#ifndef LLARP_IWP_SESSION_HPP
#define LLARP_IWP_SESSION_HPP
#include
#include
#include
#include
#include
namespace llarp
{
namespace iwp
{
/// packet crypto overhead size
static constexpr size_t PacketOverhead = HMACSIZE + TUNNONCESIZE;
/// creates a packet with plaintext size + wire overhead + random pad
ILinkSession::Packet_t
CreatePacket(Command cmd, size_t plainsize, size_t min_pad = 16,
size_t pad_variance = 16);
struct Session : public ILinkSession,
public std::enable_shared_from_this< Session >
{
/// Time how long we try delivery for
static constexpr llarp_time_t DeliveryTimeout = 1000;
/// Time how long we wait to recieve a message
static constexpr llarp_time_t RecievalTimeout = (DeliveryTimeout * 8) / 5;
/// How long to keep a replay window for
static constexpr llarp_time_t ReplayWindow = (RecievalTimeout * 3) / 2;
/// How often to acks RX messages
static constexpr llarp_time_t ACKResendInterval = DeliveryTimeout / 4;
/// How often to retransmit TX fragments
static constexpr llarp_time_t TXFlushInterval = (DeliveryTimeout / 5) * 2;
/// How often we send a keepalive
static constexpr llarp_time_t PingInterval = 5000;
/// How long we wait for a session to die with no tx from them
static constexpr llarp_time_t SessionAliveTimeout = PingInterval * 5;
/// maximum number of messages we can ack in a multiack
static constexpr std::size_t MaxACKSInMACK = 1024 / sizeof(uint64_t);
/// outbound session
Session(LinkLayer* parent, const RouterContact& rc,
const AddressInfo& ai);
/// inbound session
Session(LinkLayer* parent, const Addr& from);
~Session() = default;
std::shared_ptr< ILinkSession >
BorrowSelf() override
{
return shared_from_this();
}
void
Pump() override;
void
Tick(llarp_time_t now) override;
bool
SendMessageBuffer(ILinkSession::Message_t msg,
CompletionHandler resultHandler) override;
void
Send_LL(const byte_t* buf, size_t sz);
void EncryptAndSend(ILinkSession::Packet_t);
void
Start() override;
void
Close() override;
bool Recv_LL(ILinkSession::Packet_t) override;
bool
SendKeepAlive() override;
bool
IsEstablished() const override;
bool
TimedOut(llarp_time_t now) const override;
PubKey
GetPubKey() const override
{
return m_RemoteRC.pubkey;
}
Addr
GetRemoteEndpoint() const override
{
return m_RemoteAddr;
}
RouterContact
GetRemoteRC() const override
{
return m_RemoteRC;
}
size_t
SendQueueBacklog() const override
{
return m_TXMsgs.size();
}
ILinkLayer*
GetLinkLayer() const override
{
return m_Parent;
}
bool
RenegotiateSession() override;
bool
ShouldPing() const override;
util::StatusObject
ExtractStatus() const override;
private:
enum class State
{
/// we have no data recv'd
Initial,
/// we are in introduction phase
Introduction,
/// we sent our LIM
LinkIntro,
/// handshake done and LIM has been obtained
Ready,
/// we are closed now
Closed
};
State m_State;
/// are we inbound session ?
const bool m_Inbound;
/// parent link layer
LinkLayer* const m_Parent;
const llarp_time_t m_CreatedAt;
const Addr m_RemoteAddr;
AddressInfo m_ChosenAI;
/// remote rc
RouterContact m_RemoteRC;
/// session key
SharedSecret m_SessionKey;
/// session token
AlignedBuffer< 24 > token;
PubKey m_ExpectedIdent;
PubKey m_RemoteOnionKey;
llarp_time_t m_LastTX = 0;
llarp_time_t m_LastRX = 0;
uint64_t m_TXID = 0;
std::unordered_map< uint64_t, InboundMessage > m_RXMsgs;
std::unordered_map< uint64_t, OutboundMessage > m_TXMsgs;
/// maps rxid to time recieved
std::unordered_map< uint64_t, llarp_time_t > m_ReplayFilter;
/// set of rx messages to send in next round of multiacks
std::unordered_set< uint64_t > m_SendMACKs;
using CryptoQueue_t = std::vector< Packet_t >;
using CryptoQueue_ptr = std::shared_ptr< CryptoQueue_t >;
CryptoQueue_ptr m_EncryptNext;
CryptoQueue_ptr m_DecryptNext;
void
EncryptWorker(CryptoQueue_ptr msgs);
void
DecryptWorker(CryptoQueue_ptr msgs);
void
HandlePlaintext(CryptoQueue_ptr msgs);
void
HandleGotIntro(Packet_t pkt);
void
HandleGotIntroAck(Packet_t pkt);
void
HandleCreateSessionRequest(Packet_t pkt);
void
HandleAckSession(Packet_t pkt);
void
HandleSessionData(Packet_t pkt);
bool
DecryptMessageInPlace(Packet_t& pkt);
void
SendMACK();
void
GenerateAndSendIntro();
bool
GotInboundLIM(const LinkIntroMessage* msg);
bool
GotOutboundLIM(const LinkIntroMessage* msg);
bool
GotRenegLIM(const LinkIntroMessage* msg);
void
SendOurLIM(ILinkSession::CompletionHandler h = nullptr);
void
HandleXMIT(Packet_t msg);
void
HandleDATA(Packet_t msg);
void
HandleACKS(Packet_t msg);
void
HandleNACK(Packet_t msg);
void
HandlePING(Packet_t msg);
void
HandleCLOS(Packet_t msg);
void
HandleMACK(Packet_t msg);
};
} // namespace iwp
} // namespace llarp
#endif