lokinet/llarp/rpc.cpp

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#include <llarp/rpc.hpp>
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#include "router.hpp"
#ifdef USE_ABYSS
#include <libabyss.hpp>
#endif
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namespace llarp
{
namespace rpc
{
#ifdef USE_ABYSS
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struct CallerHandler : public ::abyss::http::IRPCClientHandler
{
CallerHandler(::abyss::http::ConnImpl* impl)
: ::abyss::http::IRPCClientHandler(impl)
{
}
~CallerHandler()
{
}
void
PopulateReqHeaders(__attribute__((unused)) abyss::http::Headers_t& hdr)
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{
}
};
struct VerifyRouterHandler : public CallerHandler
{
llarp::PubKey pk;
std::function< void(llarp::PubKey, bool) > handler;
~VerifyRouterHandler()
{
}
VerifyRouterHandler(::abyss::http::ConnImpl* impl, const llarp::PubKey& k,
std::function< void(llarp::PubKey, bool) > h)
: CallerHandler(impl), pk(k), handler(h)
{
}
bool
HandleResponse(__attribute__((unused))
const ::abyss::http::RPC_Response& response)
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{
handler(pk, true);
return true;
}
void
HandleError()
{
llarp::LogInfo("failed to verify router ", pk);
handler(pk, false);
}
};
struct CallerImpl : public ::abyss::http::JSONRPC
{
llarp_router* router;
CallerImpl(llarp_router* r) : ::abyss::http::JSONRPC(), router(r)
{
}
void
Tick()
{
Flush();
}
bool
Start(const std::string& remote)
{
return RunAsync(router->netloop, remote);
}
abyss::http::IRPCClientHandler*
NewConn(PubKey k, std::function< void(llarp::PubKey, bool) > handler,
abyss::http::ConnImpl* impl)
{
return new VerifyRouterHandler(impl, k, handler);
}
void
AsyncVerifyRouter(llarp::PubKey pk,
std::function< void(llarp::PubKey, bool) > handler)
{
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handler(pk, true);
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}
~CallerImpl()
{
}
};
struct Handler : public ::abyss::httpd::IRPCHandler
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{
llarp_router* router;
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Handler(::abyss::httpd::ConnImpl* conn, llarp_router* r)
: ::abyss::httpd::IRPCHandler(conn), router(r)
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{
}
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~Handler()
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{
}
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bool
ListExitLevels(Response& resp) const
{
llarp::exit::Context::TrafficStats stats;
router->exitContext.CalculateExitTraffic(stats);
auto& alloc = resp.GetAllocator();
abyss::json::Value exits;
exits.SetArray();
auto itr = stats.begin();
while(itr != stats.end())
{
abyss::json::Value info, ident;
info.SetObject();
ident.SetString(itr->first.ToHex().c_str(), alloc);
info.AddMember("ident", ident, alloc);
info.AddMember("tx", abyss::json::Value(itr->second.first), alloc);
info.AddMember("rx", abyss::json::Value(itr->second.second), alloc);
exits.PushBack(info, alloc);
++itr;
}
resp.AddMember("result", exits, alloc);
return true;
}
bool
ListNeighboors(Response& resp) const
{
auto& alloc = resp.GetAllocator();
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abyss::json::Value peers;
peers.SetArray();
router->ForEachPeer(
[&](const llarp::ILinkSession* session, bool outbound) {
abyss::json::Value peer;
peer.SetObject();
abyss::json::Value ident_val, addr_val;
auto ident = session->GetPubKey().ToHex();
ident_val.SetString(ident.c_str(), alloc);
auto addr = session->GetRemoteEndpoint().ToString();
addr_val.SetString(addr.c_str(), alloc);
peer.AddMember("addr", addr_val, alloc);
peer.AddMember("ident", ident_val, alloc);
peer.AddMember("outbound", abyss::json::Value(outbound), alloc);
peers.PushBack(peer, alloc);
});
resp.AddMember("result", peers, alloc);
return true;
}
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bool
HandleJSONRPC(Method_t method,
__attribute__((unused)) const Params& params,
Response& response)
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{
if(method == "llarp.admin.link.neighboors")
{
return ListNeighboors(response);
}
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else if(method == "llarp.admin.exit.list")
{
return ListExitLevels(response);
}
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return false;
}
};
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struct ReqHandlerImpl : public ::abyss::httpd::BaseReqHandler
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{
ReqHandlerImpl(llarp_router* r, llarp_time_t reqtimeout)
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: ::abyss::httpd::BaseReqHandler(reqtimeout), router(r)
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{
}
llarp_router* router;
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::abyss::httpd::IRPCHandler*
CreateHandler(::abyss::httpd::ConnImpl* conn)
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{
return new Handler(conn, router);
}
};
struct ServerImpl
{
llarp_router* router;
ReqHandlerImpl _handler;
ServerImpl(llarp_router* r) : router(r), _handler(r, 2000)
{
}
~ServerImpl()
{
}
bool
Start(const std::string& addr)
{
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uint16_t port = 0;
auto idx = addr.find_first_of(':');
llarp::Addr netaddr;
if(idx != std::string::npos)
{
port = std::stoi(addr.substr(1 + idx));
netaddr = llarp::Addr(addr.substr(0, idx));
}
sockaddr_in saddr;
saddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
saddr.sin_family = AF_INET;
saddr.sin_port = htons(port);
return _handler.ServeAsync(router->netloop, router->logic,
(const sockaddr*)&saddr);
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}
};
#else
struct ServerImpl
{
ServerImpl(__attribute__((unused)) llarp_router* r){};
bool
Start(__attribute__((unused)) const std::string& addr)
{
return true;
}
};
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struct CallerImpl
{
CallerImpl(__attribute__((unused)) llarp_router* r)
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{
}
~CallerImpl()
{
}
bool
Start(const std::string&)
{
return true;
}
void
Tick()
{
}
void
AsyncVerifyRouter(llarp::PubKey pk,
std::function< void(llarp::PubKey, bool) > result)
{
// always allow routers when not using libabyss
result(pk, true);
}
};
#endif
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Caller::Caller(llarp_router* r) : m_Impl(new CallerImpl(r))
{
}
Caller::~Caller()
{
delete m_Impl;
}
bool
Caller::Start(const std::string& addr)
{
return m_Impl->Start(addr);
}
void
Caller::AsyncVerifyRouter(
llarp::PubKey pk, std::function< void(llarp::PubKey, bool) > handler)
{
m_Impl->AsyncVerifyRouter(pk, handler);
}
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Server::Server(llarp_router* r) : m_Impl(new ServerImpl(r))
{
}
Server::~Server()
{
delete m_Impl;
}
bool
Server::Start(const std::string& addr)
{
return m_Impl->Start(addr);
}
} // namespace rpc
} // namespace llarp