lokinet/llarp/dns/server.cpp
2022-10-17 19:05:30 -04:00

733 lines
20 KiB
C++

#include "server.hpp"
#include <llarp/constants/platform.hpp>
#include <llarp/constants/apple.hpp>
#include "dns.hpp"
#include <iterator>
#include <llarp/crypto/crypto.hpp>
#include <array>
#include <stdexcept>
#include <utility>
#include <llarp/ev/udp_handle.hpp>
#include <optional>
#include <memory>
#include <unbound.h>
#include <uvw.hpp>
#include "oxen/log.hpp"
#include "sd_platform.hpp"
#include "nm_platform.hpp"
#include "win32_platform.hpp"
namespace llarp::dns
{
static auto logcat = log::Cat("dns");
void
QueryJob_Base::Cancel() const
{
Message reply{m_Query};
reply.AddServFail();
SendReply(reply.ToBuffer());
}
/// sucks up udp packets from a bound socket and feeds it to a server
class UDPReader : public PacketSource_Base, public std::enable_shared_from_this<UDPReader>
{
Server& m_DNS;
std::shared_ptr<llarp::UDPHandle> m_udp;
SockAddr m_LocalAddr;
public:
explicit UDPReader(Server& dns, const EventLoop_ptr& loop, llarp::SockAddr bindaddr)
: m_DNS{dns}
{
m_udp = loop->make_udp([&](auto&, SockAddr src, llarp::OwnedBuffer buf) {
if (src == m_LocalAddr)
return;
if (not m_DNS.MaybeHandlePacket(shared_from_this(), m_LocalAddr, src, std::move(buf)))
{
log::warning(logcat, "did not handle dns packet from {} to {}", src, m_LocalAddr);
}
});
m_udp->listen(bindaddr);
if (auto maybe_addr = BoundOn())
{
m_LocalAddr = *maybe_addr;
}
else
throw std::runtime_error{"cannot find which address our dns socket is bound on"};
}
std::optional<SockAddr>
BoundOn() const override
{
return m_udp->LocalAddr();
}
bool
WouldLoop(const SockAddr& to, const SockAddr&) const override
{
return to != m_LocalAddr;
}
void
SendTo(const SockAddr& to, const SockAddr&, llarp::OwnedBuffer buf) const override
{
m_udp->send(to, std::move(buf));
}
void
Stop() override
{
m_udp->close();
}
};
namespace libunbound
{
class Resolver;
class Query : public QueryJob_Base
{
std::shared_ptr<PacketSource_Base> src;
SockAddr resolverAddr;
SockAddr askerAddr;
public:
explicit Query(
std::weak_ptr<Resolver> parent_,
Message query,
std::shared_ptr<PacketSource_Base> pktsrc,
SockAddr toaddr,
SockAddr fromaddr)
: QueryJob_Base{std::move(query)}
, src{std::move(pktsrc)}
, resolverAddr{std::move(toaddr)}
, askerAddr{std::move(fromaddr)}
, parent{parent_}
{}
std::weak_ptr<Resolver> parent;
int id{};
virtual void
SendReply(llarp::OwnedBuffer replyBuf) const override;
};
/// Resolver_Base that uses libunbound
class Resolver final : public Resolver_Base, public std::enable_shared_from_this<Resolver>
{
ub_ctx* m_ctx = nullptr;
std::weak_ptr<EventLoop> m_Loop;
#ifdef _WIN32
// windows is dumb so we do ub mainloop in a thread
std::thread runner;
std::atomic<bool> running;
#else
std::shared_ptr<uvw::PollHandle> m_Poller;
#endif
std::optional<SockAddr> m_LocalAddr;
std::set<int> m_Pending;
struct ub_result_deleter
{
void
operator()(ub_result* ptr)
{
::ub_resolve_free(ptr);
}
};
const net::Platform*
Net_ptr() const
{
return m_Loop.lock()->Net_ptr();
}
static void
Callback(void* data, int err, ub_result* _result)
{
// take ownership of ub_result
std::unique_ptr<ub_result, ub_result_deleter> result{_result};
// take ownership of our query
std::unique_ptr<Query> query{static_cast<Query*>(data)};
if (err)
{
// some kind of error from upstream
log::warning(logcat, "Upstream DNS failure: {}", ub_strerror(err));
query->Cancel();
return;
