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use std::net::{Ipv4Addr, Ipv6Addr};
use std::str::FromStr;
use std::sync::Arc;
use util::vnet::net::*;
use util::Conn;
use waitgroup::WaitGroup;
use super::*;
use crate::candidate::candidate_base::CandidateBaseConfig;
use crate::candidate::candidate_host::CandidateHostConfig;
use crate::candidate::candidate_relay::CandidateRelayConfig;
use crate::candidate::candidate_server_reflexive::CandidateServerReflexiveConfig;
use crate::candidate::*;
use crate::error::*;
use crate::network_type::*;
use crate::udp_network::UDPNetwork;
use crate::url::{ProtoType, SchemeType, Url};
use crate::util::*;
const STUN_GATHER_TIMEOUT: Duration = Duration::from_secs(5);
pub(crate) struct GatherCandidatesInternalParams {
pub(crate) udp_network: UDPNetwork,
pub(crate) candidate_types: Vec<CandidateType>,
pub(crate) urls: Vec<Url>,
pub(crate) network_types: Vec<NetworkType>,
pub(crate) mdns_mode: MulticastDnsMode,
pub(crate) mdns_name: String,
pub(crate) net: Arc<Net>,
pub(crate) interface_filter: Arc<Option<InterfaceFilterFn>>,
pub(crate) ip_filter: Arc<Option<IpFilterFn>>,
pub(crate) ext_ip_mapper: Arc<Option<ExternalIpMapper>>,
pub(crate) agent_internal: Arc<AgentInternal>,
pub(crate) gathering_state: Arc<AtomicU8>,
pub(crate) chan_candidate_tx: ChanCandidateTx,
}
struct GatherCandidatesLocalParams {
udp_network: UDPNetwork,
network_types: Vec<NetworkType>,
mdns_mode: MulticastDnsMode,
mdns_name: String,
interface_filter: Arc<Option<InterfaceFilterFn>>,
ip_filter: Arc<Option<IpFilterFn>>,
ext_ip_mapper: Arc<Option<ExternalIpMapper>>,
net: Arc<Net>,
agent_internal: Arc<AgentInternal>,
}
struct GatherCandidatesLocalUDPMuxParams {
network_types: Vec<NetworkType>,
interface_filter: Arc<Option<InterfaceFilterFn>>,
ip_filter: Arc<Option<IpFilterFn>>,
ext_ip_mapper: Arc<Option<ExternalIpMapper>>,
net: Arc<Net>,
agent_internal: Arc<AgentInternal>,
udp_mux: Arc<dyn UDPMux + Send + Sync>,
}
struct GatherCandidatesSrflxMappedParasm {
network_types: Vec<NetworkType>,
port_max: u16,
port_min: u16,
ext_ip_mapper: Arc<Option<ExternalIpMapper>>,
net: Arc<Net>,
agent_internal: Arc<AgentInternal>,
}
struct GatherCandidatesSrflxParams {
urls: Vec<Url>,
network_types: Vec<NetworkType>,
port_max: u16,
port_min: u16,
net: Arc<Net>,
agent_internal: Arc<AgentInternal>,
}
impl Agent {
pub(crate) async fn gather_candidates_internal(params: GatherCandidatesInternalParams) {
Self::set_gathering_state(
¶ms.chan_candidate_tx,
¶ms.gathering_state,
GatheringState::Gathering,
)
.await;
let wg = WaitGroup::new();
for t in ¶ms.candidate_types {
match t {
CandidateType::Host => {
let local_params = GatherCandidatesLocalParams {
udp_network: params.udp_network.clone(),
network_types: params.network_types.clone(),
mdns_mode: params.mdns_mode,
mdns_name: params.mdns_name.clone(),
interface_filter: Arc::clone(¶ms.interface_filter),
ip_filter: Arc::clone(¶ms.ip_filter),
ext_ip_mapper: Arc::clone(¶ms.ext_ip_mapper),
net: Arc::clone(¶ms.net),
agent_internal: Arc::clone(¶ms.agent_internal),
};
let w = wg.worker();
tokio::spawn(async move {
let _d = w;
Self::gather_candidates_local(local_params).await;
});
}
CandidateType::ServerReflexive => {
let ephemeral_config = match ¶ms.udp_network {
UDPNetwork::Ephemeral(e) => e,
// No server reflexive for muxxed connections
UDPNetwork::Muxed(_) => continue,
};
let srflx_params = GatherCandidatesSrflxParams {
urls: params.urls.clone(),
network_types: params.network_types.clone(),
port_max: ephemeral_config.port_max(),
port_min: ephemeral_config.port_min(),
net: Arc::clone(¶ms.net),
