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use std::{
sync::RwLock,
collections::BTreeMap,
};
use async_std::{
sync::Arc,
task,
};
use cyfs_base::*;
use crate::{
types::*,
interface::{udp::OnUdpRawData},
tunnel::TunnelContainer,
datagram::{self, DatagramTunnelGuard},
stack::{WeakStack, Stack}
};
use super::super::{
types::*
};
use super::{
channel::Channel,
};
struct Channels {
download_history_speed: HistorySpeed,
download_cur_speed: u32,
upload_history_speed: HistorySpeed,
upload_cur_speed: u32,
entries: BTreeMap<DeviceId, Channel>,
}
struct ManagerImpl {
stack: WeakStack,
command_tunnel: DatagramTunnelGuard,
channels: RwLock<Channels>
}
#[derive(Clone)]
pub struct ChannelManager(Arc<ManagerImpl>);
impl std::fmt::Display for ChannelManager {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "ChannelManager")
}
}
impl ChannelManager {
pub fn new(weak_stack: WeakStack) -> Self {
let stack = Stack::from(&weak_stack);
let command_tunnel = stack.datagram_manager().bind_reserved(datagram::ReservedVPort::Channel).unwrap();
let manager = Self(Arc::new(ManagerImpl {
stack: weak_stack.clone(),
command_tunnel,
channels: RwLock::new(Channels {
download_history_speed: HistorySpeed::new(0, stack.config().ndn.channel.history_speed.clone()),
download_cur_speed: 0,
upload_history_speed: HistorySpeed::new(0, stack.config().ndn.channel.history_speed.clone()),
upload_cur_speed: 0,
entries: BTreeMap::new()
}),
}));
{
let manager = manager.clone();
task::spawn(async move {
manager.recv_command().await;
});
}
manager
}
pub fn channel_of(&self, remote: &DeviceId) -> Option<Channel> {
self.0.channels.read().unwrap().entries.get(remote).cloned()
}
pub fn create_channel(&self, remote: &DeviceId) -> Channel {
let mut channels = self.0.channels.write().unwrap();
channels.entries.get(remote).map(|c| c.clone()).map_or_else(|| {
info!("{} create channel on {}", self, remote);
let initial_download_speed = channels.download_history_speed.average() / (channels.entries.len() as u32 + 1);
let initial_upload_speed = channels.upload_history_speed.average() / (channels.entries.len() as u32 + 1);
let channel = Channel::new(
self.0.stack.clone(),
remote.clone(),
self.0.command_tunnel.clone(),
HistorySpeed::new(initial_download_speed, channels.download_history_speed.config().clone()),
HistorySpeed::new(initial_upload_speed, channels.download_history_speed.config().clone()),
);
channels.entries.insert(remote.clone(), channel.clone());
channel
}, |c| c)
}
pub fn on_schedule(&self, when: Timestamp) {
let mut channels = self.0.channels.write().unwrap();
let mut download_cur_speed = 0;
let mut download_session_count = 0;
let mut upload_cur_speed = 0;
let mut upload_session_count = 0;
for channel in channels.entries.values() {
let (d, u) = channel.calc_speed(when);
download_cur_speed += d;
upload_cur_speed += u;
download_session_count += channel.download_session_count();
upload_session_count += channel.upload_session_count();
}
channels.download_cur_speed = download_cur_speed;
channels.upload_cur_speed = upload_cur_speed;
if download_session_count > 0 {
channels.download_history_speed.update(Some(download_cur_speed), when);
} else {
channels.download_history_speed.update(None, when);
}
if upload_session_count > 0 {
channels.upload_history_speed.update(Some(upload_cur_speed), when);
} else {
channels.upload_history_speed.update(None, when);
}
}
fn download_cur_speed(&self) -> u32 {
self.0.channels.read().unwrap().download_cur_speed
}
fn download_history_speed(&self) -> u32 {
self.0.channels.read().unwrap().download_history_speed.average()
}
fn upload_cur_speed(&self) -> u32 {
self.0.channels.read().unwrap().upload_cur_speed
}
fn upload_history_speed(&self) -> u32 {
self.0.channels.read().unwrap().upload_history_speed.average()
}
pub(crate) fn on_time_escape(&self, now: Timestamp) {
let channels: Vec<Channel> = self.0.channels.read().unwrap().entries.values().cloned().collect();
for channel in channels {
channel.on_time_escape(now);
}
}
async fn recv_command(&self) {
loop {
match self.0.command_tunnel.recv_v().await {
Ok(datagrams) => {
for datagram in datagrams {
let channel = self.channel_of(&datagram.source.remote)
.or_else(| | Some(self.create_channel(&datagram.source.remote))).unwrap();
let _ = channel.on_datagram(datagram);
}
},
Err(_err) => {
}
}
}
}
}
impl OnUdpRawData<&TunnelContainer> for ChannelManager {
fn on_udp_raw_data(&self, data: &[u8], tunnel: &TunnelContainer) -> Result<(), BuckyError> {
let channel = self.channel_of(tunnel.remote()).ok_or_else(| | BuckyError::new(BuckyErrorCode::NotFound, "channel not exists"))?;
channel.on_udp_raw_data(data, None)
}
}