}
// rewrite response
OwnedBuffer pkt{(const byte_t*)result->answer_packet, (size_t)result->answer_len};
llarp_buffer_t buf{pkt};
MessageHeader hdr;
hdr.Decode(&buf);
hdr.id = query->Underlying().hdr_id;
buf.cur = buf.base;
hdr.Encode(&buf);
// remove pending query
if (auto ptr = query->parent.lock())
ptr->call([id = query->id, ptr]() { ptr->m_Pending.erase(id); });
// send reply
query->SendReply(std::move(pkt));
}
void
AddUpstreamResolver(const SockAddr& dns)
{
std::string str = dns.hostString();
if (const auto port = dns.getPort(); port != 53)
fmt::format_to(std::back_inserter(str), "@{}", port);
if (auto err = ub_ctx_set_fwd(m_ctx, str.c_str()))
{
throw std::runtime_error{
fmt::format("cannot use {} as upstream dns: {}", str, ub_strerror(err))};
}
}
bool
ConfigureAppleTrampoline(const SockAddr& dns)
{
// On Apple, when we turn on exit mode, we tear down and then reestablish the unbound
// resolver: in exit mode, we set use upstream to a localhost trampoline that redirects
// packets through the tunnel. In non-exit mode, we directly use the upstream, so we look
// here for a reconfiguration to use the trampoline port to check which state we're in.
//
// We have to do all this crap because we can't directly connect to upstream from here:
// within the network extension, macOS ignores the tunnel we are managing and so, if we
// didn't do this, all our DNS queries would leak out around the tunnel. Instead we have to
// bounce things through the objective C trampoline code (which is what actually handles the
// upstream querying) so that it can call into Apple's special snowflake API to set up a
// socket that has the magic Apple snowflake sauce added on top so that it actually routes
// through the tunnel instead of around it.
//
// But the trampoline *always* tries to send the packet through the tunnel, and that will
// only work in exit mode.
//
// All of this macos behaviour is all carefully and explicitly documented by Apple with
// plenty of examples and other exposition, of course, just like all of their wonderful new
// APIs to reinvent standard unix interfaces with half-baked replacements.
if constexpr (platform::is_apple)
{
if (dns.hostString() == "127.0.0.1" and dns.getPort() == apple::dns_trampoline_port)
{
// macOS is stupid: the default (0.0.0.0) fails with "send failed: Can't assign
// requested address" when unbound tries to connect to the localhost address using a
// source address of 0.0.0.0. Yay apple.
SetOpt("outgoing-interface:", "127.0.0.1");
// The trampoline expects just a single source port (and sends everything back to it).
SetOpt("outgoing-range:", "1");
SetOpt("outgoing-port-avoid:", "0-65535");
SetOpt("outgoing-port-permit:", "{}", apple::dns_trampoline_source_port);
return true;
}
}
return false;
}
void
ConfigureUpstream(const llarp::DnsConfig& conf)
{
bool is_apple_tramp = false;
// set up forward dns
for (const auto& dns : conf.m_upstreamDNS)
{
AddUpstreamResolver(dns);
is_apple_tramp = is_apple_tramp or ConfigureAppleTrampoline(dns);
}
if (auto maybe_addr = conf.m_QueryBind; maybe_addr and not is_apple_tramp)
{
SockAddr addr{*maybe_addr};
std::string host{addr.hostString()};
if (addr.getPort() == 0)
{
// unbound manages their own sockets because of COURSE it does. so we find an open port
// on our system and use it so we KNOW what it is before giving it to unbound to
// explicitly bind to JUST that port.