agent_internal: Arc::clone(¶ms.agent_internal),
};
let w1 = wg.worker();
tokio::spawn(async move {
let _d = w1;
Self::gather_candidates_srflx(srflx_params).await;
});
if let Some(ext_ip_mapper) = &*params.ext_ip_mapper {
if ext_ip_mapper.candidate_type == CandidateType::ServerReflexive {
let srflx_mapped_params = GatherCandidatesSrflxMappedParasm {
network_types: params.network_types.clone(),
port_max: ephemeral_config.port_max(),
port_min: ephemeral_config.port_min(),
ext_ip_mapper: Arc::clone(¶ms.ext_ip_mapper),
net: Arc::clone(¶ms.net),
agent_internal: Arc::clone(¶ms.agent_internal),
};
let w2 = wg.worker();
tokio::spawn(async move {
let _d = w2;
Self::gather_candidates_srflx_mapped(srflx_mapped_params).await;
});
}
}
}
CandidateType::Relay => {
let urls = params.urls.clone();
let net = Arc::clone(¶ms.net);
let agent_internal = Arc::clone(¶ms.agent_internal);
let w = wg.worker();
tokio::spawn(async move {
let _d = w;
Self::gather_candidates_relay(urls, net, agent_internal).await;
});
}
_ => {}
}
}
// Block until all STUN and TURN URLs have been gathered (or timed out)
wg.wait().await;
Self::set_gathering_state(
¶ms.chan_candidate_tx,
¶ms.gathering_state,
GatheringState::Complete,
)
.await;
}
async fn set_gathering_state(
chan_candidate_tx: &ChanCandidateTx,
gathering_state: &Arc<AtomicU8>,
new_state: GatheringState,
) {
if GatheringState::from(gathering_state.load(Ordering::SeqCst)) != new_state
&& new_state == GatheringState::Complete
{
let cand_tx = chan_candidate_tx.lock().await;
if let Some(tx) = &*cand_tx {
let _ = tx.send(None).await;
}
}
gathering_state.store(new_state as u8, Ordering::SeqCst);
}
async fn gather_candidates_local(params: GatherCandidatesLocalParams) {
let GatherCandidatesLocalParams {
udp_network,
network_types,
mdns_mode,
mdns_name,
interface_filter,
ip_filter,
ext_ip_mapper,
net,
agent_internal,
} = params;
// If we wanna use UDP mux, do so
// FIXME: We still need to support TCP in combination with this option
if let UDPNetwork::Muxed(udp_mux) = udp_network {
let result = Self::gather_candidates_local_udp_mux(GatherCandidatesLocalUDPMuxParams {
network_types,
interface_filter,
ip_filter,
ext_ip_mapper,
net,
agent_internal,
udp_mux,
})
.await;
if let Err(err) = result {
log::error!("Failed to gather local candidates using UDP mux: {}", err);
}
return;
}
let ips = local_interfaces(&net, &interface_filter, &ip_filter, &network_types).await;
for ip in ips {
let mut mapped_ip = ip;
if mdns_mode != MulticastDnsMode::QueryAndGather && ext_ip_mapper.is_some() {
if let Some(ext_ip_mapper2) = ext_ip_mapper.as_ref() {
if ext_ip_mapper2.candidate_type == CandidateType::Host {
if let Ok(mi) = ext_ip_mapper2.find_external_ip(&ip.to_string()) {
mapped_ip = mi;
} else {
log::warn!(
"[{}]: 1:1 NAT mapping is enabled but no external IP is found for {}",
agent_internal.get_name(),
ip
);
}
}
}
}
let address = if mdns_mode == MulticastDnsMode::QueryAndGather {
mdns_name.clone()
} else {
mapped_ip.to_string()
};
//TODO: for network in networks
let network = UDP.to_owned();
if let UDPNetwork::Ephemeral(ephemeral_config) = &udp_network {
/*TODO:switch network {
case tcp:
// Handle ICE TCP passive mode
a.log.Debugf("GetConn by ufrag: %s\n", a.localUfrag)
conn, err = a.tcpMux.GetConnByUfrag(a.localUfrag)
if err != nil {
if !errors.Is(err, ErrTCPMuxNotInitialized) {
a.log.Warnf("error getting tcp conn by ufrag: %s %s %s\n", network, ip, a.localUfrag)
}
continue
}
port = conn.LocalAddr().(*net.TCPAddr).Port
tcpType = TCPTypePassive
// is there a way to verify that the listen address is even
// accessible from the current interface.
