lokinet/llarp/win32/windivert.cpp
2022-11-22 18:39:22 -05:00

309 lines
8.7 KiB
C++

#include <winsock2.h>
#include <windows.h>
#include "windivert.hpp"
#include "dll.hpp"
#include "handle.hpp"
#include <llarp/util/thread/queue.hpp>
#include <llarp/util/logging.hpp>
#include <llarp/util/logging/buffer.hpp>
#include <thread>
extern "C"
{
#include <windivert.h>
}
namespace
{
using namespace oxen::log::literals;
std::string
windivert_addr_to_string(const WINDIVERT_ADDRESS& addr)
{
std::string layer_str{};
std::string ifidx_str{};
switch (addr.Layer)
{
case WINDIVERT_LAYER_NETWORK:
layer_str = "WINDIVERT_LAYER_NETWORK";
ifidx_str =
"Network: [IfIdx: {}, SubIfIdx: {}]"_format(addr.Network.IfIdx, addr.Network.SubIfIdx);
break;
case WINDIVERT_LAYER_NETWORK_FORWARD:
layer_str = "WINDIVERT_LAYER_NETWORK_FORWARD";
break;
case WINDIVERT_LAYER_FLOW:
layer_str = "WINDIVERT_LAYER_FLOW";
break;
case WINDIVERT_LAYER_SOCKET:
layer_str = "WINDIVERT_LAYER_SOCKET";
break;
case WINDIVERT_LAYER_REFLECT:
layer_str = "WINDIVERT_LAYER_REFLECT";
break;
default:
layer_str = "unknown";
}
std::string event_str{};
switch (addr.Event)
{
case WINDIVERT_EVENT_NETWORK_PACKET:
event_str = "WINDIVERT_EVENT_NETWORK_PACKET";
break;
case WINDIVERT_EVENT_FLOW_ESTABLISHED:
event_str = "WINDIVERT_EVENT_FLOW_ESTABLISHED";
break;
case WINDIVERT_EVENT_FLOW_DELETED:
event_str = "WINDIVERT_EVENT_FLOW_DELETED";
break;
case WINDIVERT_EVENT_SOCKET_BIND:
event_str = "WINDIVERT_EVENT_SOCKET_BIND";
break;
case WINDIVERT_EVENT_SOCKET_CONNECT:
event_str = "WINDIVERT_EVENT_SOCKET_CONNECT";
break;
case WINDIVERT_EVENT_SOCKET_LISTEN:
event_str = "WINDIVERT_EVENT_SOCKET_LISTEN";
break;
case WINDIVERT_EVENT_SOCKET_ACCEPT:
event_str = "WINDIVERT_EVENT_SOCKET_ACCEPT";
break;
case WINDIVERT_EVENT_SOCKET_CLOSE:
event_str = "WINDIVERT_EVENT_SOCKET_CLOSE";
break;
case WINDIVERT_EVENT_REFLECT_OPEN:
event_str = "WINDIVERT_EVENT_REFLECT_OPEN";
break;
case WINDIVERT_EVENT_REFLECT_CLOSE:
event_str = "WINDIVERT_EVENT_REFLECT_CLOSE";
break;
default:
event_str = "unknown";
}
return fmt::format(
"Windivert WINDIVERT_ADDRESS -- Timestamp: {}, Layer: {}, Event: {}, Sniffed: {}, "
"Outbound: {}, Loopback: {}, Imposter: {}, IPv6: {}, IPChecksum: {}, TCPChecksum: {}, "
"UDPChecksum: {}, {}",
addr.Timestamp,
layer_str,
event_str,
addr.Sniffed ? "true" : "false",
addr.Outbound ? "true" : "false",
addr.Loopback ? "true" : "false",
addr.Impostor ? "true" : "false",
addr.IPv6 ? "true" : "false",
addr.IPChecksum ? "true" : "false",
addr.TCPChecksum ? "true" : "false",
addr.UDPChecksum ? "true" : "false",
ifidx_str);
}
} // namespace
namespace llarp::win32
{
static auto logcat = log::Cat("windivert");
namespace wd
{
namespace
{
decltype(::WinDivertOpen)* open = nullptr;
decltype(::WinDivertClose)* close = nullptr;
decltype(::WinDivertShutdown)* shutdown = nullptr;
decltype(::WinDivertHelperCalcChecksums)* calc_checksum = nullptr;
decltype(::WinDivertSend)* send = nullptr;
decltype(::WinDivertRecv)* recv = nullptr;
decltype(::WinDivertHelperFormatIPv4Address)* format_ip4 = nullptr;
decltype(::WinDivertHelperFormatIPv6Address)* format_ip6 = nullptr;
void
Initialize()
{
if (wd::open)
return;
// clang-format off
load_dll_functions(
"WinDivert.dll",
"WinDivertOpen", open,
"WinDivertClose", close,
"WinDivertShutdown", shutdown,
"WinDivertHelperCalcChecksums", calc_checksum,
"WinDivertSend", send,
"WinDivertRecv", recv,
"WinDivertHelperFormatIPv4Address", format_ip4,
"WinDivertHelperFormatIPv6Address", format_ip6);
// clang-format on
}
} // namespace