auto fd = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
#ifdef _WIN32
if (fd == INVALID_SOCKET)
#else
if (fd == -1)
#endif
{
throw std::invalid_argument{
fmt::format("Failed to create UDP socket for unbound: {}", strerror(errno))};
}
#ifdef _WIN32
#define CLOSE closesocket
#else
#define CLOSE close
#endif
if (0 != bind(fd, static_cast<const sockaddr*>(addr), addr.sockaddr_len()))
{
CLOSE(fd);
throw std::invalid_argument{
fmt::format("Failed to bind UDP socket for unbound: {}", strerror(errno))};
}
struct sockaddr_storage sas;
auto* sa = reinterpret_cast<struct sockaddr*>(&sas);
socklen_t sa_len = sizeof(sas);
int rc = getsockname(fd, sa, &sa_len);
CLOSE(fd);
#undef CLOSE
if (rc != 0)
{
throw std::invalid_argument{
fmt::format("Failed to query UDP port for unbound: {}", strerror(errno))};
}
addr = SockAddr{*sa};
}
m_LocalAddr = addr;
log::info(logcat, "sending dns queries from {}:{}", host, addr.getPort());
// set up query bind port if needed
SetOpt("outgoing-interface:", host);
SetOpt("outgoing-range:", "1");
SetOpt("outgoing-port-avoid:", "0-65535");
SetOpt("outgoing-port-permit:", "{}", addr.getPort());
}
}
void
SetOpt(const std::string& key, const std::string& val)
{
ub_ctx_set_option(m_ctx, key.c_str(), val.c_str());
}
// Wrapper around the above that takes 3+ arguments: the 2nd arg gets formatted with the
// remaining args, and the formatted string passed to the above as `val`.
template <typename... FmtArgs, std::enable_if_t<sizeof...(FmtArgs), int> = 0>
void
SetOpt(const std::string& key, std::string_view format, FmtArgs&&... args)
{
SetOpt(key, fmt::format(format, std::forward<FmtArgs>(args)...));
}
// Copy of the DNS config (a copy because on some platforms, like Apple, we change the applied
// upstream DNS settings when turning on/off exit mode).
llarp::DnsConfig m_conf;
public:
explicit Resolver(const EventLoop_ptr& loop, llarp::DnsConfig conf)
: m_Loop{loop}, m_conf{std::move(conf)}
{
Up(m_conf);
}
~Resolver() override
{
Down();
}
std::string_view
ResolverName() const override
{
return "unbound";
}
virtual std::optional<SockAddr>
GetLocalAddr() const override
{
return m_LocalAddr;
}
void
Up(const llarp::DnsConfig& conf)
{
if (m_ctx)
throw std::logic_error{"Internal error: attempt to Up() dns server multiple times"};
m_ctx = ::ub_ctx_create();
// set libunbound settings
SetOpt("do-tcp:", "no");
for (const auto& [k, v] : conf.m_ExtraOpts)
SetOpt(k, v);
// add host files
for (const auto& file : conf.m_hostfiles)
{
const auto str = file.u8string();
if (auto ret = ub_ctx_hosts(m_ctx, str.c_str()))
{
throw std::runtime_error{
fmt::format("Failed to add host file {}: {}", file, ub_strerror(ret))};
}
}
ConfigureUpstream(conf);
// set async
ub_ctx_async(m_ctx, 1);
// setup mainloop
#ifdef _WIN32
running = true;
runner = std::thread{[this]() {
while (running)
{
ub_wait(m_ctx);
std::this_thread::sleep_for(10ms);
}
ub_process(m_ctx);
}};
#else
if (auto loop = m_Loop.lock())
{
if (auto loop_ptr = loop->MaybeGetUVWLoop())
{
m_Poller = loop_ptr->resource<uvw::PollHandle>(ub_fd(m_ctx));
m_Poller->on<uvw::PollEvent>([this](auto&, auto&) { ub_process(m_ctx); });
m_Poller->start(uvw::PollHandle::Event::READABLE);
return;
}
}
throw std::runtime_error{"no uvw loop"};
#endif
}
void
Down() override
{
#ifdef _WIN32
if (running.exchange(false))
