/* * uhub - A tiny ADC p2p connection hub * Copyright (C) 2007-2010, Jan Vidar Krey * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #include "uhub.h" #ifdef USE_KQUEUE #include "network/connection.h" #include "network/common.h" #include "network/backend.h" #define KQUEUE_EVBUFFER 512 struct net_connection_kqueue { NET_CON_STRUCT_COMMON struct kevent ev; }; struct net_backend { int kqfd; size_t num; size_t max; struct net_connection_epoll** conns; struct kevent** changes; size_t nchanges; struct kevent events[KQUEUE_EVBUFFER]; time_t now; struct timeout_queue timeout_queue; struct net_cleanup_handler* cleaner; }; static struct net_backend* g_backend = 0; /** * Initialize the network backend. * Returns 1 on success, or 0 on failure. */ int net_backend_initialize() { g_backend = hub_malloc_zero(sizeof(struct net_backend)); g_backend->kqfd = kqueue(); if (g_backend->kqfd == -1) { LOG_WARN("Unable to create epoll socket."); return 0; } size_t max = net_get_max_sockets(); g_backend->max = max; g_backend->conns = hub_malloc_zero(sizeof(struct net_connection_kqueue*) * max); g_backend->changes = hub_malloc_zero(sizeof(struct kevent*) * max); g_backend->now = time(0); timeout_queue_initialize(&g_backend->timeout_queue, g_backend->now, 600); /* look max 10 minutes into the future. */ g_backend->cleaner = net_cleanup_initialize(max); return 1; } /** * Shutdown the network connection backend. */ void net_backend_shutdown() { close(g_backend->kqfd); timeout_queue_shutdown(&g_backend->timeout_queue); net_cleanup_shutdown(g_backend->cleaner); hub_free(g_backend->conns); hub_free(g_backend->changes); hub_free(g_backend); } /** * Process the network backend. */ int net_backend_process() { } struct timeout_queue* net_backend_get_timeout_queue() { return &g_backend->timeout_queue; } struct net_connection* net_con_create() { struct net_connection* con = (struct net_connection*) hub_malloc_zero(sizeof(struct net_connection_kqueue)); con->sd = -1; return con; } void net_con_destroy(struct net_connection* con) { hub_free(con); } void net_con_initialize(struct net_connection* con_, int sd, net_connection_cb callback, const void* ptr, int events) { struct net_connection_kqueue* con = (struct net_connection_kqueue*) con_; con->sd = sd; con->flags = 0; con->callback = callback; con->ev.events = 0; con->ptr = (void*) ptr; con->ev.data.ptr = (void*) con; net_set_nonblocking(con->sd, 1); net_set_nosigpipe(con->sd, 1); /* FIXME */ g_backend->conns[sd] = con; g_backend->num++; } void net_con_reinitialize(struct net_connection* con, net_connection_cb callback, const void* ptr, int events) { con->callback = callback; con->ptr = (void*) ptr; net_con_update(con, events); } void net_con_update(struct net_connection* con_, int events) { struct net_connection_kqueue* con = (struct net_connection_kqueue*) con_; /* FIXME */ } void net_con_close(struct net_connection* con_) { struct net_connection_epoll* con = (struct net_connection_kqueue*) con_; if (con->flags & NET_CLEANUP) return; if (con->sd != -1) { g_backend->conns[con->sd] = 0; g_backend->num--; } net_con_clear_timeout(con_); /* FIXME */ net_close(con->sd); con->sd = -1; net_con_print("DEL", con); net_cleanup_delayed_free(g_backend->cleaner, con_); } #endif /* USE_KQUEUE */