPeers => OverAttached,
DetachRequested => Detaching [StopAttachment]
},
AttachedGood => {
NoPeers => Attaching,
WeakPeers => AttachedWeak,
StrongPeers => AttachedStrong,
FullPeers => FullyAttached,
TooManyPeers => OverAttached,
DetachRequested => Detaching [StopAttachment]
},
AttachedStrong => {
NoPeers => Attaching,
WeakPeers => AttachedWeak,
GoodPeers => AttachedGood,
FullPeers => FullyAttached,
TooManyPeers => OverAttached,
DetachRequested => Detaching [StopAttachment]
},
FullyAttached => {
NoPeers => Attaching,
WeakPeers => AttachedWeak,
GoodPeers => AttachedGood,
StrongPeers => AttachedStrong,
TooManyPeers => OverAttached,
DetachRequested => Detaching [StopAttachment]
},
OverAttached => {
NoPeers => Attaching,
WeakPeers => AttachedWeak,
GoodPeers => AttachedGood,
StrongPeers => AttachedStrong,
FullPeers => FullyAttached,
DetachRequested => Detaching [StopAttachment]
},
Detaching => {
AttachmentStopped => Detached,
},
}
impl fmt::Display for AttachmentState {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
let out = match self {
AttachmentState::Attaching => "attaching".to_owned(),
AttachmentState::AttachedWeak => "attached_weak".to_owned(),
AttachmentState::AttachedGood => "attached_good".to_owned(),
AttachmentState::AttachedStrong => "attached_strong".to_owned(),
AttachmentState::FullyAttached => "fully_attached".to_owned(),
AttachmentState::OverAttached => "over_attached".to_owned(),
AttachmentState::Detaching => "detaching".to_owned(),
AttachmentState::Detached => "detached".to_owned(),
};
write!(f, "{}", out)
}
}
impl TryFrom<String> for AttachmentState {
type Error = ();
fn try_from(s: String) -> Result<Self, Self::Error> {
Ok(match s.as_str() {
"attaching" => AttachmentState::Attaching,
"attached_weak" => AttachmentState::AttachedWeak,
"attached_good" => AttachmentState::AttachedGood,
"attached_strong" => AttachmentState::AttachedStrong,
"fully_attached" => AttachmentState::FullyAttached,
"over_attached" => AttachmentState::OverAttached,
"detaching" => AttachmentState::Detaching,
"detached" => AttachmentState::Detached,
_ => return Err(()),
})
}
}
pub struct AttachmentManagerInner {
attachment_machine: CallbackStateMachine<Attachment>,
maintain_peers: bool,
attach_timestamp: Option<u64>,
update_callback: Option<UpdateCallback>,
attachment_maintainer_jh: Option<MustJoinHandle<()>>,
}
pub struct AttachmentManagerUnlockedInner {
config: VeilidConfig,
network_manager: NetworkManager,
}
#[derive(Clone)]
pub struct AttachmentManager {
inner: Arc<Mutex<AttachmentManagerInner>>,
unlocked_inner: Arc<AttachmentManagerUnlockedInner>,
}
impl AttachmentManager {
fn new_unlocked_inner(
config: VeilidConfig,
protected_store: ProtectedStore,
table_store: TableStore,
block_store: BlockStore,
crypto: Crypto,
) -> AttachmentManagerUnlockedInner {
AttachmentManagerUnlockedInner {
config: config.clone(),
network_manager: NetworkManager::new(
config,
protected_store,
table_store,
block_store,
crypto,
),
}
}
fn new_inner() -> AttachmentManagerInner {
AttachmentManagerInner {
attachment_machine: CallbackStateMachine::new(),
maintain_peers: false,
attach_timestamp: None,
update_callback: None,
attachment_maintainer_jh: None,
}
}
pub fn new(
config: VeilidConfig,
protected_store: ProtectedStore,
table_store: TableStore,
block_store: BlockStore,
crypto: Crypto,
) -> Self {
Self {
inner: Arc::new(Mutex::new(Self::new_inner())),
unlocked_inner: Arc::new(Self::new_unlocked_inner(
config,
protected_store,
table_store,
block_store,
crypto,
)),
}
}
pub fn config(&self) -> VeilidConfig {
self.unlocked_inner.config.clone()
}
pub fn network_manager(&self) -> NetworkManager {
self.unlocked_inner.network_manager.clone()
}
pub fn is_attached(&self) -> bool {
let s = self.inner.lock().attachment_machine.state();
!matches!(s, AttachmentState::Detached | AttachmentState::Detaching)
}
pub fn is_detached(&self) -> bool {
let s = self.inner.lock().attachment_machine.state();
matches!(s, AttachmentState::Detached)
}
pub fn get_attach_timestamp(&self) -> Option<u64> {
self.inner.lock().attach_timestamp
}
fn translate_routing_table_health(
health: RoutingTableHealth,
config: &VeilidConfigRoutingTable,
) -> AttachmentInput {
if health.reliable_entry_count >= config.limit_over_attached.try_into().unwrap() {
return AttachmentInput::TooManyPeers;
}
if health.reliable_entry_count >= config.limit_fully_attached.try_into().unwrap() {
return AttachmentInput::FullPeers;
}
if health.reliable_entry_count >= config.limit_attached_strong.try_into().unwrap() {
return AttachmentInput::StrongPeers;
}
if health.reliable_entry_count >= config.limit_attached_good.try_into().unwrap() {
return AttachmentInput::GoodPeers;
}
if health.reliable_entry_count >= config.limit_attached_weak.try_into().unwrap()
|| health.unreliable_entry_count >= config.limit_attached_weak.try_into().unwrap()
{
return AttachmentInput::WeakPeers;
}
AttachmentInput::NoPeers
}
fn translate_attachment_state(state: &AttachmentState) -> AttachmentInput {
match state {
AttachmentState::OverAttached => AttachmentInput::TooManyPeers,
AttachmentState::FullyAttached => AttachmentInput::FullPeers,
AttachmentState::AttachedStrong => AttachmentInput::StrongPeers,
