lokinet/llarp/context.cpp
Jason Rhinelander ebd2142114 Don't use std::optional::value() because f u macos
This replaces all use of std::optional's `opt.value()` with `*opt`
because macOS is great and the ghost of Steve Jobs says that actually
supporting std::optional's value() method is not for chumps before macOS
10.14.  So don't use it because Apple is great.

Pretty much all of our use of it actually is done better with operator*
anyway (since operator* doesn't do a check that the optional has a
value).

Also replaced *most* of the `has_value()` calls with direct bool
context, except for one in the config section which looked really
confusing at a glance without a has_value().
2020-05-20 19:18:28 -03:00

479 lines
9.9 KiB
C++

#include <llarp.hpp>
#include <constants/version.hpp>
#include <config/config.hpp>
#include <crypto/crypto_libsodium.hpp>
#include <dht/context.hpp>
#include <ev/ev.hpp>
#include <ev/vpnio.hpp>
#include <nodedb.hpp>
#include <router/router.hpp>
#include <service/context.hpp>
#include <util/logging/logger.h>
#include <cxxopts.hpp>
#include <csignal>
#if (__FreeBSD__) || (__OpenBSD__) || (__NetBSD__)
#include <pthread_np.h>
#endif
namespace llarp
{
bool
Context::CallSafe(std::function<void(void)> f)
{
return logic && LogicCall(logic, f);
}
bool
Context::Configure(bool isRelay, std::optional<fs::path> dataDir)
{
fs::path defaultDataDir = dataDir ? *dataDir : GetDefaultDataDir();
if (configfile.size())
{
if (!config->Load(configfile.c_str(), isRelay, defaultDataDir))
{
config.release();
llarp::LogError("failed to load config file ", configfile);
return false;
}
}
auto threads = config->router.m_workerThreads;
if (threads <= 0)
threads = 1;
worker = std::make_shared<llarp::thread::ThreadPool>(threads, 1024, "llarp-worker");
auto jobQueueSize = config->router.m_JobQueueSize;
if (jobQueueSize < 1024)
jobQueueSize = 1024;
logic = std::make_shared<Logic>(jobQueueSize);
nodedb_dir = config->router.m_dataDir / nodedb_dirname;
return true;
}
bool
Context::IsUp() const
{
return router && router->IsRunning();
}
bool
Context::LooksAlive() const
{
return router && router->LooksAlive();
}
int
Context::LoadDatabase()
{
llarp_nodedb::ensure_dir(nodedb_dir.c_str());
return 1;
}
int
Context::Setup()
{
llarp::LogInfo(llarp::VERSION_FULL, " ", llarp::RELEASE_MOTTO);
llarp::LogInfo("starting up");
if (mainloop == nullptr)
mainloop = llarp_make_ev_loop();
logic->set_event_loop(mainloop.get());
mainloop->set_logic(logic);
crypto = std::make_unique<sodium::CryptoLibSodium>();
cryptoManager = std::make_unique<CryptoManager>(crypto.get());
router = std::make_unique<Router>(worker, mainloop, logic);
nodedb = std::make_unique<llarp_nodedb>(router->diskworker(), nodedb_dir);
if (!router->Configure(config.get(), nodedb.get()))
{
llarp::LogError("Failed to configure router");
return 1;
}
// must be done after router is made so we can use its disk io worker
// must also be done after configure so that netid is properly set if it
// is provided by config
if (!this->LoadDatabase())
return 2;
return 0;
}
int
Context::Run(llarp_main_runtime_opts opts)
{
if (router == nullptr)
{
// we are not set up so we should die
