/* * OpenVPN -- An application to securely tunnel IP networks * over a single UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2009 OpenVPN Technologies, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * 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 (see the file COPYING included with this * distribution); if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "syshead.h" #if PORT_SHARE #include "event.h" #include "socket.h" #include "fdmisc.h" #include "crypto.h" #include "ps.h" #include "memdbg.h" struct port_share *port_share = NULL; /* GLOBAL */ /* size of i/o buffers */ #define PROXY_CONNECTION_BUFFER_SIZE 1500 /* Command codes for foreground -> background communication */ #define COMMAND_REDIRECT 10 #define COMMAND_EXIT 11 /* Response codes for background -> foreground communication */ #define RESPONSE_INIT_SUCCEEDED 20 #define RESPONSE_INIT_FAILED 21 /* * Return values for proxy_connection_io functions */ #define IOSTAT_EAGAIN_ON_READ 0 /* recv returned EAGAIN */ #define IOSTAT_EAGAIN_ON_WRITE 1 /* send returned EAGAIN */ #define IOSTAT_READ_ERROR 2 /* the other end of our read socket (pc) was closed */ #define IOSTAT_WRITE_ERROR 3 /* the other end of our write socket (pc->counterpart) was closed */ #define IOSTAT_GOOD 4 /* nothing to report */ /* * A foreign (non-OpenVPN) connection we are proxying, * usually HTTPS */ struct proxy_connection { bool defined; struct proxy_connection *next; struct proxy_connection *counterpart; struct buffer buf; bool buffer_initial; int rwflags; int sd; }; #if 0 static const char * headc (const struct buffer *buf) { static char foo[16]; strncpy (foo, BSTR(buf), 15); foo[15] = 0; return foo; } #endif static inline void close_socket_if_defined (const socket_descriptor_t sd) { if (socket_defined (sd)) openvpn_close_socket (sd); } /* * Close most of parent's fds. * Keep stdin/stdout/stderr, plus one * other fd which is presumed to be * our pipe back to parent. * Admittedly, a bit of a kludge, * but posix doesn't give us a kind * of FD_CLOEXEC which will stop * fds from crossing a fork(). */ static void close_fds_except (int keep) { socket_descriptor_t i; closelog (); for (i = 3; i <= 100; ++i) { if (i != keep) openvpn_close_socket (i); } } /* * Usually we ignore signals, because our parent will * deal with them. */ static void set_signals (void) { signal (SIGTERM, SIG_DFL); signal (SIGINT, SIG_IGN); signal (SIGHUP, SIG_IGN); signal (SIGUSR1, SIG_IGN); signal (SIGUSR2, SIG_IGN); signal (SIGPIPE, SIG_IGN); } /* * Socket read/write functions. */ static int recv_control (const socket_descriptor_t fd) { unsigned char c; const ssize_t size = read (fd, &c, sizeof (c)); if (size == sizeof (c)) return c; else { return -1; } } static int send_control (const socket_descriptor_t fd, int code) { unsigned char c = (unsigned char) code; const ssize_t size = write (fd, &c, sizeof (c)); if (size == sizeof (c)) return (int) size; else return -1; } static int cmsg_size () { return CMSG_SPACE(sizeof(socket_descriptor_t)); } /* * Send a command (char), data (head), and a file descriptor (sd_send) to a local process * over unix socket sd. Unfortunately, there's no portable way to send file descriptors * to other processes, so this code, as well as its analog (control_message_from_parent below), * is Linux-specific. This function runs in the context of the main process and is used to * send commands, data, and file descriptors to the background process. */ static void port_share_sendmsg (const socket_descriptor_t sd, const char command, const struct buffer *head, const socket_descriptor_t sd_send) { if (socket_defined (sd)) { struct msghdr mesg; struct cmsghdr* h; struct iovec iov[2]; socket_descriptor_t sd_null[2] = { SOCKET_UNDEFINED, SOCKET_UNDEFINED }; char cmd; ssize_t