runner.join();
#else
if (m_Poller)
m_Poller->close();
#endif
if (m_ctx)
{
// cancel pending queries
// make copy as ub_cancel modifies m_Pending
const auto pending = m_Pending;
for (auto id : pending)
::ub_cancel(m_ctx, id);
m_Pending.clear();
::ub_ctx_delete(m_ctx);
m_ctx = nullptr;
}
}
int
Rank() const override
{
return 10;
}
void
ResetResolver(std::optional<std::vector<SockAddr>> replace_upstream) override
{
Down();
if (replace_upstream)
m_conf.m_upstreamDNS = std::move(*replace_upstream);
Up(m_conf);
}
bool
WouldLoop(const SockAddr& to, const SockAddr& from) const override
{
#if defined(ANDROID)
(void)to;
(void)from;
return false;
#else
const auto& vec = m_conf.m_upstreamDNS;
return std::find(vec.begin(), vec.end(), to) != std::end(vec)
or std::find(vec.begin(), vec.end(), from) != std::end(vec);
#endif
}
template <typename Callable>
void
call(Callable&& f)
{
if (auto loop = m_Loop.lock())
loop->call(std::forward<Callable>(f));
else
log::critical(logcat, "no mainloop?");
}
bool
MaybeHookDNS(
std::shared_ptr<PacketSource_Base> source,
const Message& query,
const SockAddr& to,
const SockAddr& from) override
{
if (WouldLoop(to, from))
return false;
// we use this unique ptr to clean up on fail
auto tmp = std::make_unique<Query>(weak_from_this(), query, source, to, from);
// no questions, send fail
if (query.questions.empty())
{
tmp->Cancel();
return true;
}
for (const auto& q : query.questions)
{
// dont process .loki or .snode
if (q.HasTLD(".loki") or q.HasTLD(".snode"))
{
tmp->Cancel();
return true;
}
}
if (not m_ctx)
{
// we are down
tmp->Cancel();
return true;
}
const auto& q = query.questions[0];
if (auto err = ub_resolve_async(
m_ctx,
q.Name().c_str(),
q.qtype,
q.qclass,
tmp.get(),
&Resolver::Callback,
&tmp->id))
{
log::warning(
logcat, "failed to send upstream query with libunbound: {}", ub_strerror(err));
tmp->Cancel();
}
else
{
m_Pending.insert(tmp->id);
// Leak the bare pointer we gave to unbound; we'll recapture it in Callback
(void)tmp.release();
}
return true;
}
};
void
Query::SendReply(llarp::OwnedBuffer replyBuf) const
{
if (auto ptr = parent.lock())
{
ptr->call([src = src, from = resolverAddr, to = askerAddr, buf = replyBuf.copy()] {
src->SendTo(to, from, OwnedBuffer::copy_from(buf));
});
}
else
log::error(logcat, "no source or parent");
}
} // namespace libunbound
Server::Server(EventLoop_ptr loop, llarp::DnsConfig conf, unsigned int netif)
: m_Loop{std::move(loop)}
, m_Config{std::move(conf)}
, m_Platform{CreatePlatform()}
, m_NetIfIndex{std::move(netif)}
{}
std::vector<std::weak_ptr<Resolver_Base>>
Server::GetAllResolvers() const
{
return {m_Resolvers.begin(), m_Resolvers.end()};
}
void
Server::Start()
{
// set up udp sockets
for (const auto& addr : m_Config.m_bind)
{
if (auto ptr = MakePacketSourceOn(addr, m_Config))
AddPacketSource(std::move(ptr));
}
// add default resolver as needed
if (auto ptr = MakeDefaultResolver())
AddResolver(ptr);
}
std::shared_ptr<I_Platform>
Server::CreatePlatform() const
{
auto plat = std::make_shared<Multi_Platform>();
if constexpr (llarp::platform::has_systemd)
{
plat->add_impl(std::make_unique<SD_Platform_t>());
plat->add_impl(std::make_unique<NM_Platform_t>());
}
if constexpr (llarp::platform::is_windows)
{
plat->add_impl(std::make_unique<Win32_Platform_t>());
}
return plat;
}
