lokinet/llarp/ev/ev.cpp

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#include <ev/ev.h>
#include <util/logic.hpp>
#include <util/mem.hpp>
#include <util/string_view.hpp>
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#include <net/net_addr.hpp>
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#include <cstddef>
#include <cstring>
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// We libuv now
#ifndef _WIN32
#include <ev/ev_libuv.hpp>
#elif defined(_WIN32) || defined(_WIN64) || defined(__NT__)
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#define SHUT_RDWR SD_BOTH
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#include <ev/ev_win32.hpp>
#else
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#error No async event loop for your platform, port libuv to your operating system
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#endif
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llarp_ev_loop_ptr
llarp_make_ev_loop()
{
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#ifndef _WIN32
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llarp_ev_loop_ptr r = std::make_shared< libuv::Loop >();
#elif defined(_WIN32) || defined(_WIN64) || defined(__NT__)
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llarp_ev_loop_ptr r = std::make_shared< llarp_win32_loop >();
#else
#error no event loop subclass
#endif
r->init();
r->update_time();
return r;
}
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void
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llarp_ev_loop_run_single_process(llarp_ev_loop_ptr ev,
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std::shared_ptr< llarp::Logic > logic)
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{
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while(ev->running())
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{
ev->update_time();
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ev->tick(EV_TICK_INTERVAL);
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if(ev->running())
{
ev->update_time();
logic->tick_async(ev->time_now());
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llarp_threadpool_tick(logic->thread);
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}
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llarp::LogContext::Instance().logStream->Tick(ev->time_now());
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}
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ev->stopped();
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}
int
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llarp_ev_add_udp(struct llarp_ev_loop *ev, struct llarp_udp_io *udp,
const struct sockaddr *src)
{
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udp->parent = ev;
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if(ev->udp_listen(udp, src))
return 0;
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return -1;
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}
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int
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llarp_ev_close_udp(struct llarp_udp_io *udp)
{
if(udp->parent->udp_close(udp))
return 0;
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return -1;
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}
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llarp_time_t
llarp_ev_loop_time_now_ms(const llarp_ev_loop_ptr &loop)
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{
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if(loop)
return loop->time_now();
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return llarp::time_now_ms();
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}
void
llarp_ev_loop_stop(const llarp_ev_loop_ptr &loop)
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{
loop->stop();
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}
int
llarp_ev_udp_sendto(struct llarp_udp_io *udp, const sockaddr *to,
const llarp_buffer_t &buf)
{
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return udp->sendto(udp, to, buf.base, buf.sz);
}
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bool
llarp_ev_add_tun(struct llarp_ev_loop *loop, struct llarp_tun_io *tun)
{
#if !defined(_WIN32)
if(tun->ifaddr[0] == 0 || strcmp(tun->ifaddr, "auto") == 0)
{
LogError("invalid ifaddr on tun: ", tun->ifaddr);
return false;
}
if(tun->ifname[0] == 0 || strcmp(tun->ifname, "auto") == 0)
{
LogError("invalid ifname on tun: ", tun->ifname);
return false;
}
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return loop->tun_listen(tun);
#else
UNREFERENCED_PARAMETER(loop);
auto dev = new win32_tun_io(tun);
tun->impl = dev;
// We're not even going to add this to the socket event loop
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if(dev)
{
dev->setup();
return dev->add_ev(); // start up tun and add to event queue
}
llarp::LogWarn("Loop could not create tun");
return false;
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#endif
}
bool
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llarp_ev_tun_async_write(struct llarp_tun_io *tun, const llarp_buffer_t &buf)
{
if(buf.sz > EV_WRITE_BUF_SZ)
{
llarp::LogWarn("packet too big, ", buf.sz, " > ", EV_WRITE_BUF_SZ);
return false;
}
#ifndef _WIN32
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return tun->writepkt(tun, buf.base, buf.sz);
#else
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return static_cast< win32_tun_io * >(tun->impl)->queue_write(buf.base,
buf.sz);
#endif
}
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bool
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llarp_tcp_conn_async_write(struct llarp_tcp_conn *conn, const llarp_buffer_t &b)
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{
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ManagedBuffer buf{b};
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size_t sz = buf.underlying.sz;
buf.underlying.cur = buf.underlying.base;
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while(sz > EV_WRITE_BUF_SZ)
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{
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ssize_t amount = conn->write(conn, buf.underlying.cur, EV_WRITE_BUF_SZ);
if(amount <= 0)
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{
llarp::LogError("write underrun");
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return false;
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}
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buf.underlying.cur += amount;
sz -= amount;
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}
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return conn->write(conn, buf.underlying.cur, sz) > 0;
}
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void
llarp_tcp_async_try_connect(struct llarp_ev_loop *loop,
struct llarp_tcp_connecter *tcp)
{
tcp->loop = loop;
llarp::string_view addr_str, port_str;
// try parsing address
const char *begin = tcp->remote;
const char *ptr = strstr(tcp->remote, ":");
// get end of address
if(ptr == nullptr)
{
llarp::LogError("bad address: ", tcp->remote);
if(tcp->error)
tcp->error(tcp);
return;
}
const char *end = ptr;
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while(*end && ((end - begin) < static_cast< ptrdiff_t >(sizeof tcp->remote)))
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{
++end;
}
addr_str = llarp::string_view(begin, ptr - begin);
++ptr;
port_str = llarp::string_view(ptr, end - ptr);
// actually parse address
llarp::Addr addr(addr_str, port_str);
if(!loop->tcp_connect(tcp, addr))
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{
llarp::LogError("async connect failed");
if(tcp->error)
tcp->error(tcp);
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}
}
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bool
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llarp_tcp_serve(struct llarp_ev_loop *loop, struct llarp_tcp_acceptor *tcp,
const struct sockaddr *bindaddr)
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{
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tcp->loop = loop;
return loop->tcp_listen(tcp, bindaddr);
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}
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void
llarp_tcp_acceptor_close(struct llarp_tcp_acceptor *tcp)
{
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tcp->close(tcp);
}
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void
llarp_tcp_conn_close(struct llarp_tcp_conn *conn)
{
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conn->close(conn);
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}
namespace llarp
{
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bool
tcp_conn::tick()
{
if(_shouldClose)
{
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if(tcp.closed)
tcp.closed(&tcp);
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::shutdown(fd, SHUT_RDWR);
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return false;
}
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if(tcp.tick)
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tcp.tick(&tcp);
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return true;
}
} // namespace llarp