lokinet/llarp/rpc/lokid_rpc_client.cpp
2020-07-20 13:48:57 -06:00

261 lines
7.8 KiB
C++

#include <rpc/lokid_rpc_client.hpp>
#include <util/logging/logger.hpp>
#include <router/abstractrouter.hpp>
#include <nlohmann/json.hpp>
#include <util/time.hpp>
#include <util/thread/logic.hpp>
namespace llarp
{
namespace rpc
{
static lokimq::LogLevel
toLokiMQLogLevel(llarp::LogLevel level)
{
switch (level)
{
case eLogError:
return lokimq::LogLevel::error;
case eLogWarn:
return lokimq::LogLevel::warn;
case eLogInfo:
return lokimq::LogLevel::info;
case eLogDebug:
return lokimq::LogLevel::debug;
case eLogNone:
default:
return lokimq::LogLevel::trace;
}
}
LokidRpcClient::LokidRpcClient(LMQ_ptr lmq, AbstractRouter* r)
: m_lokiMQ(std::move(lmq)), m_Router(r)
{
// m_lokiMQ->log_level(toLokiMQLogLevel(LogLevel::Instance().curLevel));
// TODO: proper auth here
auto lokidCategory = m_lokiMQ->add_category("lokid", lokimq::Access{lokimq::AuthLevel::none});
lokidCategory.add_request_command(
"get_peer_stats", [this](lokimq::Message& m) { HandleGetPeerStats(m); });
}
void
LokidRpcClient::ConnectAsync(lokimq::address url)
{
LogInfo("connecting to lokid via LMQ at ", url);
m_lokiMQ->connect_remote(
url,
[self = shared_from_this()](lokimq::ConnectionID c) {
self->m_Connection = std::move(c);
self->Connected();
},
[self = shared_from_this(), url](lokimq::ConnectionID, std::string_view f) {
llarp::LogWarn("Failed to connect to lokid: ", f);
LogicCall(self->m_Router->logic(), [self, url]() { self->ConnectAsync(url); });
});
}
void
LokidRpcClient::Command(std::string_view cmd)
{
LogDebug("lokid command: ", cmd);
m_lokiMQ->send(*m_Connection, std::move(cmd));
}
void
LokidRpcClient::UpdateServiceNodeList()
{
nlohmann::json request;
request["pubkey_ed25519"] = true;
request["active_only"] = true;
if (not m_CurrentBlockHash.empty())
request["poll_block_hash"] = m_CurrentBlockHash;
Request(
"rpc.get_service_nodes",
[self = shared_from_this()](bool success, std::vector<std::string> data) {
if (not success)
{
LogWarn("failed to update service node list");
return;
}
if (data.size() < 2)
{
LogWarn("lokid gave empty reply for service node list");
return;
}
try
{
self->HandleGotServiceNodeList(std::move(data[1]));
}
catch (std::exception& ex)
{
LogError("failed to process service node list: ", ex.what());
}
},
request.dump());
}
void
LokidRpcClient::Connected()
{
constexpr auto PingInterval = 1min;
constexpr auto NodeListUpdateInterval = 30s;
auto makePingRequest = [self = shared_from_this()]() {
nlohmann::json payload = {{"version", {VERSION[0], VERSION[1], VERSION[2]}}};
self->Request(
"admin.lokinet_ping",
[](bool success, std::vector<std::string> data) {
(void)data;
LogDebug("Received response for ping. Successful: ", success);
},
payload.dump());
};
makePingRequest();
m_lokiMQ->add_timer(makePingRequest, PingInterval);
m_lokiMQ->add_timer(
[self = shared_from_this()]() { self->UpdateServiceNodeList(); }, NodeListUpdateInterval);
UpdateServiceNodeList();
}
void
LokidRpcClient::HandleGotServiceNodeList(std::string data)
{
auto j = nlohmann::json::parse(std::move(data));
{
const auto itr = j.find("block_hash");
if (itr != j.end())
{
m_CurrentBlockHash = itr->get<std::string>();
}
}
{
const auto itr = j.find("unchanged");
if (itr != j.end())
{
if (itr->get<bool>())
{
LogDebug("service node list unchanged");
return;
}
}
}
std::vector<RouterID> nodeList;
{
const auto itr = j.find("service_node_states");
if (itr != j.end() and itr->is_array())
{
for (auto j_itr = itr->begin(); j_itr != itr->end(); j_itr++)
{
const auto ed_itr = j_itr->find("pubkey_ed25519");
if (ed_itr == j_itr->end() or not ed_itr->is_string())
continue;
RouterID rid;
if (rid.FromHex(ed_itr->get<std::string>()))
nodeList.emplace_back(std::move(rid));
}
}
}
if (nodeList.empty())
{
LogWarn("got empty service node list from lokid");
return;
}
// inform router about the new list
LogicCall(m_Router->logic(), [r = m_Router, nodeList = std::move(nodeList)]() mutable {
r->SetRouterWhitelist(std::move(nodeList));
});
}
SecretKey
LokidRpcClient::ObtainIdentityKey()
{
std::promise<SecretKey> promise;
Request(
"admin.get_service_privkeys",
[self = shared_from_this(), &promise](bool success, std::vector<std::string> data) {
try
{
if (not success)
{
throw std::runtime_error(
"failed to get private key request "
"failed");
}
if (data.empty() or data.size() < 2)
{
throw std::runtime_error(
"failed to get private key request "
"data empty");
}
const auto j = nlohmann::json::parse(data[1]);
SecretKey k;
if (not k.FromHex(j.at("service_node_ed25519_privkey").get<std::string>()))
{
throw std::runtime_error("failed to parse private key");
}
promise.set_value(k);
}
catch (const std::exception& e)
{
LogWarn("Caught exception while trying to request admin keys: ", e.what());
promise.set_exception(std::current_exception());
}
catch (...)
{
LogWarn("Caught non-standard exception while trying to request admin keys");
promise.set_exception(std::current_exception());
}
});
auto ftr = promise.get_future();
return ftr.get();
}
void
LokidRpcClient::HandleGetPeerStats(lokimq::Message& msg)
{
LogInfo("Got request for peer stats (size: ", msg.data.size(), ")");
for (auto str : msg.data)
{
LogInfo(" :", str);
}
assert(m_Router != nullptr);
if (not m_Router->peerDb())
{
LogWarn("HandleGetPeerStats called when router has no peerDb set up.");
throw std::runtime_error("Cannot handle get_peer_stats request when no peer db available");
}
try
{
// TODO: parse input, expect list of peers to query for
auto statsList = m_Router->peerDb()->listAllPeerStats();
int32_t bufSize =
256 + (statsList.size() * 1024); // TODO: tune this or allow to grow dynamically
auto buf = std::unique_ptr<uint8_t[]>(new uint8_t[bufSize]);
llarp_buffer_t llarpBuf(buf.get(), bufSize);
PeerStats::BEncodeList(statsList, &llarpBuf);
msg.send_reply(std::string_view((const char*)llarpBuf.base, llarpBuf.cur - llarpBuf.base));
}
catch (const std::exception& e)
{
LogError("Failed to handle get_peer_stats request: ", e.what());
// TODO: reply with explicit rejection to make lokid's life easier
}
}
} // namespace rpc
} // namespace llarp