/* Copyright (C) 2010-2012 Paul Gardner-Stephen, Serval Project. 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. */ /* Android does unix domain sockets, but only stream sockets, not datagram sockets. So we need a separate monitor interface for Android. A bit of a pain, but in fact it lets us make a very Android/Java-friendly interface, without any binary data structures (except for a binary extent for an audio sample block). */ #include "serval.h" #include "rhizome.h" #include #if defined(LOCAL_PEERCRED) && !defined(SO_PEERCRED) #define SO_PEERCRED LOCAL_PEERCRED #endif #define MONITOR_LINE_LENGTH 160 #define MONITOR_DATA_SIZE MAX_AUDIO_BYTES struct monitor_context { #define MONITOR_VOMP (1<<0) #define MONITOR_RHIZOME (1<<1) #define MONITOR_PEERS (1<<2) int flags; int socket; char line[MONITOR_LINE_LENGTH]; int line_length; #define MONITOR_STATE_COMMAND 1 #define MONITOR_STATE_DATA 2 int state; unsigned char buffer[MONITOR_DATA_SIZE]; int data_expected; int data_offset; int sample_codec; int sample_call_session_token; }; #define MAX_MONITOR_SOCKETS 8 int monitor_socket_count=0; struct monitor_context monitor_sockets[MAX_MONITOR_SOCKETS]; long long monitor_last_update_time=0; int monitor_process_command(int index,char *cmd); int monitor_process_data(int index); static void monitor_new_socket(int s); int monitor_named_socket=-1; int monitor_setup_sockets() { struct sockaddr_un name; int len; bzero(&name, sizeof(name)); name.sun_family = AF_UNIX; if (monitor_named_socket!=-1) return 0; if ((monitor_named_socket = socket(AF_UNIX, SOCK_STREAM, 0))==-1) { WHY_perror("socket"); goto error; } #ifdef linux /* Use abstract namespace as Android has no writable FS which supports sockets. Abstract namespace is just plain better, anyway, as no dead files end up hanging around. */ name.sun_path[0]=0; /* XXX: 104 comes from OSX sys/un.h - no #define (note Linux has UNIX_PATH_MAX and it's 108(!)) */ snprintf(&name.sun_path[1],104-2, confValueGet("monitor.socket",DEFAULT_MONITOR_SOCKET_NAME)); /* Doesn't include trailing nul */ len = 1+strlen(&name.sun_path[1]) + sizeof(name.sun_family); #else snprintf(name.sun_path,104-1,"%s/%s", serval_instancepath(), confValueGet("monitor.socket",DEFAULT_MONITOR_SOCKET_NAME)); unlink(name.sun_path); /* Includes trailing nul */ len = 1+strlen(name.sun_path) + sizeof(name.sun_family); #endif if(bind(monitor_named_socket, (struct sockaddr *)&name, len)==-1) { WHY_perror("bind"); goto error; } if(listen(monitor_named_socket,MAX_MONITOR_SOCKETS)==-1) { WHY_perror("listen"); goto error; } int reuseP=1; if(setsockopt(monitor_named_socket, SOL_SOCKET, SO_REUSEADDR, &reuseP, sizeof(reuseP)) < 0) { WHY_perror("setsockopt"); WHY("Could not indicate reuse addresses. Not necessarily a problem (yet)"); } int send_buffer_size=64*1024; if(setsockopt(monitor_named_socket, SOL_SOCKET, SO_RCVBUF, &send_buffer_size, sizeof(send_buffer_size))==-1) WHY_perror("setsockopt"); if (debug&(DEBUG_IO|DEBUG_VERBOSE_IO)) WHY("Monitor server socket setup"); return 0; error: close(monitor_named_socket); monitor_named_socket=-1; return -1; } int monitor_get_fds(struct pollfd *fds,int *fdcount,int fdmax) { /* Make sure sockets are open */ monitor_setup_sockets(); /* This block should work, but in reality it doesn't. poll() on linux is ALWAYS claiming that accept() can be run. So we just have to check it whenever some other fd triggers poll to break, which fortunately is fairly often. */ if ((*fdcount)>=fdmax) return -1; if (monitor_named_socket>-1) { if (debug&(DEBUG_IO|DEBUG_VERBOSE_IO)) { WHYF("Monitor named unix domain socket