case udp:*/
let conn: Arc<dyn Conn + Send + Sync> = match listen_udp_in_port_range(
&net,
ephemeral_config.port_max(),
ephemeral_config.port_min(),
SocketAddr::new(ip, 0),
)
.await
{
Ok(conn) => conn,
Err(err) => {
log::warn!(
"[{}]: could not listen {} {}: {}",
agent_internal.get_name(),
network,
ip,
err
);
continue;
}
};
let port = match conn.local_addr() {
Ok(addr) => addr.port(),
Err(err) => {
log::warn!(
"[{}]: could not get local addr: {}",
agent_internal.get_name(),
err
);
continue;
}
};
let host_config = CandidateHostConfig {
base_config: CandidateBaseConfig {
network: network.clone(),
address,
port,
component: COMPONENT_RTP,
conn: Some(conn),
..CandidateBaseConfig::default()
},
..CandidateHostConfig::default()
};
let candidate: Arc<dyn Candidate + Send + Sync> =
match host_config.new_candidate_host() {
Ok(candidate) => {
if mdns_mode == MulticastDnsMode::QueryAndGather {
if let Err(err) = candidate.set_ip(&ip) {
log::warn!(
"[{}]: Failed to create host candidate: {} {} {}: {:?}",
agent_internal.get_name(),
network,
mapped_ip,
port,
err
);
continue;
}
}
Arc::new(candidate)
}
Err(err) => {
log::warn!(
"[{}]: Failed to create host candidate: {} {} {}: {}",
agent_internal.get_name(),
network,
mapped_ip,
port,
err
);
continue;
}
};
{
if let Err(err) = agent_internal.add_candidate(&candidate).await {
if let Err(close_err) = candidate.close().await {
log::warn!(
"[{}]: Failed to close candidate: {}",
agent_internal.get_name(),
close_err
);
}
log::warn!(
"[{}]: Failed to append to localCandidates and run onCandidateHdlr: {}",
agent_internal.get_name(),
err
);
}
}
}
}
}
async fn gather_candidates_local_udp_mux(
params: GatherCandidatesLocalUDPMuxParams,
) -> Result<()> {
let GatherCandidatesLocalUDPMuxParams {
network_types,
interface_filter,
ip_filter,
ext_ip_mapper,
net,
agent_internal,
udp_mux,
} = params;
// Filter out non UDP network types
let relevant_network_types: Vec<_> =
network_types.into_iter().filter(|n| n.is_udp()).collect();
let udp_mux = Arc::clone(&udp_mux);
let local_ips =
local_interfaces(&net, &interface_filter, &ip_filter, &relevant_network_types).await;
let candidate_ips: Vec<std::net::IpAddr> = ext_ip_mapper
.as_ref() // Arc
.as_ref() // Option
.and_then(|mapper| {
if mapper.candidate_type != CandidateType::Host {
return None;
}
Some(
local_ips
.iter()
.filter_map(|ip| match mapper.find_external_ip(&ip.to_string()) {
Ok(ip) => Some(ip),
Err(err) => {
log::warn!(
"1:1 NAT mapping is enabled but not external IP is found for {}: {}",
ip,
err
);
None
}
})
.collect(),
)
})
.unwrap_or_else(|| local_ips.iter().copied().collect());
if candidate_ips.is_empty() {
return Err(Error::ErrCandidateIpNotFound);
}
let ufrag = {
let ufrag_pwd = agent_internal.ufrag_pwd.lock().await;
ufrag_pwd.local_ufrag.clone()
};
let conn = udp_mux.get_conn(&ufrag).await?;
let port = conn.local_addr()?.port();
for candidate_ip in candidate_ips {
let host_config = CandidateHostConfig {
base_config: CandidateBaseConfig {
network: UDP.to_owned(),
address: candidate_ip.to_string(),
port,
