lokinet/llarp/ev_epoll.hpp

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#ifndef EV_EPOLL_HPP
#define EV_EPOLL_HPP
#include <llarp/buffer.h>
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#include <llarp/net.h>
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#include <signal.h>
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#include <sys/epoll.h>
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#include <tuntap.h>
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#include <unistd.h>
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#include <cstdio>
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#include "ev.hpp"
#include "llarp/net.hpp"
#include "logger.hpp"
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namespace llarp
{
struct udp_listener : public ev_io
{
llarp_udp_io* udp;
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udp_listener(int fd, llarp_udp_io* u) : ev_io(fd), udp(u){};
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~udp_listener()
{
}
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virtual int
read(void* buf, size_t sz)
{
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sockaddr_in6 src;
socklen_t slen = sizeof(sockaddr_in6);
sockaddr* addr = (sockaddr*)&src;
int ret = ::recvfrom(fd, buf, sz, 0, addr, &slen);
if(ret == -1)
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return -1;
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udp->recvfrom(udp, addr, buf, ret);
return 0;
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}
virtual int
sendto(const sockaddr* to, const void* data, size_t sz)
{
socklen_t slen;
switch(to->sa_family)
{
case AF_INET:
slen = sizeof(struct sockaddr_in);
break;
case AF_INET6:
slen = sizeof(struct sockaddr_in6);
break;
default:
return -1;
}
ssize_t sent = ::sendto(fd, data, sz, SOCK_NONBLOCK, to, slen);
if(sent == -1)
{
llarp::LogWarn(strerror(errno));
}
return sent;
}
};
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struct tun : public ev_io
{
llarp_tun_io* t;
device* tunif;
tun(llarp_tun_io* tio)
: ev_io(-1)
, t(tio)
, tunif(tuntap_init())
{
};
int
sendto(const sockaddr* to, const void* data, size_t sz)
{
return -1;
}
void
flush_write()
{
if(t->before_write)
{
t->before_write(t);
}
ev_io::flush_write();
}
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int
read(void* buf, size_t sz)
{
ssize_t ret = tuntap_read(tunif, buf, sz);
if(ret > 0 && t->recvpkt)
t->recvpkt(t, buf, ret);
return ret;
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}
bool
setup()
{
if(tuntap_start(tunif, TUNTAP_MODE_TUNNEL, TUNTAP_ID_ANY) == -1)
return false;
if(tuntap_set_ifname(tunif, t->ifname) == -1)
return false;
if(tuntap_set_ip(tunif, t->ifaddr, t->netmask) == -1)
return false;
fd = tunif->tun_fd;
return fd != -1;
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}
~tun()
{
}
};
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}; // namespace llarp
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struct llarp_epoll_loop : public llarp_ev_loop
{
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int epollfd;
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int pipefds[2];
llarp_epoll_loop() : epollfd(-1)
{
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pipefds[0] = -1;
pipefds[1] = -1;
}
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~llarp_epoll_loop()
{
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if(pipefds[0] != -1)
close(pipefds[0]);
if(pipefds[1] != -1)
close(pipefds[1]);
if(epollfd != -1)
close(epollfd);
}
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bool
running() const
{
return epollfd != -1;
}
bool
init()
{
if(epollfd == -1)
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epollfd = epoll_create(1);
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if(epollfd != -1)
{
if(pipe(pipefds) == -1)
return false;
epoll_event sig_ev;
sig_ev.data.fd = pipefds[0];
sig_ev.events = EPOLLIN;
return epoll_ctl(epollfd, EPOLL_CTL_ADD, pipefds[0], &sig_ev) != -1;
}
return false;
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}
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int
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tick(int ms)
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{
epoll_event events[1024];
int result;
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result = epoll_wait(epollfd, events, 1024, ms);
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if(result > 0)
{
int idx = 0;
while(idx < result)
{
// handle signalfd
if(events[idx].data.fd == pipefds[0])
{
llarp::LogDebug("exiting epoll loop");
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return 0;
}
llarp::ev_io* ev = static_cast< llarp::ev_io* >(events[idx].data.ptr);
if(events[idx].events & EPOLLIN)
{
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ev->read(readbuf, sizeof(readbuf));
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}
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if(events[idx].events & EPOLLOUT)
{
ev->flush_write();
}
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++idx;
}
}
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if(result != -1)
tick_listeners();
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return result;
}
int
run()
{
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epoll_event events[1024];
int result;
do
{
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result = epoll_wait(epollfd, events, 1024, EV_TICK_INTERVAL);
if(result > 0)
{
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int idx = 0;
while(idx < result)
{
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// handle signalfd
if(events[idx].data.fd == pipefds[0])
{
llarp::LogDebug("exiting epoll loop");
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return 0;
}
llarp::ev_io* ev = static_cast< llarp::ev_io* >(events[idx].data.ptr);
if(events[idx].events & EPOLLIN)
{
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ev->read(readbuf, sizeof(readbuf));
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}
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if(events[idx].events & EPOLLOUT)
{
ev->flush_write();
}
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++idx;
}
}
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if(result != -1)
tick_listeners();
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} while(epollfd != -1);
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return result;
}
int
udp_bind(const sockaddr* addr)
{
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socklen_t slen;
switch(addr->sa_family)
{
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case AF_INET:
slen = sizeof(struct sockaddr_in);
break;
case AF_INET6:
slen = sizeof(struct sockaddr_in6);
break;
default:
return -1;
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}
int fd = socket(addr->sa_family, SOCK_DGRAM, 0);
if(fd == -1)
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{
perror("socket()");
return -1;
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}
if(addr->sa_family == AF_INET6)
{
// enable dual stack explicitly
int dual = 1;
if(setsockopt(fd, IPPROTO_IPV6, IPV6_V6ONLY, &dual, sizeof(dual)) == -1)
{
// failed
perror("setsockopt()");
close(fd);
return -1;
}
}
llarp::Addr a(*addr);
llarp::LogDebug("bind to ", a);
if(bind(fd, addr, slen) == -1)
{
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perror("bind()");
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close(fd);
return -1;
}
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return fd;
}
bool
close_ev(llarp::ev_io* ev)
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{
return epoll_ctl(epollfd, EPOLL_CTL_DEL, ev->fd, nullptr) != -1;
}
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llarp::ev_io*
create_tun(llarp_tun_io* tun)
{
llarp::tun* t = new llarp::tun(tun);
if(t->setup())
return t;
delete t;
return nullptr;
}
llarp::ev_io*
create_udp(llarp_udp_io* l, const sockaddr* src)
{
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int fd = udp_bind(src);
if(fd == -1)
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return nullptr;
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llarp::udp_listener* listener = new llarp::udp_listener(fd, l);
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l->impl = listener;
udp_listeners.push_back(l);
return listener;
}
bool
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add_ev(llarp::ev_io* e, bool write)
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{
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epoll_event ev;
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ev.data.ptr = e;
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ev.events = EPOLLIN;
if(write)
ev.events |= EPOLLOUT;
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if(epoll_ctl(epollfd, EPOLL_CTL_ADD, e->fd, &ev) == -1)
{
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delete e;
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return false;
}
return true;
}
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bool
udp_close(llarp_udp_io* l)
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{
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bool ret = false;
llarp::udp_listener* listener =
static_cast< llarp::udp_listener* >(l->impl);
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if(listener)
{
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close_ev(listener);
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l->impl = nullptr;
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delete listener;
udp_listeners.remove(l);
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}
return ret;
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}
void
stop()
{
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int i = 1;
auto val = write(pipefds[1], &i, sizeof(i));
(void)val;
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}
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byte_t readbuf[2048];
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};
#endif