/* Copyright (C) 2010-2012 Paul Gardner-Stephen Copyright (C) 2010-2013 Serval Project Inc. 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 2 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, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include // for PRIx64 on Android #include #include "conf.h" #include "log.h" #include "str.h" #include "strbuf.h" #include "strbuf_helpers.h" #include "overlay_buffer.h" #include "overlay_address.h" #include "overlay_interface.h" #include "overlay_packet.h" #include "mdp_client.h" #include "socket.h" int _mdp_socket(struct __sourceloc UNUSED(__whence)) { // for now use the same process for creating sockets // TODO make overlay_mdp_client_socket() take __whence arg return overlay_mdp_client_socket(); } int _mdp_close(struct __sourceloc __whence, int socket) { // tell the daemon to drop all bindings struct mdp_header header={ .flags = MDP_FLAG_CLOSE, .local.port = 0, }; mdp_send(socket, &header, NULL, 0); // remove socket socket_unlink_close(socket); return 0; } int _mdp_send(struct __sourceloc __whence, int socket, const struct mdp_header *header, const uint8_t *payload, size_t len) { struct socket_address addr; if (make_local_sockaddr(&addr, "mdp.2.socket") == -1) return -1; struct fragmented_data data={ .fragment_count = len ? 2 : 1, .iov={ { .iov_base = (void*)header, .iov_len = sizeof(struct mdp_header) }, { .iov_base = (void*)payload, .iov_len = len } } }; ssize_t sent = send_message(socket, &addr, &data); if (sent == -1) return -1; if ((size_t)sent != sizeof *header + len) { errno = EMSGSIZE; return WHYF("send_message(%d,%s,%s) returned %zd, expecting %zd -- setting errno = EMSGSIZE", socket, alloca_socket_address(&addr), alloca_fragmented_data(&data), (size_t)sent, sizeof *header + len ); } return 0; } /* This function is designed to be used a bit like a system or library call, because it always sets * errno before returning -1. Some errno values arise from system calls, and some are synthetic, * eg, to report buffer overflow or an MDP protocol error. */ ssize_t _mdp_recv(struct __sourceloc __whence, int socket, struct mdp_header *header, uint8_t *payload, size_t max_len) { /* Construct name of socket to receive from. */ struct socket_address mdp_addr; if (make_local_sockaddr(&mdp_addr, "mdp.2.socket") == -1) { errno = EOVERFLOW; WHY_perror("Failed to build socket address, setting errno=EOVERFLOW"); return -1; } struct socket_address addr; bzero(&addr, sizeof addr); struct iovec iov[]={ { .iov_base = (void *)header, .iov_len = sizeof(struct mdp_header) }, { .iov_base = (void *)payload, .iov_len = max_len } }; struct msghdr hdr={ .msg_name=&addr.addr, .msg_namelen=sizeof(addr.store), .msg_iov=iov, .msg_iovlen= max_len ? 2 : 1, }; ssize_t len = recvmsg(socket, &hdr, 0); if (len == -1) { // Do not log errors that are part of normal operation. if ( errno != EAGAIN #ifdef EWOULDBLOCK && errno != EWOULDBLOCK #endif && errno != EINTR ) WHYF_perror("recvmsg(%d,%p,0)", socket, &hdr); return -1; } if ((size_t)len < sizeof(struct mdp_header)) { errno = EBADMSG; WHYF_perror("received message too short (%zu), setting errno=EBADMSG", (size_t)len); return -1; } addr.addrlen=hdr.msg_namelen; // double check that the incoming address matches the servald daemon if (cmp_sockaddr(&addr, &mdp_addr) != 0 && ( addr.local.sun_family != AF_UNIX || real_sockaddr(&addr, &addr) <= 0 || cmp_sockaddr(&addr, &mdp_addr) != 0 ) ) { errno = EBADMSG; WARNF_perror("dropped message from %s (expecting %s), setting errno=EBADMSG", alloca_socket_address(&addr), alloca_socket_address(&mdp_addr)); return -1; } return len - sizeof(struct mdp_header); } int _mdp_bind(struct __sourceloc __whence, int socket, struct mdp_sockaddr *local_addr) { struct mdp_header mdp_header; bzero(&mdp_header, sizeof(mdp_header)); mdp_header.local = *local_addr; mdp_header.remote.port = MDP_LISTEN; mdp_header.remote.sid = SID_ANY; mdp_header.flags = MDP_FLAG_BIND; if (_mdp_send(__whence, socket, &mdp_header, NULL, 0)==-1) return -1; if (_mdp_recv(__whence, socket, &mdp_header, NULL, 0)==-1) return -1; if (mdp_header.flags & MDP_FLAG_ERROR){ errno = EBADMSG; return -1; } *local_addr = mdp_header.local; return 0; } int _mdp_poll(struct __sourceloc UNUSED(__whence), int socket, time_ms_t