is poll() slot #%d (fd %d)\n", *fdcount,monitor_named_socket); } fds[*fdcount].fd=monitor_named_socket; fds[*fdcount].events=POLLIN; (*fdcount)++; } int i; if (debug&(DEBUG_IO|DEBUG_VERBOSE_IO)) WHYF("looking at %d monitor clients",monitor_socket_count); for(i=0;i=fdmax) return -1; if (debug&(DEBUG_IO|DEBUG_VERBOSE_IO)) { WHYF("Monitor named unix domain client socket is poll() slot #%d (fd %d)\n", *fdcount,monitor_sockets[i].socket); } fds[*fdcount].fd=monitor_sockets[i].socket; fds[*fdcount].events=POLLIN; (*fdcount)++; } return 0; } int monitor_poll(void) { int bytes, i, m, s; socklen_t addrlen; long long now; char msg[128]; struct monitor_context *c; /* tell all monitor clients about status of all calls periodically */ now = overlay_gettime_ms(); if (monitor_last_update_time > (now + 1000)) { WHY("Fixed run away monitor_last_update_time"); monitor_last_update_time = now + 1000; } if (now > (monitor_last_update_time + 1000)) { // WHY("Send keep alives"); monitor_last_update_time = now; for(i = 0; i < vomp_call_count; i++) { /* Push out any undelivered status changes */ monitor_call_status(&vomp_call_states[i]); WHYF("Sending keepalives for call #%d",i); /* And let far-end know that call is still alive */ snprintf(msg,sizeof(msg) -1,"\nKEEPALIVE:%06x\n", vomp_call_states[i].local.session); for(m = 0;m < monitor_socket_count; m++) WRITE_STR(monitor_sockets[m].socket,msg); } } /* Check for new connections */ fcntl(monitor_named_socket, F_SETFL, fcntl(monitor_named_socket, F_GETFL, NULL) | O_NONBLOCK); /* We don't care about the peer's address */ addrlen = 0; while ( #ifdef HAVE_LINUX_IF_H (s = accept4(monitor_named_socket, NULL, &addrlen,O_NONBLOCK)) #else (s = accept(monitor_named_socket,NULL, &addrlen)) #endif != -1 ) { addrlen = 0; monitor_new_socket(s); } if (errno != EAGAIN) WHY_perror("accept"); /* Read from any open connections */ for(i = 0;i < monitor_socket_count; i++) { nextInSameSlot: c = &monitor_sockets[i]; fcntl(c->socket,F_SETFL, fcntl(c->socket, F_GETFL, NULL) | O_NONBLOCK); switch(c->state) { case MONITOR_STATE_COMMAND: bytes = 1; while(bytes == 1) { if (c->line_length >= MONITOR_LINE_LENGTH) { /* line too long */ c->line[MONITOR_LINE_LENGTH-1] = 0; monitor_process_command(i, c->line); bytes = -1; break; } bytes = read(c->socket, &c->line[c->line_length], 1); if (bytes < 1) { switch(errno) { case EINTR: case ENOTRECOVERABLE: /* transient errors */ WHY_perror("read"); break; case EAGAIN: break; default: WHY_perror("read"); /* all other errors; close socket */ WHYF("Tearing down monitor client #%d due to errno=%d (%s)", i, errno, strerror(errno)); close(c->socket); if (i == monitor_socket_count - 1) { monitor_socket_count--; continue; } else { bcopy(&monitor_sockets[monitor_socket_count-1], &monitor_sockets[i], sizeof(struct monitor_context)); monitor_socket_count--; goto nextInSameSlot; } } } if (bytes > 0 && (c->line[c->line_length] != '\r')) { c->line_length += bytes; if (c->line[c->line_length-1] == '\n') { /* got command */ c->line[c->line_length-1] = 0; /* trim new line for easier parsing */ monitor_process_command(i, c->line); break; } } } break; case MONITOR_STATE_DATA: bytes = read(c->socket, &c->buffer[c->data_offset], c->data_expected-c->data_offset); if (bytes < 1) { switch(errno) { case EAGAIN: case EINTR: /* transient errors */ break; default: /* all other errors; close socket */ WHYF("Tearing down monitor client #%d due to errno=%d (%s)", i, errno, strerror(errno)); close(c->socket); if (i == monitor_socket_count - 1) { monitor_socket_count--; continue; } else { bcopy(&monitor_sockets[monitor_socket_count - 1], &monitor_sockets[i], sizeof(struct monitor_context)); monitor_socket_count--; goto nextInSameSlot; } } } else { c->data_offset += bytes; if (c->data_offset >= c->data_expected) { /* we have the binary data we were expecting. */ monitor_process_data(i); c->state = MONITOR_STATE_COMMAND; } } break; default: c->state = MONITOR_STATE_COMMAND; WHY("fixed monitor connection state"); } } return 0; } static void monitor_new_socket(int s) { #ifdef linux struct ucred ucred; socklen_t len; #else gid_t othergid; #endif int res; uid_t otheruid; struct monitor_context *c; #ifndef HAVE_LINUX_IF_H if ((res = fcntl(s, F_SETFL, O_NONBLOCK)) == -1) { WHY_perror("fcntl()"); goto error; } #endif #ifdef linux len = sizeof(ucred); res = getsockopt(s, SOL_SOCKET, SO_PEERCRED, &ucred, &len); if (res) { WHY_perror("getsockopt(SO_PEERCRED)"); goto error; } if (len < sizeof(ucred)) { WHYF("getsockopt(SO_PEERCRED) returned the wrong size (Got %d expected %d)", len, sizeof(ucred)); goto error; } otheruid = ucred.uid; #else if (getpeereid(s, &otheruid, &othergid) != 0) { WHY_perror("getpeereid()"); goto error; } #endif if (otheruid != getuid()) { WHYF("monitor.socket client has wrong uid (%d versus %d)", otheruid,getuid()); WRITE_STR(s, "\nCLOSE:Incorrect UID\n"); goto error; } else if (monitor_socket_count >= MAX_MONITOR_SOCKETS ||monitor_socket_count < 0) { WRITE_STR(s, "\nCLOSE:All sockets busy\n"); goto error; } else { c = &monitor_sockets[monitor_socket_count]; c->socket = s; c->line_length = 0; c->state = MONITOR_STATE_COMMAND; monitor_socket_count++; WRITE_STR(s,"\nMONITOR:You are talking to servald\n"); INFOF("Got %d clients", monitor_socket_count); } fcntl(monitor_named_socket,F_SETFL, fcntl(monitor_named_socket, F_GETFL, NULL)|O_NONBLOCK); return; error: close(s); return; } int monitor_process_command(int index,char *cmd) { int callSessionToken,sampleType,bytes; char sid[MONITOR_LINE_LENGTH],localDid[MONITOR_LINE_LENGTH]; char remoteDid[MONITOR_LINE_LENGTH],digits[MONITOR_LINE_LENGTH]; overlay_mdp_frame mdp; mdp.packetTypeAndFlags=MDP_VOMPEVENT; struct monitor_context *c=&monitor_sockets[index]; c->line_length=0; fcntl(c->socket,F_SETFL, fcntl(c->socket, F_GETFL, NULL)|O_NONBLOCK); if (strlen(cmd)>MONITOR_LINE_LENGTH) { WRITE_STR(c->socket,"\nERROR:Command too long\n"); return -1; } char msg[1024]; int flag; if (cmd[0]=='*') { /* command with content */ int ofs=0; if (sscanf(cmd,"*%d:%n",&bytes,&ofs)==1) { /* work out rest of command */ cmd=&cmd[ofs]; c->state=MONITOR_STATE_DATA; c->data_expected=bytes; c->data_offset=0; c->sample_codec=-1; if (sscanf(cmd,"AUDIO:%x:%d", &callSessionToken,&sampleType)==2) { /* Start getting sample */ c->sample_call_session_token=callSessionToken; c->sample_codec=sampleType; return 0; } } } else if (!strcasecmp(cmd,"monitor vomp")) c->flags|=MONITOR_VOMP; else if (!strcasecmp(cmd,"ignore vomp")) c->flags&=~MONITOR_VOMP; else if (!strcasecmp(cmd,"monitor rhizome")) c->flags|=MONITOR_RHIZOME; else if (!strcasecmp(cmd,"ignore rhizome")) c->flags&=~MONITOR_RHIZOME; else if (!strcasecmp(cmd,"monitor peers")) c->flags|=MONITOR_PEERS; else if (!strcasecmp(cmd,"ignore peers")) c->flags&=~MONITOR_PEERS; else if (sscanf(cmd,"FASTAUDIO:%x:%d",&callSessionToken,&flag)==2) { int i; for(i=0;isocket,"\nERROR:no local identity, so cannot place call\n"); } else { bcopy(keyring->contexts[cn]->identities[in] ->keypairs[kp]->public_key, &mdp.vompevent.local_sid[0],SID_SIZE); stowSid(&mdp.vompevent.remote_sid[0],0,sid); vomp_mdp_event(&mdp,NULL,0); } WHY("here"); } else if (sscanf(cmd,"status %x",&callSessionToken)==1) { int i; for(i=0;isocket,msg); } mdp.vompevent.audio_bytes[mdp.vompevent.audio_sample_bytes] =(digit<<4); /* 80ms standard tone duration, so that it is a multiple of the majority of codec time units (70ms is the nominal DTMF tone length for most systems). */ if (overlay_mdp_send(&mdp,0,0)) WHY("Send DTMF failed."); } } fcntl(c->socket,F_SETFL, fcntl(c->socket, F_GETFL, NULL)|O_NONBLOCK); snprintf(msg,1024,"\nMONITORSTATUS:%d\n",c->flags); WRITE_STR(c->socket,msg); return 0; } int monitor_process_data(int index) { /* Called when we have received an entire data sample */ struct monitor_context *c=&monitor_sockets[index]; c->state=MONITOR_STATE_COMMAND; if (vomp_sample_size(c->sample_codec)!=c->data_offset) return WHYF("Ignoring sample block of incorrect size (expected %d, got %d bytes for codec %d)", vomp_sample_size(c->sample_codec), c->data_offset, c->sample_codec); fcntl(c->socket,F_SETFL, fcntl(c->socket, F_GETFL, NULL)|O_NONBLOCK); vomp_call_state *call=vomp_find_call_by_session(c->sample_call_session_token); if (!call) { WRITE_STR(c->socket,"\nERROR:No such call\n"); return -1; } overlay_mdp_frame mdp; mdp.packetTypeAndFlags=MDP_VOMPEVENT; mdp.vompevent.flags=VOMPEVENT_AUDIOPACKET; mdp.vompevent.call_session_token=c->sample_call_session_token; mdp.vompevent.audio_sample_codec=c->sample_codec; bcopy(&c->buffer[0],&mdp.vompevent.audio_bytes[0], vomp_sample_size(c->sample_codec)); mdp.vompevent.audio_sample_bytes=vomp_sample_size(c->sample_codec); if (overlay_mdp_send(&mdp,0,0)) WHY("Send audio failed."); return 0; } int monitor_announce_bundle(rhizome_manifest *m) { int i; char msg[1024]; const char *service = rhizome_manifest_get(m, "service", NULL, 0); const char *sender = rhizome_manifest_get(m, "sender", NULL, 0); const char *recipient = rhizome_manifest_get(m, "recipient", NULL, 0); snprintf(msg,1024,"\nBUNDLE:%s:%s:%lld:%lld:%s:%s:%s\n", /* XXX bit of a hack here, since SIDs and cryptosign public keys have the same length */ overlay_render_sid(m->cryptoSignPublic), service ? service : "", m->version, m->fileLength, sender, recipient, m->dataFileName?m->dataFileName:""); for(i=0;ilocal.state>call->local.last_state) show=1; if (call->remote.state>call->remote.last_state) show=1; call->local.last_state=call->local.state; call->remote.last_state=call->remote.state; if (show) { if (0) WHYF("sending call status to monitor"); snprintf(msg,1024,"\nCALLSTATUS:%06x:%06x:%d:%d:%d:%s:%s:%s:%s\n", call->local.session,call->remote.session, call->local.state,call->remote.state, call->fast_audio, overlay_render_sid(call->local.sid), overlay_render_sid(call->remote.sid), call->local.did,call->remote.did); msg[1023]=0; for(i=0;ilocal.session,call->remote.session); int sample_bytes=vomp_sample_size(audio->vompevent.audio_sample_codec); char msg[1024 + MAX_AUDIO_BYTES]; /* All commands followed by binary data start with *len:, so that they can be easily parsed at the far end, even if not supported. Put newline at start of these so that receiving data in command mode doesn't confuse the parser. */ int msglen = snprintf(msg, 1024, "\n*%d:AUDIOPACKET:%06x:%06x:%d:%d:%d:%lld:%lld\n", sample_bytes, call->local.session,call->remote.session, call->local.state,call->remote.state, audio->vompevent.audio_sample_codec, audio->vompevent.audio_sample_starttime, audio->vompevent.audio_sample_endtime); bcopy(&audio->vompevent.audio_bytes[0], &msg[msglen], sample_bytes); msglen+=sample_bytes; monitor_tell_clients(msg, msglen, MONITOR_VOMP); return 0; } int monitor_tell_clients(char *msg, int msglen, int mask) { int i; for(i=0;i