llarp::LogError("cannot run non configured context");
return 1;
}
// run
if (!router->StartJsonRpc())
return 1;
if (!opts.background)
{
if (!router->Run())
return 2;
}
// run net io thread
llarp::LogInfo("running mainloop");
llarp_ev_loop_run_single_process(mainloop, logic);
if (closeWaiter)
{
// inform promise if called by CloseAsync
closeWaiter->set_value();
}
return 0;
}
void
Context::CloseAsync()
{
/// already closing
if (closeWaiter)
return;
if (CallSafe(std::bind(&Context::HandleSignal, this, SIGTERM)))
closeWaiter = std::make_unique<std::promise<void>>();
}
void
Context::Wait()
{
if (closeWaiter)
{
closeWaiter->get_future().wait();
closeWaiter.reset();
}
}
void
Context::HandleSignal(int sig)
{
if (sig == SIGINT || sig == SIGTERM)
{
SigINT();
}
// TODO: Hot reloading would be kewl
// (it used to exist here, but wasn't maintained)
}
void
Context::SigINT()
{
if (router)
{
/// async stop router on sigint
router->Stop();
}
else
{
if (logic)
logic->stop();
llarp_ev_loop_stop(mainloop);
Close();
}
}
void
Context::Close()
{
llarp::LogDebug("stop workers");
if (worker)
worker->stop();
llarp::LogDebug("free config");
config.release();
llarp::LogDebug("free workers");
worker.reset();
llarp::LogDebug("free nodedb");
nodedb.release();
llarp::LogDebug("free router");
router.release();
llarp::LogDebug("free logic");
logic.reset();
}
bool
Context::LoadConfig(const std::string& fname, bool isRelay)
{
config = std::make_unique<Config>();
configfile = fname;
const fs::path filepath(fname);
return Configure(isRelay, filepath.parent_path());
}
#ifdef LOKINET_HIVE
void
Context::InjectHive(tooling::RouterHive* hive)
{
router->hive = hive;
}
#endif
} // namespace llarp
struct llarp_main
{
llarp_main(llarp_config* conf);
~llarp_main() = default;
std::shared_ptr<llarp::Context> ctx;
};
struct llarp_config
{
llarp::Config impl;
llarp_config() = default;
llarp_config(const llarp_config* other) : impl(other->impl)
{
}
};
namespace llarp
{
llarp_config*
Config::Copy() const
{
llarp_config* ptr = new llarp_config();
ptr->impl = *this;
return ptr;
}
} // namespace llarp
extern "C"
{
size_t
llarp_main_size()
{
return sizeof(llarp_main);
}
size_t
llarp_config_size()
{
return sizeof(llarp_config);
}
struct llarp_config*
llarp_default_config()
{
llarp_config* conf = new llarp_config();
#ifdef ANDROID
// put andrid config overrides here
#endif
#ifdef IOS
// put IOS config overrides here
#endif
return conf;
}
void
llarp_config_free(struct llarp_config* conf)
{
if (conf)
delete conf;
}
struct llarp_main*
llarp_main_init_from_config(struct llarp_config* conf, bool isRelay)
{
if (conf == nullptr)
return nullptr;
llarp_main* m = new llarp_main(conf);
if (m->ctx->Configure(isRelay, {}))
return m;
delete m;
return nullptr;
}
bool
llarp_config_load_file(const char* fname, struct llarp_config** conf, bool isRelay)
{
llarp_config* c = new llarp_config();
const fs::path filepath(fname);
if (c->impl.Load(fname, isRelay, filepath.parent_path()))
{
*conf = c;
return true;
}
delete c;
*conf = nullptr;
return false;
}
void
llarp_main_signal(struct llarp_main* ptr, int sig)
{
LogicCall(ptr->ctx->logic, std::bind(&llarp::Context::HandleSignal, ptr->ctx.get(), sig));
}
int