AttachmentState::AttachedGood => AttachmentInput::GoodPeers,
AttachmentState::AttachedWeak => AttachmentInput::WeakPeers,
AttachmentState::Attaching => AttachmentInput::NoPeers,
_ => panic!("Invalid state"),
}
}
async fn update_attachment(&self) {
let new_peer_state_input = {
let inner = self.inner.lock();
let old_peer_state_input =
AttachmentManager::translate_attachment_state(&inner.attachment_machine.state());
// get reliable peer count from routing table
let routing_table = self.network_manager().routing_table();
let health = routing_table.get_routing_table_health();
let config = self.config();
let routing_table_config = &config.get().network.routing_table;
let new_peer_state_input =
AttachmentManager::translate_routing_table_health(health, routing_table_config);
if old_peer_state_input == new_peer_state_input {
None
} else {
Some(new_peer_state_input)
}
};
if let Some(next_input) = new_peer_state_input {
let _ = self.process_input(&next_input).await;
}
}
#[instrument(level = "debug", skip(self))]
async fn attachment_maintainer(self) {
debug!("attachment starting");
self.inner.lock().attach_timestamp = Some(intf::get_timestamp());
let netman = self.network_manager();
let mut restart;
loop {
restart = false;
if let Err(err) = netman.startup().await {
error!("network startup failed: {}", err);
netman.shutdown().await;
break;
}
debug!("started maintaining peers");
while self.inner.lock().maintain_peers {
// tick network manager
if let Err(err) = netman.tick().await {
error!("Error in network manager: {}", err);
self.inner.lock().maintain_peers = false;
restart = true;
break;
}
// see if we need to restart the network
if netman.needs_restart() {
info!("Restarting network");
restart = true;
break;
}
self.update_attachment().await;
// sleep should be at the end in case maintain_peers changes state
intf::sleep(1000).await;
}
debug!("stopped maintaining peers");
debug!("stopping network");
netman.shutdown().await;
if !restart {
break;
}
debug!("completely restarting attachment");
// chill out for a second first, give network stack time to settle out
intf::sleep(1000).await;
}
trace!("stopping attachment");
let attachment_machine = self.inner.lock().attachment_machine.clone();
let _output = attachment_machine
.consume(&AttachmentInput::AttachmentStopped)
.await;
debug!("attachment stopped");
self.inner.lock().attach_timestamp = None;
}
#[instrument(level = "debug", skip_all, err)]
pub async fn init(&self, update_callback: UpdateCallback) -> EyreResult<()> {
trace!("init");
{
let mut inner = self.inner.lock();
inner.update_callback = Some(update_callback.clone());
let update_callback2 = update_callback.clone();
inner.attachment_machine.set_state_change_callback(Arc::new(
move |_old_state: AttachmentState, new_state: AttachmentState| {
update_callback2(VeilidUpdate::Attachment(VeilidStateAttachment {
state: new_state,
}))
},
));
};
self.network_manager().init(update_callback).await?;
Ok(())
}
#[instrument(level = "debug", skip(self))]
pub async fn terminate(&self) {
// Ensure we detached
self.detach().await;
self.network_manager().terminate().await;
self.inner.lock().update_callback = None;
}
#[instrument(level = "trace", skip(self))]
fn attach(&self) {
// Create long-running connection maintenance routine
let inner = self.inner.lock();
if inner.attachment_maintainer_jh.is_some() {
return;
}
inner.maintain_peers = true;
inner.attachment_maintainer_jh = Some(intf::spawn(self.clone().attachment_maintainer()));
}
#[instrument(level = "trace", skip(self))]
async fn detach(&self) {
let attachment_maintainer_jh = {
let mut inner = self.inner.lock();
let attachment_maintainer_jh = inner.attachment_maintainer_jh.take();
if attachment_maintainer_jh.is_some() {
// Terminate long-running connection maintenance routine
inner.maintain_peers = false;
}
attachment_maintainer_jh
};
if let Some(jh) = attachment_maintainer_jh {
jh.await;
}
}
async fn handle_output(&self, output: &AttachmentOutput) {
match output {
AttachmentOutput::StartAttachment => self.attach(),
AttachmentOutput::StopAttachment => self.detach().await,
}
}
async fn process_input(&self, input: &AttachmentInput) -> EyreResult<()> {
let attachment_machine = self.inner.lock().attachment_machine.clone();
let output = attachment_machine.consume(input).await;
match output {
Err(e) => Err(eyre!(
"invalid input '{:?}' for state machine in state '{:?}': {:?}",
input,
attachment_machine.state(),
e
)),
Ok(v) => {
if let Some(o) = v {
self.handle_output(&o).await;
}
Ok(())
}
}
}
#[instrument(level = "trace", skip(self), err)]
pub async fn request_attach(&self) -> EyreResult<()> {
self.process_input(&AttachmentInput::AttachRequested)
.await
.map_err(|e| eyre!("Attach request failed: {}", e))
}
#[instrument(level = "trace", skip(self), err)]
pub async fn request_detach(&self) -> EyreResult<()> {
self.process_input(&AttachmentInput::DetachRequested)
.await
.map_err(|e| eyre!("Detach request failed: {}", e))
}
pub fn get_state(&self) -> AttachmentState {
let attachment_machine = self.inner.lock().attachment_machine.clone();
attachment_machine.state()
}
pub fn get_veilid_state(&self) -> VeilidStateAttachment {
VeilidStateAttachment {
state: self.get_state(),
}
}
}