// The contents of this file are subject to the BOINC Public License // Version 1.0 (the "License"); you may not use this file except in // compliance with the License. You may obtain a copy of the License at // http://boinc.berkeley.edu/license_1.0.txt // // Software distributed under the License is distributed on an "AS IS" // basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the // License for the specific language governing rights and limitations // under the License. // // The Original Code is the Berkeley Open Infrastructure for Network Computing. // // The Initial Developer of the Original Code is the SETI@home project. // Portions created by the SETI@home project are Copyright (C) 2002 // University of California at Berkeley. All Rights Reserved. // // Contributor(s): // #include "cpp.h" #ifdef _WIN32 #include "boinc_win.h" #ifndef _CONSOLE #include "wingui_mainwindow.h" #endif #include "Win_net.h" #include "win_util.h" #endif #ifndef _WIN32 #include #include #if HAVE_SYS_TIME_H #include #endif #if HAVE_SYS_SOCKET_H #include #endif #if HAVE_SYS_SELECT_H #include #endif #if HAVE_NETINET_IN_H #include #endif #if HAVE_NETINET_TCP_H #include #endif #if HAVE_NETDB_H #include #endif #if HAVE_UNISTD_H #include #endif #if HAVE_FCNTL_H #include #endif #include #include #include #include #include #endif #include "error_numbers.h" #include "net_xfer.h" #include "util.h" #include "client_types.h" #include "client_state.h" #include "client_msgs.h" #if defined(_WIN32) typedef int socklen_t; #elif defined ( __APPLE__) typedef int32_t socklen_t; #elif !GETSOCKOPT_SOCKLEN_T #ifndef socklen_t typedef size_t socklen_t; #endif #endif using std::vector; // if an active transfer doesn't get any activity // in this many seconds, error out #define NET_XFER_TIMEOUT 600 static void boinc_close_socket(int sock) { #ifdef _WIN32 closesocket(sock); #else close(sock); #endif } int get_socket_error(int fd) { socklen_t intsize = sizeof(int); int n; #ifdef WIN32 getsockopt(fd, SOL_SOCKET, SO_ERROR, (char *)&n, &intsize); #elif __APPLE__ getsockopt(fd, SOL_SOCKET, SO_ERROR, &n, (int *)&intsize); #else getsockopt(fd, SOL_SOCKET, SO_ERROR, (void*)&n, &intsize); #endif return n; } int NET_XFER::get_ip_addr(int &ip_addr) { return get_ip_addr(hostname, ip_addr); } int NET_XFER::get_ip_addr(char *hostname, int &ip_addr) { hostent* hep; #ifdef WIN32 int retval; retval = NetOpen(); if (retval) return retval; #endif hep = gethostbyname(hostname); if (!hep) { char msg[256]; int n; n = sprintf(msg, "Can't resolve hostname %s ", hostname); #ifdef WIN32 switch (WSAGetLastError()) { case WSANOTINITIALISED: break; case WSAENETDOWN: sprintf(msg+n, "(the network subsystem has failed)"); break; case WSAHOST_NOT_FOUND: sprintf(msg+n, "(host name not found)"); break; case WSATRY_AGAIN: sprintf(msg+n, "(no response from server)"); break; case WSANO_RECOVERY: sprintf(msg+n, "(a nonrecoverable error occurred)"); break; case WSANO_DATA: sprintf(msg+n, "(valid name, no data record of requested type)"); break; case WSAEINPROGRESS: sprintf(msg+n, "(a blocking socket call in progress)"); break; case WSAEFAULT: sprintf(msg+n, "(invalid part of user address space)"); break; case WSAEINTR: sprintf(msg+n, "(a blocking socket call was canceled)"); break; } NetClose(); #else switch (h_errno) { case HOST_NOT_FOUND: sprintf(msg+n, "(host not found)"); break; case NO_DATA: sprintf(msg+n, "(valid name, no data record