llarp_main_setup(struct llarp_main* ptr)
{
return ptr->ctx->Setup();
}
int
llarp_main_run(struct llarp_main* ptr, struct llarp_main_runtime_opts opts)
{
return ptr->ctx->Run(opts);
}
const char*
llarp_version()
{
return llarp::VERSION_FULL;
}
ssize_t
llarp_vpn_io_readpkt(struct llarp_vpn_pkt_reader* r, unsigned char* dst, size_t dstlen)
{
if (r == nullptr)
return -1;
if (not r->queue.enabled())
return -1;
auto pkt = r->queue.popFront();
ManagedBuffer mbuf = pkt.ConstBuffer();
const llarp_buffer_t& buf = mbuf;
if (buf.sz > dstlen || buf.sz == 0)
return -1;
std::copy_n(buf.base, buf.sz, dst);
return buf.sz;
}
bool
llarp_vpn_io_writepkt(struct llarp_vpn_pkt_writer* w, unsigned char* pktbuf, size_t pktlen)
{
if (pktlen == 0 || pktbuf == nullptr)
return false;
if (w == nullptr)
return false;
llarp_vpn_pkt_queue::Packet_t pkt;
llarp_buffer_t buf(pktbuf, pktlen);
if (not pkt.Load(buf))
return false;
return w->queue.pushBack(std::move(pkt)) == llarp::thread::QueueReturn::Success;
}
bool
llarp_main_inject_vpn_by_name(
struct llarp_main* ptr,
const char* name,
struct llarp_vpn_io* io,
struct llarp_vpn_ifaddr_info info)
{
if (name == nullptr || io == nullptr)
return false;
if (ptr == nullptr || ptr->ctx == nullptr || ptr->ctx->router == nullptr)
return false;
auto ep = ptr->ctx->router->hiddenServiceContext().GetEndpointByName(name);
return ep && ep->InjectVPN(io, info);
}
void
llarp_vpn_io_close_async(struct llarp_vpn_io* io)
{
if (io == nullptr || io->impl == nullptr)
return;
static_cast<llarp_vpn_io_impl*>(io->impl)->AsyncClose();
}
bool
llarp_vpn_io_init(struct llarp_main* ptr, struct llarp_vpn_io* io)
{
if (io == nullptr || ptr == nullptr)
return false;
llarp_vpn_io_impl* impl = new llarp_vpn_io_impl(ptr, io);
io->impl = impl;
return true;
}
struct llarp_vpn_pkt_writer*
llarp_vpn_io_packet_writer(struct llarp_vpn_io* io)
{
if (io == nullptr || io->impl == nullptr)
return nullptr;
llarp_vpn_io_impl* vpn = static_cast<llarp_vpn_io_impl*>(io->impl);
return &vpn->writer;
}
struct llarp_vpn_pkt_reader*
llarp_vpn_io_packet_reader(struct llarp_vpn_io* io)
{
if (io == nullptr || io->impl == nullptr)
return nullptr;
llarp_vpn_io_impl* vpn = static_cast<llarp_vpn_io_impl*>(io->impl);
return &vpn->reader;
}
void
llarp_main_free(struct llarp_main* ptr)
{
delete ptr;
}
const char*
llarp_main_get_default_endpoint_name(struct llarp_main*)
{
return "default";
}
void
llarp_main_stop(struct llarp_main* ptr)
{
if (ptr == nullptr)
return;
ptr->ctx->CloseAsync();
ptr->ctx->Wait();
}
bool
llarp_main_configure(struct llarp_main* ptr, struct llarp_config* conf, bool isRelay)
{
if (ptr == nullptr || conf == nullptr)
return false;
// give new config
ptr->ctx->config.reset(new llarp::Config(conf->impl));
return ptr->ctx->Configure(isRelay, {});
}
bool
llarp_main_is_running(struct llarp_main* ptr)
{
return ptr && ptr->ctx->router && ptr->ctx->router->IsRunning();
}
}
llarp_main::llarp_main(llarp_config* conf)
: ctx(new llarp::Context())
{
ctx->config.reset(new llarp::Config(conf->impl));
}
namespace llarp
{
std::shared_ptr<Context>
Context::Get(llarp_main* m)
{
if (m == nullptr || m->ctx == nullptr)
return nullptr;
return m->ctx;
}
} // namespace llarp