lokinet/llarp/router_contact.cpp

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#include "router_contact.hpp"
#include "constants/version.hpp"
#include "crypto/crypto.hpp"
#include "net/net.hpp"
#include "util/bencode.hpp"
#include "util/buffer.hpp"
#include "util/file.hpp"
#include "util/time.hpp"
#include <oxenc/bt_serialize.h>
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namespace llarp
{
// RouterContact::RouterContact(std::string buf)
// {
// try
// {
// oxenc::bt_list_consumer btlc{buf};
// // signature.from_string(btlc.consume_string());
// signed_bt_dict = btlc.consume_string();
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// // TODO: parse bt dict
// }
// catch (...)
// {
// log::warning(llarp_cat, "Error: RouterContact failed to populate bt encoded contents!");
// }
// }
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// std::string
// RouterContact::bt_encode() const
// {
// oxenc::bt_dict_producer btdp;
// bt_encode(btdp);
// return std::move(btdp).str();
// }
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void
RouterContact::bt_load(oxenc::bt_dict_consumer& data)
{
if (int rc_ver = data.require<uint8_t>(""); rc_ver != RC_VERSION)
throw std::runtime_error{"Invalid RC: do not know how to parse v{} RCs"_format(rc_ver)};
auto ipv4_port = data.require<std::string_view>("4");
if (ipv4_port.size() != 6)
throw std::runtime_error{
"Invalid RC address: expected 6-byte IPv4 IP/port, got {}"_format(ipv4_port.size())};
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sockaddr_in s4;
s4.sin_family = AF_INET;
std::memcpy(&s4.sin_addr.s_addr, ipv4_port.data(), 4);
std::memcpy(&s4.sin_port, ipv4_port.data() + 4, 2);
_addr = oxen::quic::Address{&s4};
if (!_addr.is_public())
throw std::runtime_error{"Invalid RC: IPv4 address is not a publicly routable IP"};
if (auto ipv6_port = data.maybe<std::string_view>("6"))
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{
if (ipv6_port->size() != 18)
throw std::runtime_error{
"Invalid RC address: expected 18-byte IPv6 IP/port, got {}"_format(ipv6_port->size())};
sockaddr_in6 s6{};
s6.sin6_family = AF_INET6;
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std::memcpy(&s6.sin6_addr.s6_addr, ipv6_port->data(), 16);
std::memcpy(&s6.sin6_port, ipv6_port->data() + 16, 2);
_addr6.emplace(&s6);
if (!_addr6->is_public())
throw std::runtime_error{"Invalid RC: IPv6 address is not a publicly routable IP"};
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}
else
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{
_addr6.reset();
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}
auto netid = data.maybe<std::string_view>("i").value_or(llarp::LOKINET_DEFAULT_NETID);
if (netid != ACTIVE_NETID)
throw std::runtime_error{
"Invalid RC netid: expected {}, got {}; this is an RC for a different network!"_format(
ACTIVE_NETID, netid)};
auto pk = data.require<std::string_view>("p");
if (pk.size() != RouterID::SIZE)
throw std::runtime_error{"Invalid RC: router id has invalid size {}"_format(pk.size())};
std::memcpy(_router_id.data(), pk.data(), RouterID::SIZE);
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_timestamp = rc_time{std::chrono::seconds{data.require<int64_t>("t")}};
auto ver = data.require<ustring_view>("v");
if (ver.size() != 3)
throw std::runtime_error{
"Invalid RC router version: received {} bytes (!= 3)"_format(ver.size())};
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for (int i = 0; i < 3; i++)
_router_version[i] = ver[i];
}
bool
RouterContact::write(const fs::path& fname) const
{
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auto bte = view();
try
{
util::buffer_to_file(fname, bte.data(), bte.size());
}
catch (const std::exception& e)
{
log::error(logcat, "Failed to write RC to {}: {}", fname, e.what());
return false;
}
return true;
}
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util::StatusObject
RouterContact::extract_status() const
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{
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util::StatusObject obj{
{"lastUpdated", _timestamp.time_since_epoch().count()},
{"publicRouter", is_public_router()},
{"identity", _router_id.ToString()},
{"address", _addr.to_string()}};
// if (routerVersion)
// {
// obj["routerVersion"] = routerVersion->ToString();
// }
// std::vector<util::StatusObject> srv;
// for (const auto& record : srvRecords)
// {
// srv.emplace_back(record.ExtractStatus());
// }
// obj["srvRecords"] = srv;
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return obj;
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}
bool
RouterContact::BDecode(llarp_buffer_t* buf)
{
// TODO: unfuck all of this
(void)buf;
// clear();
// if (*buf->cur == 'd') // old format
// {
// return DecodeVersion_0(buf);
// }
// else if (*buf->cur != 'l') // if not dict, should be new format and start with list
// {
// return false;
// }
// try
// {
// std::string_view buf_view(reinterpret_cast<char*>(buf->cur), buf->size_left());
// oxenc::bt_list_consumer btlist(buf_view);
// uint64_t outer_version = btlist.consume_integer<uint64_t>();
// if (outer_version == 1)
// {
// bool decode_result = DecodeVersion_1(btlist);
// // advance the llarp_buffer_t since lokimq serialization is unaware of it.