timeout_ms) { // TODO make overlay_mdp_client_poll() take __whence arg return overlay_mdp_client_poll(socket, timeout_ms); } // returns -1 on error, -2 on timeout, packet length on success. ssize_t mdp_poll_recv(int mdp_sock, time_ms_t deadline, struct mdp_header *rev_header, unsigned char *payload, size_t buffer_size) { time_ms_t now = gettime_ms(); if (now > deadline) return -2; int p = mdp_poll(mdp_sock, deadline - now); if (p == -1) return WHY_perror("mdp_poll"); if (p == 0) return -2; ssize_t len = mdp_recv(mdp_sock, rev_header, payload, buffer_size); if (len == -1) return -1; if (rev_header->flags & MDP_FLAG_ERROR) return WHY("Operation failed, check the daemon log for more information"); return len; } int overlay_mdp_send(int mdp_sockfd, overlay_mdp_frame *mdp, int flags, int timeout_ms) { if (mdp_sockfd == -1) return -1; // Minimise frame length to save work and prevent accidental disclosure of memory contents. ssize_t len = overlay_mdp_relevant_bytes(mdp); if (len == -1) return WHY("MDP frame invalid (could not compute length)"); /* Construct name of socket to send to. */ struct socket_address addr; if (make_local_sockaddr(&addr, "mdp.socket") == -1) return -1; // Send to that socket set_nonblock(mdp_sockfd); ssize_t result = sendto(mdp_sockfd, mdp, (size_t)len, 0, &addr.addr, addr.addrlen); set_block(mdp_sockfd); if ((size_t)result != (size_t)len) { if (result == -1) WHYF_perror("sendto(fd=%d,len=%zu,addr=%s)", mdp_sockfd, (size_t)len, alloca_socket_address(&addr)); else WHYF("sendto() sent %zu bytes of MDP reply (%zu) to %s", (size_t)result, (size_t)len, alloca_socket_address(&addr)); mdp->packetTypeAndFlags=MDP_ERROR; mdp->error.error=1; snprintf(mdp->error.message,128,"Error sending frame to MDP server."); return -1; } else { if (!(flags&MDP_AWAITREPLY)) { return 0; } } mdp_port_t port=0; if ((mdp->packetTypeAndFlags&MDP_TYPE_MASK) == MDP_TX) port = mdp->out.src.port; time_ms_t started = gettime_ms(); while(timeout_ms>=0 && overlay_mdp_client_poll(mdp_sockfd, timeout_ms)>0){ int ttl=-1; if (!overlay_mdp_recv(mdp_sockfd, mdp, port, &ttl)) { /* If all is well, examine result and return error code provided */ if ((mdp->packetTypeAndFlags&MDP_TYPE_MASK)==MDP_ERROR) return mdp->error.error; else /* Something other than an error has been returned */ return 0; } // work out how much longer we can wait for a valid response time_ms_t now = gettime_ms(); timeout_ms -= (now - started); } /* Timeout */ mdp->packetTypeAndFlags=MDP_ERROR; mdp->error.error=1; snprintf(mdp->error.message,128,"Timeout waiting for reply to MDP packet (packet was successfully sent)."); return -1; /* WHY("Timeout waiting for server response"); */ } /** Create a new MDP socket and return its descriptor (-1 on error). */ int overlay_mdp_client_socket(void) { /* Create local per-client socket to MDP server (connection is always local) */ int mdp_sockfd; struct socket_address addr; uint32_t random_value; if (urandombytes((unsigned char *)&random_value, sizeof random_value) == -1) return WHY("urandombytes() failed"); if (make_local_sockaddr(&addr, "mdp.client.%u.%08lx.socket", getpid(), (unsigned long)random_value) == -1) return -1; if ((mdp_sockfd = esocket(AF_UNIX, SOCK_DGRAM, 0)) == -1) return -1; if (socket_bind(mdp_sockfd, &addr) == -1) { close(mdp_sockfd); return -1; } socket_set_rcvbufsize(mdp_sockfd, 128 * 1024); return mdp_sockfd; } int overlay_mdp_client_close(int mdp_sockfd) { /* Tell MDP server to release all our bindings */ overlay_mdp_frame mdp; mdp.packetTypeAndFlags = MDP_GOODBYE; overlay_mdp_send(mdp_sockfd, &mdp, 0, 0); socket_unlink_close(mdp_sockfd); return 0; } int overlay_mdp_client_poll(int mdp_sockfd, time_ms_t timeout_ms) { fd_set r; FD_ZERO(&r); FD_SET(mdp_sockfd, &r); if (timeout_ms<0) timeout_ms=0; struct pollfd fds[]={ { .fd = mdp_sockfd, .events = POLLIN|POLLERR, } }; return poll(fds, 1, timeout_ms); } int overlay_mdp_recv(int mdp_sockfd, overlay_mdp_frame *mdp, mdp_port_t port, int *ttl) { /* Construct name of socket to receive from. */ struct socket_address mdp_addr; if (make_local_sockaddr(&mdp_addr, "mdp.socket") == -1) return -1; /* Check if reply available */ struct socket_address recvaddr; recvaddr.addrlen = sizeof recvaddr.store; ssize_t len; mdp->packetTypeAndFlags = 