conn: Some(conn.clone()),
component: COMPONENT_RTP,
..Default::default()
},
tcp_type: TcpType::Unspecified,
};
let candidate: Arc<dyn Candidate + Send + Sync> =
Arc::new(host_config.new_candidate_host()?);
agent_internal.add_candidate(&candidate).await?;
}
Ok(())
}
async fn gather_candidates_srflx_mapped(params: GatherCandidatesSrflxMappedParasm) {
let GatherCandidatesSrflxMappedParasm {
network_types,
port_max,
port_min,
ext_ip_mapper,
net,
agent_internal,
} = params;
let wg = WaitGroup::new();
for network_type in network_types {
if network_type.is_tcp() {
continue;
}
let network = network_type.to_string();
let net2 = Arc::clone(&net);
let agent_internal2 = Arc::clone(&agent_internal);
let ext_ip_mapper2 = Arc::clone(&ext_ip_mapper);
let w = wg.worker();
tokio::spawn(async move {
let _d = w;
let conn: Arc<dyn Conn + Send + Sync> = match listen_udp_in_port_range(
&net2,
port_max,
port_min,
if network_type.is_ipv4() {
SocketAddr::new(Ipv4Addr::new(0, 0, 0, 0).into(), 0)
} else {
SocketAddr::new(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 0).into(), 0)
},
)
.await
{
Ok(conn) => conn,
Err(err) => {
log::warn!(
"[{}]: Failed to listen {}: {}",
agent_internal2.get_name(),
network,
err
);
return Ok(());
}
};
let laddr = conn.local_addr()?;
let mapped_ip = {
if let Some(ext_ip_mapper3) = &*ext_ip_mapper2 {
match ext_ip_mapper3.find_external_ip(&laddr.ip().to_string()) {
Ok(ip) => ip,
Err(err) => {
log::warn!(
"[{}]: 1:1 NAT mapping is enabled but no external IP is found for {}: {}",
agent_internal2.get_name(),
laddr,
err
);
return Ok(());
}
}
} else {
log::error!(
"[{}]: ext_ip_mapper is None in gather_candidates_srflx_mapped",
agent_internal2.get_name(),
);
return Ok(());
}
};
let srflx_config = CandidateServerReflexiveConfig {
base_config: CandidateBaseConfig {
network: network.clone(),
address: mapped_ip.to_string(),
port: laddr.port(),
component: COMPONENT_RTP,
conn: Some(conn),
..CandidateBaseConfig::default()
},
rel_addr: laddr.ip().to_string(),
rel_port: laddr.port(),
};
let candidate: Arc<dyn Candidate + Send + Sync> =
match srflx_config.new_candidate_server_reflexive() {
Ok(candidate) => Arc::new(candidate),
Err(err) => {
log::warn!(
"[{}]: Failed to create server reflexive candidate: {} {} {}: {}",
agent_internal2.get_name(),
network,
mapped_ip,
laddr.port(),
err
);
return Ok(());
}
};
{
if let Err(err) = agent_internal2.add_candidate(&candidate).await {
if let Err(close_err) = candidate.close().await {
log::warn!(
"[{}]: Failed to close candidate: {}",
agent_internal2.get_name(),
close_err
);
}
log::warn!(
"[{}]: Failed to append to localCandidates and run onCandidateHdlr: {}",
agent_internal2.get_name(),
err
);
}
}
Result::<()>::Ok(())
});
}
wg.wait().await;
}
async fn gather_candidates_srflx(params: GatherCandidatesSrflxParams) {
let GatherCandidatesSrflxParams {
urls,
network_types,
port_max,
port_min,
net,
agent_internal,
} = params;
let wg = WaitGroup::new();
for network_type in network_types {
if network_type.is_tcp() {
continue;
}
for url in &urls {
