/* * uhub - A tiny ADC p2p connection hub * Copyright (C) 2007-2009, 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" #include "hubio.h" /* FIXME: This should not be needed! */ extern struct hub_info* g_hub; #ifdef DEBUG_SENDQ void debug_sendq_send(struct user* user, int sent, int total) { printf("SEND: sd=%d, %d/%d bytes\n", user->net.sd, sent, total); if (sent == -1) { int err = net_error(); printf(" errno: %d - %s\n", err, net_error_string(err)); } } void debug_sendq_recv(struct user* user, int received, int max, const char* buffer) { printf("RECV: %d/%d bytes\n", ret, (int) len); if (ret == -1) { int err = net_error(); printf(" errno: %d - %s\n", err, net_error_string(err)); } else if (ret > 0) { char* data = hub_malloc_zero(ret + 1); memcpy(data, buf, ret); printf("RECV: \"%s\"\n", data); hub_free(data); } } #endif int net_user_send(void* ptr, const void* buf, size_t len) { struct user* user = (struct user*) ptr; int ret = net_send(user->net.sd, buf, len, UHUB_SEND_SIGNAL); #ifdef DEBUG_SENDQ debug_sendq_send(user, ret, len); #endif if (ret > 0) { user_reset_last_write(user); } else if (ret == -1 && net_error() == EWOULDBLOCK) { return -2; } else { // user->close_flag = quit_socket_error; return 0; } return ret; } #ifdef SSL_SUPPORT int net_user_send_ssl(void* ptr, const void* buf, size_t len) { struct user* user = (struct user*) ptr; int ret = SSL_write(user->net.ssl, buf, (int) len); #ifdef DEBUG_SENDQ debug_sendq_send(user, ret, len); #endif if (ret > 0) { user_reset_last_write(user); } else if (ret == -1 && net_error() == EWOULDBLOCK) { return -2; } else { // user->close_flag = quit_socket_error; return 0; } return ret; } #endif int net_user_recv(void* ptr, void* buf, size_t len) { struct user* user = (struct user*) ptr; int ret = net_recv(user->net.sd, buf, len, 0); if (ret > 0) { user_reset_last_read(user); } #ifdef DEBUG_SENDQ debug_sendq_recv(user, ret, len, buf); #endif return ret; } #ifdef SSL_SUPPORT int net_user_recv_ssl(void* ptr, void* buf, size_t len) { struct user* user = (struct user*) ptr; int ret = SSL_read(user->net.ssl, buf, len); if (ret > 0) { user_reset_last_read(user); } #ifdef DEBUG_SENDQ debug_sendq_recv(user, ret, len, buf); #endif return ret; } #endif void net_on_read(int fd, short ev, void *arg) { static char buf[MAX_RECV_BUF]; struct user* user = (struct user*) arg; struct hub_recvq* q = user->net.recv_queue; size_t buf_size; int more = 1; int flag_close = 0; #ifdef DEBUG_SENDQ hub_log(log_trace, "net_on_read() : fd=%d, ev=%d, arg=%p", fd, (int) ev, arg); #endif if (ev == EV_TIMEOUT) { more = 0; if (user_is_connecting(user)) { flag_close = quit_timeout; } else { // FIXME: hub is not neccesarily set! // hub_send_ping(hub, user); } } buf_size = hub_recvq_get(q, buf, MAX_RECV_BUF); for (;;) { int size = net_user_recv(user, &buf[buf_size], MAX_RECV_BUF - buf_size); if (size > 0) { buf_size += size; } if (size == -1) { if (net_error() != EWOULDBLOCK) flag_close = quit_socket_error; break; } else if (size == 0) { flag_close = quit_disconnected; break; } else { size_t offset = 0; size_t length; char* start = buf; char* pos = 0; while ((pos = memchr(start, '\n', (buf_size - offset)))) { char* line = start; length = pos - start; pos[0] = '\0'; #ifdef DEBUG_SENDQ printf("PROC: \"%s\" (%d)\n", line, (int) length); #endif if (hub_handle_message(g_hub, user, line, length) == -1) { flag_close = quit_protocol_error; break; } start = pos; start++; offset += length; } if (start < buf + buf_size) { hub_recvq_set(q, buf+offset, buf_size); } else { hub_recvq_set(q, 0, 0); } } } if (flag_close) { hub_disconnect_user(g_hub, user, flag_close); return; } if (user_is_logged_in(user)) { if (user->net.ev_read) { struct timeval timeout = { TIMEOUT_IDLE, 0 }; event_add(user->net.ev_read, &timeout); } } else if (user_is_connecting(user)) { if (user->net.ev_read) { struct timeval timeout = { TIMEOUT_HANDSHAKE, 0 }; event_add(user->net.ev_read, &timeout); } } } void net_on_write(int fd, short ev, void *arg) { struct user* user = (struct user*) arg; int sent = 0; for (;;) { int ret = hub_sendq_send(user->net.send_queue, net_user_send, user); if (ret > 0) sent += ret; else break; } #if 0 if (close_flag) { hub_disconnect_user(g_hub, user, close_flag); } else #endif if (hub_sendq_get_bytes(user->net.send_queue)) { user_net_io_want_write(user); } } void net_on_accept(int server_fd, short ev, void *arg) { struct hub_info* hub = (struct hub_info*) arg; struct user* user = 0; struct ip_addr_encap ipaddr; const char* addr; struct timeval timeout = { TIMEOUT_CONNECTED, 0 }; for (;;) { int fd = net_accept(server_fd, &ipaddr); if (fd == -1) { if (net_error() == EWOULDBLOCK) { break; } else { hub_log(log_error, "Accept error: %d %s", net_error(), strerror(net_error())); break; } } addr = ip_convert_to_string(&ipaddr); /* FIXME: Should have a plugin log this */ hub_log(log_trace, "Got connection from %s", addr); /* FIXME: A plugin should perform this check: is IP banned? */ if (acl_is_ip_banned(hub->acl, addr)) { hub_log(log_info, "Denied [%s] (IP banned)", addr); net_close(fd); continue; } user = user_create(hub, fd); if (!user) { hub_log(log_error, "Unable to create user after socket accepted. Out of memory?"); net_close(fd); break; } /* Store IP address in user object */ memcpy(&user->net.ipaddr, &ipaddr, sizeof(ipaddr)); net_set_nonblocking(fd, 1); net_set_nosigpipe(fd, 1); event_set(user->net.ev_read, fd, EV_READ | EV_PERSIST, net_on_read, user); event_set(user->net.ev_write, fd, EV_WRITE, net_on_write, user); event_base_set(hub->evbase, user->net.ev_read); event_base_set(hub->evbase, user->net.ev_write); event_add(user->net.ev_read, &timeout); } }