lokinet/llarp/handlers/tun.hpp

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#ifndef LLARP_HANDLERS_TUN_HPP
#define LLARP_HANDLERS_TUN_HPP
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#include <dns/server.hpp>
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#include <ev/ev.h>
#include <ev/vpnio.hpp>
#include <net/ip.hpp>
#include <net/net.hpp>
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#include <service/endpoint.hpp>
#include <util/codel.hpp>
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#include <util/thread/threading.hpp>
#include <future>
namespace llarp
{
namespace handlers
{
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struct TunEndpoint : public service::Endpoint,
public dns::IQueryHandler,
public std::enable_shared_from_this< TunEndpoint >
{
TunEndpoint(const std::string& nickname, AbstractRouter* r,
llarp::service::Context* parent, bool lazyVPN = false);
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~TunEndpoint() override;
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path::PathSet_ptr
GetSelf() override
{
return shared_from_this();
}
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bool
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SetOption(const std::string& k, const std::string& v) override;
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void
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Tick(llarp_time_t now) override;
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util::StatusObject
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ExtractStatus() const;
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std::unordered_map< std::string, std::string >
NotifyParams() const override;
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bool
SupportsV6() const override;
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bool
ShouldHookDNSMessage(const dns::Message& msg) const override;
bool
HandleHookedDNSMessage(
dns::Message&& query,
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std::function< void(dns::Message) > sendreply) override;
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void
TickTun(llarp_time_t now);
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static void
tunifTick(llarp_tun_io*);
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bool
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MapAddress(const service::Address& remote, huint128_t ip, bool SNode);
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bool
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Start() override;
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bool
Stop() override;
bool
IsSNode() const;
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/// set up tun interface, blocking
bool
SetupTun();
/// overrides Endpoint
bool
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SetupNetworking() override;
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/// overrides Endpoint
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bool
HandleInboundPacket(const service::ConvoTag tag,
const llarp_buffer_t& pkt,
service::ProtocolType t) override
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{
if(t != service::eProtocolTrafficV4 && t != service::eProtocolTrafficV6)
return false;
AlignedBuffer< 32 > addr;
bool snode = false;
if(!GetEndpointWithConvoTag(tag, addr, snode))
return false;
return HandleWriteIPPacket(
pkt, [=]() -> huint128_t { return ObtainIPForAddr(addr, snode); });
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}
/// handle inbound traffic
bool
HandleWriteIPPacket(const llarp_buffer_t& buf,
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std::function< huint128_t(void) > getFromIP);
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/// queue outbound packet to the world
bool
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QueueOutboundTraffic(llarp::net::IPPacket&& pkt);
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/// get the local interface's address
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huint128_t
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GetIfAddr() const override;
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/// we have an interface addr
bool
HasIfAddr() const override
{
return true;
}
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bool
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HasLocalIP(const huint128_t& ip) const;
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std::unique_ptr< llarp_tun_io > tunif;
llarp_vpn_io* vpnif = nullptr;
bool
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InjectVPN(llarp_vpn_io* io, llarp_vpn_ifaddr_info info) override
{
if(tunif)
return false;
m_LazyVPNPromise.set_value(lazy_vpn{info, io});
return true;
}
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/// called before writing to tun interface
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static void
tunifBeforeWrite(llarp_tun_io* t);
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/// handle user to network send buffer flush
/// called in router logic thread
static void
handleNetSend(void*);
/// called every time we wish to read a packet from the tun interface
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static void
tunifRecvPkt(llarp_tun_io* t, const llarp_buffer_t& buf);
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/// called in the endpoint logic thread
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static void
handleTickTun(void* u);
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/// get a key for ip address
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template < typename Addr_t >
Addr_t
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ObtainAddrForIP(huint128_t ip, bool isSNode)
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{
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Addr_t addr;
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auto itr = m_IPToAddr.find(ip);
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if(itr != m_IPToAddr.end() and m_SNodes[itr->second] == isSNode)
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{
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addr = Addr_t(itr->second);
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}
// found
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return addr;
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}
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template < typename Addr_t >
bool
FindAddrForIP(Addr_t& addr, huint128_t ip);
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bool
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HasAddress(const AlignedBuffer< 32 >& addr) const