let network = network_type.to_string();
let is_ipv4 = network_type.is_ipv4();
let url = url.clone();
let net2 = Arc::clone(&net);
let agent_internal2 = Arc::clone(&agent_internal);
let w = wg.worker();
tokio::spawn(async move {
let _d = w;
let host_port = format!("{}:{}", url.host, url.port);
let server_addr = match net2.resolve_addr(is_ipv4, &host_port).await {
Ok(addr) => addr,
Err(err) => {
log::warn!(
"[{}]: failed to resolve stun host: {}: {}",
agent_internal2.get_name(),
host_port,
err
);
return Ok(());
}
};
let conn: Arc<dyn Conn + Send + Sync> = match listen_udp_in_port_range(
&net2,
port_max,
port_min,
if is_ipv4 {
SocketAddr::new(Ipv4Addr::new(0, 0, 0, 0).into(), 0)
} else {
SocketAddr::new(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 0).into(), 0)
},
)
.await
{
Ok(conn) => conn,
Err(err) => {
log::warn!(
"[{}]: Failed to listen for {}: {}",
agent_internal2.get_name(),
server_addr,
err
);
return Ok(());
}
};
let xoraddr =
match get_xormapped_addr(&conn, server_addr, STUN_GATHER_TIMEOUT).await {
Ok(xoraddr) => xoraddr,
Err(err) => {
log::warn!(
"[{}]: could not get server reflexive address {} {}: {}",
agent_internal2.get_name(),
network,
url,
err
);
return Ok(());
}
};
let (ip, port) = (xoraddr.ip, xoraddr.port);
let laddr = conn.local_addr()?;
let srflx_config = CandidateServerReflexiveConfig {
base_config: CandidateBaseConfig {
network: network.clone(),
address: ip.to_string(),
port,
component: COMPONENT_RTP,
conn: Some(conn),
..CandidateBaseConfig::default()
},
rel_addr: laddr.ip().to_string(),
rel_port: laddr.port(),
};
let candidate: Arc<dyn Candidate + Send + Sync> =
match srflx_config.new_candidate_server_reflexive() {
Ok(candidate) => Arc::new(candidate),
Err(err) => {
log::warn!(
"[{}]: Failed to create server reflexive candidate: {} {} {}: {:?}",
agent_internal2.get_name(),
network,
ip,
port,
err
);
return Ok(());
}
};
{
if let Err(err) = agent_internal2.add_candidate(&candidate).await {
if let Err(close_err) = candidate.close().await {
log::warn!(
"[{}]: Failed to close candidate: {}",
agent_internal2.get_name(),
close_err
);
}
log::warn!(
"[{}]: Failed to append to localCandidates and run onCandidateHdlr: {}",
agent_internal2.get_name(),
err
);
}
}
Result::<()>::Ok(())
});
}
}
wg.wait().await;
}
pub(crate) async fn gather_candidates_relay(
urls: Vec<Url>,
net: Arc<Net>,
agent_internal: Arc<AgentInternal>,
) {
let wg = WaitGroup::new();
for url in urls {
if url.scheme != SchemeType::Turn && url.scheme != SchemeType::Turns {
continue;
}
if url.username.is_empty() {
log::error!(
"[{}]:Failed to gather relay candidates: {:?}",
agent_internal.get_name(),
Error::ErrUsernameEmpty
);
return;
}
if url.password.is_empty() {
log::error!(
"[{}]: Failed to gather relay candidates: {:?}",
agent_internal.get_name(),
Error::ErrPasswordEmpty
);
return;
}
let network = NetworkType::Udp4.to_string();
let net2 = Arc::clone(&net);
let agent_internal2 = Arc::clone(&agent_internal);
let w = wg.worker();
tokio::spawn(async move {
let _d = w;
let turn_server_addr = format!("{}:{}", url.host, url.port);