status; dmsg (D_PS_PROXY_DEBUG, "PORT SHARE: sendmsg sd=%d len=%d", (int)sd_send, head ? BLEN(head) : -1); CLEAR (mesg); cmd = command; iov[0].iov_base = &cmd; iov[0].iov_len = sizeof (cmd); mesg.msg_iovlen = 1; if (head) { iov[1].iov_base = BPTR (head); iov[1].iov_len = BLEN (head); mesg.msg_iovlen = 2; } mesg.msg_iov = iov; mesg.msg_controllen = cmsg_size (); mesg.msg_control = (char *) malloc (mesg.msg_controllen); check_malloc_return (mesg.msg_control); mesg.msg_flags = 0; h = CMSG_FIRSTHDR(&mesg); h->cmsg_level = SOL_SOCKET; h->cmsg_type = SCM_RIGHTS; h->cmsg_len = CMSG_LEN(sizeof(socket_descriptor_t)); if (socket_defined (sd_send)) { *((socket_descriptor_t*)CMSG_DATA(h)) = sd_send; } else { socketpair (PF_UNIX, SOCK_DGRAM, 0, sd_null); *((socket_descriptor_t*)CMSG_DATA(h)) = sd_null[0]; } status = sendmsg (sd, &mesg, MSG_NOSIGNAL); if (status == -1) msg (M_WARN, "PORT SHARE: sendmsg failed (unable to communicate with background process)"); close_socket_if_defined (sd_null[0]); close_socket_if_defined (sd_null[1]); free (mesg.msg_control); } } static void proxy_entry_close_sd (struct proxy_connection *pc, struct event_set *es) { if (pc->defined && socket_defined (pc->sd)) { dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: delete sd=%d", (int)pc->sd); if (es) event_del (es, pc->sd); openvpn_close_socket (pc->sd); pc->sd = SOCKET_UNDEFINED; } } /* * Mark a proxy entry and its counterpart for close. */ static void proxy_entry_mark_for_close (struct proxy_connection *pc, struct event_set *es) { if (pc->defined) { struct proxy_connection *cp = pc->counterpart; proxy_entry_close_sd (pc, es); free_buf (&pc->buf); pc->buffer_initial = false; pc->rwflags = 0; pc->defined = false; if (cp && cp->defined && cp->counterpart == pc) proxy_entry_mark_for_close (cp, es); } } /* * Run through the proxy entry list and delete all entries marked * for close. */ static void proxy_list_housekeeping (struct proxy_connection **list) { if (list) { struct proxy_connection *prev = NULL; struct proxy_connection *pc = *list; while (pc) { struct proxy_connection *next = pc->next; if (!pc->defined) { free (pc); if (prev) prev->next = next; else *list = next; } else prev = pc; pc = next; } } } /* * Cleanup function, on proxy process exit. */ static void proxy_list_close (struct proxy_connection **list) { if (list) { struct proxy_connection *pc = *list; while (pc) { proxy_entry_mark_for_close (pc, NULL); pc = pc->next; } proxy_list_housekeeping (list); } } static void sock_addr_set (struct openvpn_sockaddr *osaddr, const in_addr_t addr, const int port) { CLEAR (*osaddr); osaddr->sa.sin_family = AF_INET; osaddr->sa.sin_addr.s_addr = htonl (addr); osaddr->sa.sin_port = htons (port); } static inline void proxy_connection_io_requeue (struct proxy_connection *pc, const int rwflags_new, struct event_set *es) { if (socket_defined (pc->sd) && pc->rwflags != rwflags_new) { /*dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: requeue[%d] rwflags=%d", (int)pc->sd, rwflags_new);*/ event_ctl (es, pc->sd, rwflags_new, (void*)pc); pc->rwflags = rwflags_new; } } /* * Create a new pair of proxy_connection entries, one for each * socket file descriptor involved in the proxy. We are given * the client fd, and we should derive our own server fd by connecting * to the server given by server_addr/server_port. Return true * on success and false on failure to connect to server. */ static bool proxy_entry_new (struct proxy_connection **list, struct event_set *es, const in_addr_t server_addr, const int server_port, const socket_descriptor_t sd_client, struct buffer *initial_data) { struct openvpn_sockaddr osaddr; socket_descriptor_t sd_server; int status; struct proxy_connection *pc; struct proxy_connection *cp; /* connect to port share server */ sock_addr_set (&osaddr, server_addr, server_port); sd_server = create_socket_tcp (); status = openvpn_connect (sd_server, &osaddr, 5, NULL); if (status) { msg (M_WARN, "PORT SHARE PROXY: connect to port-share server failed"); openvpn_close_socket (sd_server); return false; } dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: connect to port-share server succeeded"); set_nonblock (sd_client); set_nonblock (sd_server); /* allocate 2 new proxy_connection objects */ ALLOC_OBJ_CLEAR (pc, struct proxy_connection); ALLOC_OBJ_CLEAR (cp, struct proxy_connection); /* client object */ pc->defined = true; pc->next = cp; pc->counterpart = cp; pc->buf = *initial_data; pc->buffer_initial = true; pc->rwflags = EVENT_UNDEF; pc->sd = sd_client; /* server object */ cp->defined = true; cp->next = *list; cp->counterpart = pc; cp->buf = alloc_buf (PROXY_CONNECTION_BUFFER_SIZE); cp->buffer_initial = false; cp->rwflags = EVENT_UNDEF; cp->sd = sd_server; /* add to list */ *list = pc; dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: NEW CONNECTION [c=%d s=%d]", (int)sd_client, (int)sd_server); /* set initial i/o states */ proxy_connection_io_requeue (pc, EVENT_READ, es); proxy_connection_io_requeue (cp, EVENT_READ|EVENT_WRITE, es); return true; } /* * This function runs in the context of the background proxy process. * Receive a control message from the parent (sent by the port_share_sendmsg * function above) and act on it. Return false if the proxy process should * exit, true otherwise. */ static bool control_message_from_parent (const socket_descriptor_t sd_control, struct proxy_connection **list, struct event_set *es, const in_addr_t server_addr, const int server_port) { struct buffer buf = alloc_buf (PROXY_CONNECTION_BUFFER_SIZE); struct msghdr mesg; struct cmsghdr* h; struct iovec iov[2]; char command = 0; ssize_t status; int ret = true; CLEAR (mesg); iov[0].iov_base = &command; iov[0].iov_len = sizeof (command); iov[1].iov_base = BPTR (&buf); iov[1].iov_len = BCAP (&buf); mesg.msg_iov = iov; mesg.msg_iovlen = 2; mesg.msg_controllen = cmsg_size (); mesg.msg_control = (char *) malloc (mesg.msg_controllen); check_malloc_return (mesg.msg_control); mesg.msg_flags = 0; h = CMSG_FIRSTHDR(&mesg); h->cmsg_len = CMSG_LEN(sizeof(socket_descriptor_t)); h->cmsg_level = SOL_SOCKET; h->cmsg_type = SCM_RIGHTS; *((socket_descriptor_t*)CMSG_DATA(h)) = SOCKET_UNDEFINED; status = recvmsg (sd_control, &mesg, MSG_NOSIGNAL); if (status != -1) { if ( h == NULL || h->cmsg_len != CMSG_LEN(sizeof(socket_descriptor_t)) || h->cmsg_level != SOL_SOCKET || h->cmsg_type != SCM_RIGHTS ) { ret = false; } else { const socket_descriptor_t received_fd = *((socket_descriptor_t*)CMSG_DATA(h)); dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: RECEIVED sd=%d", (int)received_fd); if (status >= 2 && command == COMMAND_REDIRECT) { buf.len = status - 1; if (proxy_entry_new (list, es, server_addr, server_port, received_fd, &buf)) { CLEAR (buf); /* we gave the buffer to proxy_entry_new */ } else { openvpn_close_socket (received_fd); } } else if (status >= 1 && command == COMMAND_EXIT) { dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: RECEIVED COMMAND_EXIT"); openvpn_close_socket (received_fd); /* null socket */ ret = false; } } } free (mesg.msg_control); free_buf (&buf); return ret; } static int proxy_connection_io_recv (struct proxy_connection *pc) { /* recv data from socket */ const int status = recv (pc->sd, BPTR(&pc->buf), BCAP(&pc->buf), MSG_NOSIGNAL); if (status < 0) { return (errno == EAGAIN) ? IOSTAT_EAGAIN_ON_READ : IOSTAT_READ_ERROR; } else { if (!status) return IOSTAT_READ_ERROR; pc->buf.len = status; } return IOSTAT_GOOD; } static int proxy_connection_io_send (struct proxy_connection *pc, int *bytes_sent) { const socket_descriptor_t