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{
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return m_AddrToIP.find(addr) != m_AddrToIP.end();
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}
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/// get ip address for key unconditionally
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huint128_t
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ObtainIPForAddr(const AlignedBuffer< 32 >& addr, bool serviceNode);
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/// flush network traffic
void
Flush();
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void
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ResetInternalState() override;
protected:
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bool
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ShouldFlushNow(llarp_time_t now) const;
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llarp_time_t m_LastFlushAt = 0;
using PacketQueue_t = llarp::util::CoDelQueue<
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net::IPPacket, net::IPPacket::GetTime, net::IPPacket::PutTime,
net::IPPacket::CompareOrder, net::IPPacket::GetNow >;
/// queue packet for send on net thread from user
std::vector< net::IPPacket > m_TunPkts;
/// queue for sending packets over the network from us
PacketQueue_t m_UserToNetworkPktQueue;
/// queue for sending packets to user from network
PacketQueue_t m_NetworkToUserPktQueue;
/// return true if we have a remote loki address for this ip address
bool
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HasRemoteForIP(huint128_t ipv4) const;
/// mark this address as active
void
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MarkIPActive(huint128_t ip);
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/// mark this address as active forever
void
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MarkIPActiveForever(huint128_t ip);
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/// flush ip packets
virtual void
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FlushSend();
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/// maps ip to key (host byte order)
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std::unordered_map< huint128_t, AlignedBuffer< 32 >, huint128_t::Hash >
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m_IPToAddr;
/// maps key to ip (host byte order)
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std::unordered_map< AlignedBuffer< 32 >, huint128_t,
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AlignedBuffer< 32 >::Hash >
m_AddrToIP;
/// maps key to true if key is a service node, maps key to false if key is
/// a hidden service
std::unordered_map< AlignedBuffer< 32 >, bool, AlignedBuffer< 32 >::Hash >
m_SNodes;
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private:
llarp_vpn_io_impl*
GetVPNImpl()
{
if(vpnif && vpnif->impl)
return static_cast< llarp_vpn_io_impl* >(vpnif->impl);
return nullptr;
}
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bool
QueueInboundPacketForExit(const llarp_buffer_t& buf)
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{
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ManagedBuffer copy{buf};
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return m_NetworkToUserPktQueue.EmplaceIf(
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[&](llarp::net::IPPacket& pkt) -> bool {
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if(!pkt.Load(copy.underlying))
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return false;
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if(SupportsV6())
{
if(pkt.IsV4())
{
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pkt.UpdateIPv6Address(net::IPPacket::ExpandV4(pkt.srcv4()),
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m_OurIP);
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}
else
{
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pkt.UpdateIPv6Address(pkt.srcv6(), m_OurIP);
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}
}
else
{
if(pkt.IsV4())
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pkt.UpdateIPv4Address(
xhtonl(pkt.srcv4()),
xhtonl(net::IPPacket::TruncateV6(m_OurIP)));
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else
return false;
}
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return true;
});
}
template < typename Addr_t, typename Endpoint_t >
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void
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SendDNSReply(Addr_t addr, Endpoint_t ctx, dns::Message* query,
std::function< void(dns::Message) > reply, bool snode,
bool sendIPv6)
{
if(ctx)
{
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huint128_t ip = ObtainIPForAddr(addr, snode);
query->AddINReply(ip, sendIPv6);
}
else
query->AddNXReply();
reply(*query);
delete query;
}
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/// our dns resolver
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std::shared_ptr< dns::Proxy > m_Resolver;
/// maps ip address to timestamp last active
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std::unordered_map< huint128_t, llarp_time_t, huint128_t::Hash >
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m_IPActivity;
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/// our ip address (host byte order)
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huint128_t m_OurIP;
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/// next ip address to allocate (host byte order)
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huint128_t m_NextIP;
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/// highest ip address to allocate (host byte order)
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huint128_t m_MaxIP;
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/// our ip range we are using
llarp::IPRange m_OurRange;
/// upstream dns resolver list
std::vector< llarp::Addr > m_UpstreamResolvers;
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/// local dns
llarp::Addr m_LocalResolverAddr;
/// list of strict connect addresses for hooks
std::vector< llarp::Addr > m_StrictConnectAddrs;
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/// use v6?
bool m_UseV6;
struct lazy_vpn
{
llarp_vpn_ifaddr_info info;
llarp_vpn_io* io;
};
std::promise< lazy_vpn > m_LazyVPNPromise;
/// send packets on endpoint to user using send function
/// send function returns true to indicate stop iteration and do codel
/// drop
void
FlushToUser(std::function< bool(net::IPPacket&) > sendfunc);
};
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} // namespace handlers
} // namespace llarp
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#endif