of requested type)"); break; case NO_RECOVERY: sprintf(msg+n, "(a nonrecoverable error occurred)"); break; case TRY_AGAIN: sprintf(msg+n, "(host not found or server failure)"); break; } #endif msg_printf(0, MSG_ERROR, "%s\n", msg); return ERR_GETHOSTBYNAME; } ip_addr = *(int*)hep->h_addr_list[0]; return 0; } // Attempt to open a nonblocking socket to a server // int NET_XFER::open_server() { sockaddr_in addr; int fd=0, ipaddr, retval=0; retval = get_ip_addr(hostname, ipaddr); if (retval) return retval; fd = ::socket(AF_INET, SOCK_STREAM, 0); if (fd < 0) { #ifdef WIN32 NetClose(); #endif return ERR_SOCKET; } #ifdef WIN32 unsigned long one = 1; ioctlsocket(fd, FIONBIO, &one); #else int flags; flags = fcntl(fd, F_GETFL, 0); if (flags < 0) { return ERR_FCNTL; } if (fcntl(fd, F_SETFL, flags|O_NONBLOCK) < 0 ) { return ERR_FCNTL; } #endif addr.sin_family = AF_INET; addr.sin_port = htons(port); addr.sin_addr.s_addr = ((long)ipaddr); retval = connect(fd, (sockaddr*)&addr, sizeof(addr)); if (retval) { #ifdef WIN32 errno = WSAGetLastError(); if (errno != WSAEINPROGRESS && errno != WSAEWOULDBLOCK) { closesocket(fd); NetClose(); return ERR_CONNECT; } #ifndef _CONSOLE if (WSAAsyncSelect( fd, g_myWnd->GetSafeHwnd(), RegisterWindowMessage(NET_ACTIVITY_MSG), FD_READ|FD_WRITE )) { errno = WSAGetLastError(); if (errno != WSAEINPROGRESS && errno != WSAEWOULDBLOCK) { closesocket(fd); NetClose(); return ERR_ASYNCSELECT; } } #endif #else if (errno != EINPROGRESS) { close(fd); perror("connect"); return ERR_CONNECT; } #endif } else { is_connected = true; } socket = fd; return 0; } void NET_XFER::close_socket() { #ifdef WIN32 NetClose(); #endif if (socket) { boinc_close_socket(socket); socket = 0; } } void NET_XFER::init(char* host, int p, int b) { socket = -1; is_connected = false; want_download = false; want_upload = false; do_file_io = false; io_done = false; file = NULL; io_ready = false; error = 0; safe_strcpy(hostname, host); port = p; blocksize = (b > MAX_BLOCKSIZE ? MAX_BLOCKSIZE : b); start_time = dtime(); file_read_buf_offset = 0; file_read_buf_len = 0; bytes_xferred = 0; xfer_speed = 0; reset_timeout(); } bool NET_XFER::check_timeout(bool time_passed) { if (seconds_until_timeout == 0) { io_done = true; error = ERR_TIMEOUT; return true; } if (time_passed) { seconds_until_timeout--; } return false; } void NET_XFER::reset_timeout() { seconds_until_timeout = NET_XFER_TIMEOUT; } char* NET_XFER::get_hostname() { return hostname; } NET_XFER_SET::NET_XFER_SET() { max_bytes_sec_up = 0; max_bytes_sec_down = 0; bytes_left_up = 0; bytes_left_down = 0; bytes_up = 0; bytes_down = 0; up_active = false; down_active = false; } // Insert a NET_XFER object into the set // int NET_XFER_SET::insert(NET_XFER* nxp) { int retval = nxp->open_server(); if (retval) return retval; net_xfers.push_back(nxp); return 0; } // Remove a NET_XFER object from the set // int NET_XFER_SET::remove(NET_XFER* nxp) { vector::iterator iter; nxp->close_socket(); iter = net_xfers.begin(); while (iter != net_xfers.end()) { if (*iter == nxp) { net_xfers.erase(iter); return 0; } iter++; } msg_printf(NULL, MSG_ERROR, "NET_XFER_SET::remove(): not found\n"); return ERR_NOT_FOUND; } // Transfer data to/from active sockets. // Keep doing I/O until would block, or we hit rate limits, // or about .5 second goes by // bool NET_XFER_SET::poll() { double bytes_xferred; int retval; time_t t = time(0); bool action = false; while (1) { retval = do_select(bytes_xferred, 0); if (retval) break; if (bytes_xferred == 0) break; action = true; if (time(0) != t) break; } return action; } static void double_to_timeval(double x, timeval& t) { t.tv_sec = (int)x; t.tv_usec = (int)(1000000*(x - (int)x)); } // Wait at most x seconds for network I/O to become possible, // then do up to about .5 seconds of I/O. // int NET_XFER_SET::net_sleep(double x) { int retval; double bytes_xferred; retval = do_select(bytes_xferred, x); if (retval) return retval; if (bytes_xferred) { return poll(); } return 0; } // do a select with the given timeout, // then do I/O on as many sockets as possible, subject to rate limits // Transfer at most one block per socket. // int NET_XFER_SET::do_select(double& bytes_transferred, double timeout) { int n, fd, retval, nsocks_queried; unsigned int i; NET_XFER *nxp; struct timeval tv; bool time_passed = false; SCOPE_MSG_LOG scope_messages(log_messages, CLIENT_MSG_LOG::DEBUG_NET_XFER); // if a second has gone by, do rate-limit accounting // time_t t = time(0); if (t != last_time) { time_passed = true; last_time = t; if (bytes_left_up < max_bytes_sec_up) { bytes_left_up += max_bytes_sec_up; } if (bytes_left_down < max_bytes_sec_down) { bytes_left_down += max_bytes_sec_down; } } bytes_transferred = 0; fd_set read_fds, write_fds, error_fds; FD_ZERO(&read_fds); FD_ZERO(&write_fds); FD_ZERO(&error_fds); // do a select on all active (non-throttled) sockets // nsocks_queried = 0; for (i=0; iis_connected) { if (nxp->check_timeout(time_passed)) continue; FD_SET(nxp->socket, &write_fds); nsocks_queried++; } else if (nxp->want_download) { if (nxp->check_timeout(time_passed)) continue; if (bytes_left_down > 0) { FD_SET(nxp->socket, &read_fds); nsocks_queried++; } else { scope_messages.printf("NET_XFER_SET::do_select(): Throttling download\n"); } } else if (nxp->want_upload) { if (nxp->check_timeout(time_passed)) continue; if (bytes_left_up > 0) { FD_SET(nxp->socket, &write_fds); nsocks_queried++; } else { scope_messages.printf("NET_XFER_SET::do_select(): Throttling upload\n"); } } FD_SET(nxp->socket, &error_fds); } if (nsocks_queried==0) { boinc_sleep(timeout); return 0; } double_to_timeval(timeout, tv); n = select(FD_SETSIZE, &read_fds, &write_fds, &error_fds, &tv); scope_messages.printf( "NET_XFER_SET::do_select(): queried %d, returned %d\n", nsocks_queried, n ); if (n == 0) return 0; if (n < 0) return ERR_SELECT; // if got a descriptor, find the first one in round-robin order // and do I/O on it // TODO: use round-robin order // for (i=0; isocket; if (FD_ISSET(fd, &read_fds) || FD_ISSET(fd, &write_fds)) { if (FD_ISSET(fd, &read_fds)) { scope_messages.printf("NET_XFER_SET::do_select(): read enabled on socket %d\n", fd); } if (FD_ISSET(fd, &write_fds)) { scope_messages.printf("NET_XFER_SET::do_select(): write enabled on socket %d\n", fd); } if (!nxp->is_connected) { n = get_socket_error(fd); if (n) { scope_messages.printf( "NET_XFER_SET::do_select(): socket %d connection to %s failed\n", fd, nxp->get_hostname() ); nxp->error = ERR_CONNECT; nxp->io_done = true; } else { scope_messages.printf("NET_XFER_SET::do_select(): socket %d is connected\n", fd); nxp->is_connected = true; bytes_transferred += 1; nxp->reset_timeout(); } } else if (nxp->do_file_io) { n = 1; time_t now = time(0); do { retval = nxp->do_xfer(n); nxp->update_speed(); nxp->reset_timeout(); bytes_transferred += n; if (nxp->want_download) { down_active = true; bytes_left_down -= n; bytes_down += n; } else { up_active = true; bytes_left_up -= n; bytes_up += n; } // For uploads, keep trying to send until we fill // the buffers or 1 second has passed } while(nxp->want_upload && n > 0 && time(0) == now); } else { nxp->io_ready = true; } } else if (FD_ISSET(fd, &error_fds)) { scope_messages.printf("NET_XFER_SET::do_select(): got error on socket %d\n", fd); nxp = lookup_fd(fd); if (nxp) { nxp->got_error(); } else { msg_printf(0, MSG_ERROR, "do_select(): nxp not found\n"); } } } return 0; } // Return the NET_XFER object whose socket matches fd // NET_XFER* NET_XFER_SET::lookup_fd(int fd) { for (unsigned int i=0; isocket == fd) { return net_xfers[i]; } } return 0; } // transfer up to a block of data; return #bytes transferred // int NET_XFER::do_xfer(int& nbytes_transferred) { // Leave these as signed ints so recv/send can return errors int n, m, nleft; bool would_block; char buf[MAX_BLOCKSIZE]; nbytes_transferred = 0; SCOPE_MSG_LOG scope_messages(log_messages, CLIENT_MSG_LOG::DEBUG_NET_XFER); if (want_download) { #ifdef _WIN32 n = recv(socket, buf, blocksize, 0); #else n = read(socket, buf, blocksize); #endif scope_messages.printf("NET_XFER::do_xfer(): read %d bytes from socket %d\n", n, socket); if (n == 0) { io_done = true; want_download = false; } else if (n < 0) { io_done = true; error = ERR_READ; } else { nbytes_transferred += n; bytes_xferred += n; m = fwrite(buf, 1, n, file); if (n != m) { fprintf(stdout, "Error: incomplete disk write\n"); io_done = true; error = ERR_FWRITE; } } } else if (want_upload) { // If we've sent the current contents of // the buffer, then read the next block if (file_read_buf_len == file_read_buf_offset) { m = fread(file_read_buf, 1, blocksize, file); if (m == 0) { want_upload = false; io_done = true; return 0; } else if (m < 0) { io_done = true; error = ERR_FREAD; return 0; } file_read_buf_len = m; file_read_buf_offset = 0; } nleft = file_read_buf_len - file_read_buf_offset; while (nleft) { #ifdef WIN32 n = send(socket, file_read_buf+file_read_buf_offset, nleft, 0); would_block = (WSAGetLastError() == WSAEWOULDBLOCK); #else n = write(socket, file_read_buf+file_read_buf_offset, nleft); would_block = (errno == EAGAIN); #endif if (would_block && n < 0) n = 0; scope_messages.printf( "NET_XFER::do_xfer(): wrote %d bytes to socket %d%s\n", n, socket, (would_block?", would have blocked":"") ); if (n < 0 && !would_block) { error = ERR_WRITE; io_done = true; break; } file_read_buf_offset += n; nbytes_transferred += n; bytes_xferred += n; if (n < nleft || would_block) { break; } nleft -= n; } } return 0; } // Update the transfer speed for this NET_XFER // called on every I/O // void NET_XFER::update_speed() { double delta_t = dtime() - start_time; if (delta_t > 0) { xfer_speed = bytes_xferred / delta_t; } else if (xfer_speed == 0) { xfer_speed = 999999999; } } void NET_XFER::got_error() { error = ERR_IO; io_done = true; log_messages.printf( CLIENT_MSG_LOG::DEBUG_NET_XFER, "IO error on socket %d\n", socket ); } // return true if an upload is currently in progress // or has been since the last call to this. // Similar for download. // void NET_XFER_SET::check_active(bool& up, bool& down) { unsigned int i; NET_XFER* nxp; up = up_active; down = down_active; for (i=0; iis_connected && nxp->do_file_io) { nxp->want_download?down=true:up=true; } } up_active = false; down_active = false; }