std::shared_ptr<PacketSource_Base>
Server::MakePacketSourceOn(const llarp::SockAddr& addr, const llarp::DnsConfig&)
{
return std::make_shared<UDPReader>(*this, m_Loop, addr);
}
std::shared_ptr<Resolver_Base>
Server::MakeDefaultResolver()
{
if (m_Config.m_upstreamDNS.empty())
{
log::info(
logcat,
"explicitly no upstream dns providers specified, we will not resolve anything but .loki "
"and .snode");
return nullptr;
}
return std::make_shared<libunbound::Resolver>(m_Loop, m_Config);
}
std::vector<SockAddr>
Server::BoundPacketSourceAddrs() const
{
std::vector<SockAddr> addrs;
for (const auto& src : m_PacketSources)
{
if (auto ptr = src.lock())
if (auto maybe_addr = ptr->BoundOn())
addrs.emplace_back(*maybe_addr);
}
return addrs;
}
std::optional<SockAddr>
Server::FirstBoundPacketSourceAddr() const
{
for (const auto& src : m_PacketSources)
{
if (auto ptr = src.lock())
if (auto bound = ptr->BoundOn())
return bound;
}
return std::nullopt;
}
void
Server::AddResolver(std::weak_ptr<Resolver_Base> resolver)
{
m_Resolvers.insert(resolver);
}
void
Server::AddResolver(std::shared_ptr<Resolver_Base> resolver)
{
m_OwnedResolvers.insert(resolver);
AddResolver(std::weak_ptr<Resolver_Base>{resolver});
}
void
Server::AddPacketSource(std::weak_ptr<PacketSource_Base> pkt)
{
m_PacketSources.push_back(pkt);
}
void
Server::AddPacketSource(std::shared_ptr<PacketSource_Base> pkt)
{
AddPacketSource(std::weak_ptr<PacketSource_Base>{pkt});
m_OwnedPacketSources.push_back(std::move(pkt));
}
void
Server::Stop()
{
for (const auto& resolver : m_Resolvers)
{
if (auto ptr = resolver.lock())
ptr->Down();
}
}
void
Server::Reset()
{
for (const auto& resolver : m_Resolvers)
{
if (auto ptr = resolver.lock())
ptr->ResetResolver();
}
}
void
Server::SetDNSMode(bool all_queries)
{
if (auto maybe_addr = FirstBoundPacketSourceAddr())
m_Platform->set_resolver(m_NetIfIndex, *maybe_addr, all_queries);
}
bool
Server::MaybeHandlePacket(
std::shared_ptr<PacketSource_Base> ptr,
const SockAddr& to,
const SockAddr& from,
llarp::OwnedBuffer buf)
{
// dont process to prevent feedback loop
if (ptr->WouldLoop(to, from))
{
log::warning(logcat, "preventing dns packet replay to={} from={}", to, from);
return false;
}
auto maybe = MaybeParseDNSMessage(buf);
if (not maybe)
{
log::warning(logcat, "invalid dns message format from {} to dns listener on {}", from, to);
return false;
}
auto& msg = *maybe;
// we don't provide a DoH resolver because it requires verified TLS
// TLS needs X509/ASN.1-DER and opting into the Root CA Cabal
// thankfully mozilla added a backdoor that allows ISPs to turn it off
// so we disable DoH for firefox using mozilla's ISP backdoor
// see: https://github.com/oxen-io/lokinet/issues/832
for (const auto& q : msg.questions)
{
// is this firefox looking for their backdoor record?
if (q.IsName("use-application-dns.net"))
{
// yea it is, let's turn off DoH because god is dead.
msg.AddNXReply();
// press F to pay respects and send it back where it came from
ptr->SendTo(from, to, msg.ToBuffer());
return true;
}
}
for (const auto& resolver : m_Resolvers)
{
if (auto res_ptr = resolver.lock())
{
log::debug(
logcat, "check resolver {} for dns from {} to {}", res_ptr->ResolverName(), from, to);
if (res_ptr->MaybeHookDNS(ptr, msg, to, from))
return true;
}
}
return false;
}
} // namespace llarp::dns