0; set_nonblock(mdp_sockfd); len = recvwithttl(mdp_sockfd, (unsigned char *)mdp, sizeof(overlay_mdp_frame), ttl, &recvaddr); if (len == -1) WHYF_perror("recvwithttl(%d,%p,%zu,&%d,%p(%s))", mdp_sockfd, mdp, sizeof(overlay_mdp_frame), *ttl, &recvaddr, alloca_socket_address(&recvaddr) ); set_block(mdp_sockfd); if (len <= 0) return -1; // no packet received // If the received address overflowed the buffer, then it cannot have come from the server, whose // address must always fit within a struct sockaddr_un. if (recvaddr.addrlen > sizeof recvaddr.store) return WHY("reply did not come from server: address overrun"); // Compare the address of the sender with the address of our server, to ensure they are the same. // If the comparison fails, then try using realpath(3) on the sender address and compare again. if ( cmp_sockaddr(&recvaddr, &mdp_addr) != 0 && ( recvaddr.local.sun_family != AF_UNIX || real_sockaddr(&recvaddr, &recvaddr) <= 0 || cmp_sockaddr(&recvaddr, &mdp_addr) != 0 ) ) return WHYF("reply did not come from server: %s", alloca_socket_address(&recvaddr)); // silently drop incoming packets for the wrong port number if (port>0 && port != mdp->out.dst.port){ WARNF("Ignoring packet for port %"PRImdp_port_t,mdp->out.dst.port); return -1; } ssize_t expected_len = overlay_mdp_relevant_bytes(mdp); if (expected_len < 0) return WHY("unsupported MDP packet type"); if ((size_t)len < (size_t)expected_len) return WHYF("Expected packet length of %zu, received only %zd bytes", (size_t) expected_len, (size_t) len); /* Valid packet received */ return 0; } // send a request to servald deamon to add a port binding int overlay_mdp_bind(int mdp_sockfd, const sid_t *localaddr, mdp_port_t port) { overlay_mdp_frame mdp; mdp.packetTypeAndFlags=MDP_BIND|MDP_FORCE; mdp.bind.sid = *localaddr; mdp.bind.port=port; int result=overlay_mdp_send(mdp_sockfd, &mdp,MDP_AWAITREPLY,5000); if (result) { if (mdp.packetTypeAndFlags==MDP_ERROR) WHYF("Could not bind to MDP port %"PRImdp_port_t": error=%d, message='%s'", port,mdp.error.error,mdp.error.message); else WHYF("Could not bind to MDP port %"PRImdp_port_t" (no reason given)",port); return -1; } return 0; } int overlay_mdp_getmyaddr(int mdp_sockfd, unsigned index, sid_t *sidp) { overlay_mdp_frame a; memset(&a, 0, sizeof(a)); a.packetTypeAndFlags=MDP_GETADDRS; a.addrlist.mode = MDP_ADDRLIST_MODE_SELF; a.addrlist.first_sid=index; a.addrlist.last_sid=OVERLAY_MDP_ADDRLIST_MAX_SID_COUNT; a.addrlist.frame_sid_count=MDP_MAX_SID_REQUEST; int result=overlay_mdp_send(mdp_sockfd,&a,MDP_AWAITREPLY,5000); if (result) { if (a.packetTypeAndFlags == MDP_ERROR) DEBUGF("MDP Server error #%d: '%s'", a.error.error, a.error.message); return WHY("Failed to get local address list"); } if ((a.packetTypeAndFlags&MDP_TYPE_MASK)!=MDP_ADDRLIST) return WHY("MDP Server returned something other than an address list"); if (0) DEBUGF("local addr 0 = %s",alloca_tohex_sid_t(a.addrlist.sids[0])); *sidp = a.addrlist.sids[0]; return 0; } ssize_t overlay_mdp_relevant_bytes(overlay_mdp_frame *mdp) { size_t len; switch(mdp->packetTypeAndFlags&MDP_TYPE_MASK) { case MDP_ROUTING_TABLE: case MDP_GOODBYE: /* no arguments for saying goodbye */ len=&mdp->raw[0]-(char *)mdp; break; case MDP_ADDRLIST: len = mdp->addrlist.sids[mdp->addrlist.frame_sid_count].binary - (unsigned char *)mdp; break; case MDP_GETADDRS: len = mdp->addrlist.sids[0].binary - (unsigned char *)mdp; break; case MDP_TX: len=(&mdp->out.payload[0]-(unsigned char *)mdp) + mdp->out.payload_length; break; case MDP_BIND: // make sure that the compiler has actually given these two structures the same address // I've seen gcc 4.8.1 on x64 fail to give elements the same address once assert((void *)mdp->raw == (void *)&mdp->bind); len=(&mdp->raw[0] - (char *)mdp) + sizeof(struct mdp_sockaddr); break; case MDP_SCAN: len=(&mdp->raw[0] - (char *)mdp) + sizeof(struct overlay_mdp_scan); break; case MDP_ERROR: /* This formulation is used so that we don't copy any bytes after the end of the string, to avoid information leaks */ len=(&mdp->error.message[0]-(char *)mdp) + strlen(mdp->error.message)+1; if (mdp->error.error) INFOF("mdp return/error code: %d:%s",mdp->error.error,mdp->error.message); break; default: return WHY("Illegal MDP frame type."); } return len; }