lokinet/llarp/iwp/message_buffer.cpp
2020-02-24 15:25:03 -05:00

195 lines
5.3 KiB
C++

#include <iwp/message_buffer.hpp>
#include <iwp/session.hpp>
#include <crypto/crypto.hpp>
namespace llarp
{
namespace iwp
{
OutboundMessage::OutboundMessage(uint64_t msgid,
ILinkSession::Message_t msg,
llarp_time_t now,
ILinkSession::CompletionHandler handler)
: m_Data{std::move(msg)}
, m_MsgID{msgid}
, m_Completed{handler}
, m_StartedAt{now}
{
const llarp_buffer_t buf(m_Data);
CryptoManager::instance()->shorthash(m_Digest, buf);
}
ILinkSession::Packet_t
OutboundMessage::XMIT() const
{
size_t extra = std::min(m_Data.size(), FragmentSize);
auto xmit = CreatePacket(Command::eXMIT, 10 + 32 + extra, 0, 0);
htobe16buf(xmit.data() + CommandOverhead + PacketOverhead, m_Data.size());
htobe64buf(xmit.data() + 2 + CommandOverhead + PacketOverhead, m_MsgID);
std::copy_n(m_Digest.begin(), m_Digest.size(),
xmit.data() + 10 + CommandOverhead + PacketOverhead);
std::copy_n(m_Data.data(), extra,
xmit.data() + 10 + CommandOverhead + PacketOverhead + 32);
return xmit;
}
void
OutboundMessage::Completed()
{
if(m_Completed)
{
m_Completed(ILinkSession::DeliveryStatus::eDeliverySuccess);
}
m_Completed = nullptr;
}
bool
OutboundMessage::ShouldFlush(llarp_time_t now) const
{
return now - m_LastFlush >= TXFlushInterval;
}
void
OutboundMessage::Ack(byte_t bitmask)
{
m_Acks = std::bitset< 8 >(bitmask);
}
void
OutboundMessage::FlushUnAcked(
std::function< void(ILinkSession::Packet_t) > sendpkt, llarp_time_t now)
{
/// overhead for a data packet in plaintext
static constexpr size_t Overhead = 10;
uint16_t idx = 0;
const auto datasz = m_Data.size();
while(idx < datasz)
{
if(not m_Acks[idx / FragmentSize])
{
const size_t fragsz =
idx + FragmentSize < datasz ? FragmentSize : datasz - idx;
auto frag = CreatePacket(Command::eDATA, fragsz + Overhead, 0, 0);
htobe16buf(frag.data() + 2 + PacketOverhead, idx);
htobe64buf(frag.data() + 4 + PacketOverhead, m_MsgID);
std::copy(m_Data.begin() + idx, m_Data.begin() + idx + fragsz,
frag.data() + PacketOverhead + Overhead + 2);
sendpkt(std::move(frag));
}
idx += FragmentSize;
}
m_LastFlush = now;
}
bool
OutboundMessage::IsTransmitted() const
{
const auto sz = m_Data.size();
for(uint16_t idx = 0; idx < sz; idx += FragmentSize)
{
if(not m_Acks.test(idx / FragmentSize))
return false;
}
return true;
}
bool
OutboundMessage::IsTimedOut(const llarp_time_t now) const
{
// TODO: make configurable by outbound message deliverer
return now > m_StartedAt && now - m_StartedAt > DeliveryTimeout;
}
void
OutboundMessage::InformTimeout()
{
if(m_Completed)
{
m_Completed(ILinkSession::DeliveryStatus::eDeliveryDropped);
}
m_Completed = nullptr;
}
InboundMessage::InboundMessage(uint64_t msgid, uint16_t sz, ShortHash h,
llarp_time_t now)
: m_Data(size_t{sz})
, m_Digset{std::move(h)}
, m_MsgID(msgid)
, m_LastActiveAt{now}
{
}
void
InboundMessage::HandleData(uint16_t idx, const llarp_buffer_t &buf,
llarp_time_t now)
{
if(idx + buf.sz > m_Data.size())
{
LogWarn("invalid fragment offset ", idx);
return;
}
byte_t *dst = m_Data.data() + idx;
std::copy_n(buf.base, buf.sz, dst);
m_Acks.set(idx / FragmentSize);
LogDebug("got fragment ", idx / FragmentSize);
m_LastActiveAt = now;
}
ILinkSession::Packet_t
InboundMessage::ACKS() const
{
auto acks = CreatePacket(Command::eACKS, 9);
htobe64buf(acks.data() + CommandOverhead + PacketOverhead, m_MsgID);
acks[PacketOverhead + 10] = AcksBitmask();
return acks;
}
byte_t
InboundMessage::AcksBitmask() const
{
return byte_t{(byte_t)m_Acks.to_ulong()};
}
bool
InboundMessage::IsCompleted() const
{
const auto sz = m_Data.size();
for(size_t idx = 0; idx < sz; idx += FragmentSize)
{
if(not m_Acks.test(idx / FragmentSize))
return false;
}
return true;
}
bool
InboundMessage::ShouldSendACKS(llarp_time_t now) const
{
return now > m_LastACKSent + ACKResendInterval;
}
bool
InboundMessage::IsTimedOut(const llarp_time_t now) const
{
return now > m_LastActiveAt && now - m_LastActiveAt > DeliveryTimeout;
}
void
InboundMessage::SendACKS(
std::function< void(ILinkSession::Packet_t) > sendpkt, llarp_time_t now)
{
sendpkt(ACKS());
m_LastACKSent = now;
}
bool
InboundMessage::Verify() const
{
ShortHash gotten;
const llarp_buffer_t buf(m_Data);
CryptoManager::instance()->shorthash(gotten, buf);
return gotten == m_Digset;
}
} // namespace iwp
} // namespace llarp