struct Packet
{
std::vector<byte_t> pkt;
WINDIVERT_ADDRESS addr;
};
class IO : public llarp::vpn::I_Packet_IO
{
std::function<void(void)> m_Wake;
HANDLE m_Handle;
std::thread m_Runner;
std::atomic<bool> m_Shutdown{false};
thread::Queue<Packet> m_RecvQueue;
// dns packet queue size
static constexpr size_t recv_queue_size = 64;
public:
IO(const std::string& filter_spec, std::function<void(void)> wake)
: m_Wake{wake}, m_RecvQueue{recv_queue_size}
{
wd::Initialize();
log::info(logcat, "load windivert with filterspec: '{}'", filter_spec);
m_Handle = wd::open(filter_spec.c_str(), WINDIVERT_LAYER_NETWORK, 0, 0);
if (auto err = GetLastError())
throw win32::error{err, "cannot open windivert handle"};
}
~IO()
{
wd::close(m_Handle);
}
std::optional<Packet>
recv_packet() const
{
WINDIVERT_ADDRESS addr{};
std::vector<byte_t> pkt;
pkt.resize(1500); // net::IPPacket::MaxSize
UINT sz{};
if (not wd::recv(m_Handle, pkt.data(), pkt.size(), &sz, &addr))
{
auto err = GetLastError();
if (err == ERROR_NO_DATA)
// The handle is shut down and the packet queue is empty
return std::nullopt;
if (err == ERROR_BROKEN_PIPE)
{
SetLastError(0);
return std::nullopt;
}
log::critical(logcat, "error receiving packet: {}", err);
throw win32::error{
err, fmt::format("failed to receive packet from windivert (code={})", err)};
}
pkt.resize(sz);
log::trace(logcat, "got packet of size {}B", sz);
log::trace(logcat, "{}", windivert_addr_to_string(addr));
return Packet{std::move(pkt), std::move(addr)};
}
void
send_packet(Packet w_pkt) const
{
auto& pkt = w_pkt.pkt;
auto* addr = &w_pkt.addr;
addr->Outbound = !addr->Outbound; // re-used from recv, so invert direction
log::trace(logcat, "send dns packet of size {}B", pkt.size());
log::trace(logcat, "{}", windivert_addr_to_string(w_pkt.addr));
UINT sz{};
// recalc IP packet checksum in case it needs it
wd::calc_checksum(pkt.data(), pkt.size(), addr, 0);
if (!wd::send(m_Handle, pkt.data(), pkt.size(), &sz, addr))
throw win32::error{"windivert send failed"};
}
virtual int
PollFD() const
{
return -1;
}
bool
WritePacket(net::IPPacket) override
{
return false;
}
net::IPPacket
ReadNextPacket() override
{
auto w_pkt = m_RecvQueue.tryPopFront();
if (not w_pkt)
return net::IPPacket{};
net::IPPacket pkt{std::move(w_pkt->pkt)};
pkt.reply = [this, addr = std::move(w_pkt->addr)](auto pkt) {
if (!m_Shutdown)
send_packet(Packet{pkt.steal(), addr});
};
return pkt;
}
void
Start() override
{
log::info(logcat, "starting windivert");
if (m_Runner.joinable())
throw std::runtime_error{"windivert thread is already running"};
auto read_loop = [this]() {
log::debug(logcat, "windivert read loop start");
while (true)
{
// in the read loop, read packets until they stop coming in
// each packet is sent off
if (auto maybe_pkt = recv_packet())
{
m_RecvQueue.pushBack(std::move(*maybe_pkt));
// wake up event loop
m_Wake();
}
else // leave loop on read fail
break;
}
log::debug(logcat, "windivert read loop end");
};
m_Runner = std::thread{std::move(read_loop)};
}
void
Stop() override
{
log::info(logcat, "stopping windivert");
m_Shutdown = true;
wd::shutdown(m_Handle, WINDIVERT_SHUTDOWN_BOTH);
m_Runner.join();
}
};
} // namespace wd
namespace WinDivert
{
std::string
format_ip(uint32_t ip)
{
std::array<char, 128> buf;
wd::format_ip4(ip, buf.data(), buf.size());
return buf.data();
}
std::shared_ptr<llarp::vpn::I_Packet_IO>
make_interceptor(const std::string& filter_spec, std::function<void(void)> wake)
{
return std::make_shared<wd::IO>(filter_spec, wake);
}
} // namespace WinDivert
} // namespace llarp::win32