sd = pc->counterpart->sd; const int status = send (sd, BPTR(&pc->buf), BLEN(&pc->buf), MSG_NOSIGNAL); if (status < 0) { const int e = errno; return (e == EAGAIN) ? IOSTAT_EAGAIN_ON_WRITE : IOSTAT_WRITE_ERROR; } else { *bytes_sent += status; if (status != pc->buf.len) { dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: partial write[%d], tried=%d got=%d", (int)sd, pc->buf.len, status); buf_advance (&pc->buf, status); return IOSTAT_EAGAIN_ON_WRITE; } else { /*dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: wrote[%d] %d", (int)sd, status);*/ pc->buf.len = 0; pc->buf.offset = 0; } } /* realloc send buffer after initial send */ if (pc->buffer_initial) { free_buf (&pc->buf); pc->buf = alloc_buf (PROXY_CONNECTION_BUFFER_SIZE); pc->buffer_initial = false; } return IOSTAT_GOOD; } /* * Forward data from pc to pc->counterpart. */ static int proxy_connection_io_xfer (struct proxy_connection *pc, const int max_transfer) { int transferred = 0; while (transferred < max_transfer) { if (!BLEN (&pc->buf)) { const int status = proxy_connection_io_recv (pc); if (status != IOSTAT_GOOD) return status; } if (BLEN (&pc->buf)) { const int status = proxy_connection_io_send (pc, &transferred); if (status != IOSTAT_GOOD) return status; } } return IOSTAT_EAGAIN_ON_READ; } /* * Decide how the receipt of an EAGAIN status should affect our next IO queueing. */ static bool proxy_connection_io_status (const int status, int *rwflags_pc, int *rwflags_cp) { switch (status) { case IOSTAT_EAGAIN_ON_READ: *rwflags_pc |= EVENT_READ; *rwflags_cp &= ~EVENT_WRITE; return true; case IOSTAT_EAGAIN_ON_WRITE: *rwflags_pc &= ~EVENT_READ; *rwflags_cp |= EVENT_WRITE; return true; case IOSTAT_READ_ERROR: return false; case IOSTAT_WRITE_ERROR: return false; default: msg (M_FATAL, "PORT SHARE PROXY: unexpected status=%d", status); } return false; /* NOTREACHED */ } /* * Dispatch function for forwarding data between the two socket fds involved * in the proxied connection. */ static int proxy_connection_io_dispatch (struct proxy_connection *pc, const int rwflags, struct event_set *es) { const int max_transfer_per_iteration = 10000; struct proxy_connection *cp = pc->counterpart; int rwflags_pc = pc->rwflags; int rwflags_cp = cp->rwflags; if (rwflags & EVENT_READ) { const int status = proxy_connection_io_xfer (pc, max_transfer_per_iteration); if (!proxy_connection_io_status (status, &rwflags_pc, &rwflags_cp)) goto bad; } if (rwflags & EVENT_WRITE) { const int status = proxy_connection_io_xfer (cp, max_transfer_per_iteration); if (!proxy_connection_io_status (status, &rwflags_cp, &rwflags_pc)) goto bad; } proxy_connection_io_requeue (pc, rwflags_pc, es); proxy_connection_io_requeue (cp, rwflags_cp, es); return true; bad: proxy_entry_mark_for_close (pc, es); return false; } /* * This is the main function for the port share proxy background process. */ static void port_share_proxy (const in_addr_t hostaddr, const int port, const socket_descriptor_t sd_control) { if (send_control (sd_control, RESPONSE_INIT_SUCCEEDED) >= 0) { void *sd_control_marker = (void *)1; int maxevents = 256; struct event_set *es; struct event_set_return esr[64]; struct proxy_connection *list = NULL; time_t last_housekeeping = 0; msg (D_PS_PROXY, "PORT SHARE PROXY: proxy starting"); es = event_set_init (&maxevents, 0); event_ctl (es, sd_control, EVENT_READ, sd_control_marker); while (true) { int n_events; struct timeval tv; time_t current; tv.tv_sec = 10; tv.tv_usec = 0; n_events = event_wait (es, &tv, esr, SIZE(esr)); /*dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: event_wait returned %d", n_events);*/ current = time(NULL); if (n_events > 0) { int i; for (i = 0; i < n_events; ++i) { const struct event_set_return *e = &esr[i]; if (e->arg == sd_control_marker) { if (!control_message_from_parent (sd_control, &list, es, hostaddr, port)) goto done; } else { struct proxy_connection *pc = (struct proxy_connection *)e->arg; if (pc->defined) proxy_connection_io_dispatch (pc, e->rwflags, es); } } } else if (n_events < 0) { dmsg (D_PS_PROXY_DEBUG, "PORT SHARE PROXY: event_wait failed"); } if (current > last_housekeeping) { proxy_list_housekeeping (&list); last_housekeeping = current; } } done: proxy_list_close (&list); event_free (es); } msg (D_PS_PROXY, "PORT SHARE PROXY: proxy exiting"); } /* * Called from the main OpenVPN process to enable the port * share proxy. */ struct port_share * port_share_open (const char *host, const int port) { pid_t pid; socket_descriptor_t fd[2]; in_addr_t hostaddr; struct port_share *ps; ALLOC_OBJ_CLEAR (ps, struct port_share); /* * Get host's IP address */ hostaddr = getaddr (GETADDR_RESOLVE|GETADDR_HOST_ORDER|GETADDR_FATAL, host, 0, NULL, NULL); /* * Make a socket for foreground and background processes * to communicate. */ if (socketpair (PF_UNIX, SOCK_DGRAM, 0, fd) == -1) { msg (M_WARN, "PORT SHARE: socketpair call failed"); goto error; } /* * Fork off background proxy process. */ pid = fork (); if (pid) { int status; /* * Foreground Process */ ps->background_pid = pid; /* close our copy of child's socket */ openvpn_close_socket (fd[1]); /* don't let future subprocesses inherit child socket */ set_cloexec (fd[0]); /* wait for background child process to initialize */ status = recv_control (fd[0]); if (status == RESPONSE_INIT_SUCCEEDED) { ps->foreground_fd = fd[0]; return ps; } } else { /* * Background Process */ /* Ignore most signals (the parent will receive them) */ set_signals (); /* Let msg know that we forked */ msg_forked (); /* close all parent fds except our socket back to parent */ close_fds_except (fd[1]); /* no blocking on control channel back to parent */ set_nonblock (fd[1]); /* initialize prng */ prng_init (NULL, 0); /* execute the event loop */ port_share_proxy (hostaddr, port, fd[1]); openvpn_close_socket (fd[1]); exit (0); return 0; /* NOTREACHED */ } error: port_share_close (ps); return NULL; } void port_share_close (struct port_share *ps) { if (ps) { if (ps->foreground_fd >= 0) { /* tell background process to exit */ port_share_sendmsg (ps->foreground_fd, COMMAND_EXIT, NULL, SOCKET_UNDEFINED); /* wait for background process to exit */ dmsg (D_PS_PROXY_DEBUG, "PORT SHARE: waiting for background process to exit"); if (ps->background_pid > 0) waitpid (ps->background_pid, NULL, 0); dmsg (D_PS_PROXY_DEBUG, "PORT SHARE: background process exited"); openvpn_close_socket (ps->foreground_fd); ps->foreground_fd = -1; } free (ps); } } void port_share_abort (struct port_share *ps) { if (ps) { /* tell background process to exit */ if (ps->foreground_fd >= 0) { send_control (ps->foreground_fd, COMMAND_EXIT); openvpn_close_socket (ps->foreground_fd); ps->foreground_fd = -1; } } } /* * Given either the first 2 or 3 bytes of an initial client -> server * data payload, return true if the protocol is that of an OpenVPN * client attempting to connect with an OpenVPN server. */ bool is_openvpn_protocol (const struct buffer *buf) { const unsigned char *p = (const unsigned char *) BSTR (buf); const int len = BLEN (buf); if (len >= 3) { return p[0] == 0 && p[1] >= 14 && p[2] == (P_CONTROL_HARD_RESET_CLIENT_V2<= 2) { return p[0] == 0 && p[1] >= 14; } else return true; } /* * Called from the foreground process. Send a message to the background process that it * should proxy the TCP client on sd to the host/port defined in the initial port_share_open * call. */ void port_share_redirect (struct port_share *ps, const struct buffer *head, socket_descriptor_t sd) { if (ps) port_share_sendmsg (ps->foreground_fd, COMMAND_REDIRECT, head, sd); } #endif