let (loc_conn, rel_addr, rel_port) =
if url.proto == ProtoType::Udp && url.scheme == SchemeType::Turn {
let loc_conn = match net2.bind(SocketAddr::from_str("0.0.0.0:0")?).await {
Ok(c) => c,
Err(err) => {
log::warn!(
"[{}]: Failed to listen due to error: {}",
agent_internal2.get_name(),
err
);
return Ok(());
}
};
let local_addr = loc_conn.local_addr()?;
let rel_addr = local_addr.ip().to_string();
let rel_port = local_addr.port();
(loc_conn, rel_addr, rel_port)
/*TODO: case url.proto == ProtoType::UDP && url.scheme == SchemeType::TURNS{
case a.proxyDialer != nil && url.Proto == ProtoTypeTCP && (url.Scheme == SchemeTypeTURN || url.Scheme == SchemeTypeTURNS):
case url.Proto == ProtoTypeTCP && url.Scheme == SchemeTypeTURN:
case url.Proto == ProtoTypeTCP && url.Scheme == SchemeTypeTURNS:*/
} else {
log::warn!(
"[{}]: Unable to handle URL in gather_candidates_relay {}",
agent_internal2.get_name(),
url
);
return Ok(());
};
let cfg = turn::client::ClientConfig {
stun_serv_addr: String::new(),
turn_serv_addr: turn_server_addr.clone(),
username: url.username,
password: url.password,
realm: String::new(),
software: String::new(),
rto_in_ms: 0,
conn: loc_conn,
vnet: Some(Arc::clone(&net2)),
};
let client = match turn::client::Client::new(cfg).await {
Ok(client) => Arc::new(client),
Err(err) => {
log::warn!(
"[{}]: Failed to build new turn.Client {} {}\n",
agent_internal2.get_name(),
turn_server_addr,
err
);
return Ok(());
}
};
if let Err(err) = client.listen().await {
let _ = client.close().await;
log::warn!(
"[{}]: Failed to listen on turn.Client {} {}",
agent_internal2.get_name(),
turn_server_addr,
err
);
return Ok(());
}
let relay_conn: Arc<dyn Conn + Send + Sync> = match client.allocate().await {
Ok(conn) => Arc::new(conn),
Err(err) => {
let _ = client.close().await;
log::warn!(
"[{}]: Failed to allocate on turn.Client {} {}",
agent_internal2.get_name(),
turn_server_addr,
err
);
return Ok(());
}
};
let raddr = relay_conn.local_addr()?;
let relay_config = CandidateRelayConfig {
base_config: CandidateBaseConfig {
network: network.clone(),
address: raddr.ip().to_string(),
port: raddr.port(),
component: COMPONENT_RTP,
conn: Some(Arc::clone(&relay_conn)),
..CandidateBaseConfig::default()
},
rel_addr,
rel_port,
relay_client: Some(Arc::clone(&client)),
};
let candidate: Arc<dyn Candidate + Send + Sync> =
match relay_config.new_candidate_relay() {
Ok(candidate) => Arc::new(candidate),
Err(err) => {
let _ = relay_conn.close().await;
let _ = client.close().await;
log::warn!(
"[{}]: Failed to create relay candidate: {} {}: {}",
agent_internal2.get_name(),
network,
raddr,
err
);
return Ok(());
}
};
{
if let Err(err) = agent_internal2.add_candidate(&candidate).await {
if let Err(close_err) = candidate.close().await {
log::warn!(
"[{}]: Failed to close candidate: {}",
agent_internal2.get_name(),
close_err
);
}
log::warn!(
"[{}]: Failed to append to localCandidates and run onCandidateHdlr: {}",
agent_internal2.get_name(),
err
);
}
}
Result::<()>::Ok(())
});
}
wg.wait().await;
}
}