// // FIXME: this is broken (current_buffer got dropped), but the whole thing is getting
// // replaced.
// // buf->cur += btlist.
// // current_buffer().data() - buf_view.data() + 1;
// return decode_result;
// }
// else
// {
// log::warning(logcat, "Received RouterContact with unkown version ({})", outer_version);
// return false;
// }
// }
// catch (const std::exception& e)
// {
// log::debug(logcat, "RouterContact::BDecode failed: {}", e.what());
// }
return false;
}
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bool
RouterContact::decode_key(const llarp_buffer_t& key, llarp_buffer_t* buf)
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{
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bool read = false;
(void)key;
// TOFIX: fuck everything about llarp_buffer_t
// if (!BEncodeMaybeReadDictEntry("a", addr, read, key, buf))
// return false;
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// if (!BEncodeMaybeReadDictEntry("i", netID, read, key, buf))
// return false;
// if (!BEncodeMaybeReadDictEntry("k", _router_id, read, key, buf))
// return false;
// if (key.startswith("r"))
// {
// RouterVersion r;
// if (not r.BDecode(buf))
// return false;
// routerVersion = r;
// return true;
// }
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// if (not BEncodeMaybeReadDictList("s", srvRecords, read, key, buf))
// return false;
// if (!BEncodeMaybeReadDictEntry("p", enckey, read, key, buf))
// return false;
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// if (!BEncodeMaybeReadDictInt("u", _timestamp, read, key, buf))
// return false;
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// if (!BEncodeMaybeReadDictInt("v", version, read, key, buf))
// return false;
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// if (key.startswith("x") and serializeExit)
// {
// return bencode_discard(buf);
// }
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// if (!BEncodeMaybeReadDictEntry("z", signature, read, key, buf))
// return false;
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return read or bencode_discard(buf);
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}
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bool
RouterContact::is_public_router() const
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{
if (_router_version.empty())
return false;
return _addr.is_addressable();
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}
bool
RouterContact::is_expired(llarp_time_t now) const
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{
return age(now) >= _timestamp.time_since_epoch() + LIFETIME;
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}
llarp_time_t
RouterContact::time_to_expiry(llarp_time_t now) const
{
const auto expiry = _timestamp.time_since_epoch() + LIFETIME;
return now < expiry ? expiry - now : 0s;
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}
llarp_time_t
RouterContact::age(llarp_time_t now) const
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{
auto delta = now - _timestamp.time_since_epoch();
return delta > 0s ? delta : 0s;
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}
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bool
RouterContact::expires_within_delta(llarp_time_t now, llarp_time_t dlt) const
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{
return time_to_expiry(now) <= dlt;
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}
static constexpr std::array obsolete_bootstraps = {
"7a16ac0b85290bcf69b2f3b52456d7e989ac8913b4afbb980614e249a3723218"sv,
"e6b3a6fe5e32c379b64212c72232d65b0b88ddf9bbaed4997409d329f8519e0b"sv,
};
bool
RouterContact::is_obsolete_bootstrap() const
{
for (const auto& k : obsolete_bootstraps)
{
if (_router_id.ToHex() == k)
return true;
}
return false;
}
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} // namespace llarp