/* * $Id: ntripserver.c,v 1.47 2009/02/11 10:20:32 stoecker Exp $ * * Copyright (c) 2003...2007 * German Federal Agency for Cartography and Geodesy (BKG) * * Developed for Networked Transport of RTCM via Internet Protocol (NTRIP) * for streaming GNSS data over the Internet. * * Designed by Informatik Centrum Dortmund http://www.icd.de * * The BKG disclaims any liability nor responsibility to any person or * entity with respect to any loss or damage caused, or alleged to be * caused, directly or indirectly by the use and application of the NTRIP * technology. * * For latest information and updates, access: * http://igs.bkg.bund.de/index_ntrip_down.htm * * BKG, Frankfurt, Germany, February 2007 * E-mail: euref-ip@bkg.bund.de * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* CVS revision and version */ static char revisionstr[] = "$Revision: 1.47 $"; static char datestr[] = "$Date: 2009/02/11 10:20:32 $"; #include #include #include #include #include #include #include #include #include #include #include #include #ifdef WINDOWSVERSION #include #include #include #include typedef SOCKET sockettype; typedef u_long in_addr_t; typedef size_t socklen_t; typedef u_short uint16_t; #else typedef int sockettype; #include #include #include #include #include #define closesocket(sock) close(sock) #define INVALID_HANDLE_VALUE -1 #define INVALID_SOCKET -1 #endif #ifndef COMPILEDATE #define COMPILEDATE " built " __DATE__ #endif #define ALARMTIME (2*60) #ifndef MSG_DONTWAIT #define MSG_DONTWAIT 0 /* prevent compiler errors */ #endif #ifndef O_EXLOCK #define O_EXLOCK 0 /* prevent compiler errors */ #endif enum MODE { SERIAL = 1, TCPSOCKET = 2, INFILE = 3, SISNET = 4, UDPSOCKET = 5, CASTER = 6, LAST }; enum OUTMODE { HTTP = 1, RTSP = 2, NTRIP1 = 3, UDP = 4, END }; #define AGENTSTRING "NTRIP NtripServerPOSIX" #define BUFSZ 1024 #define SZ 64 /* default socket source */ #define SERV_HOST_ADDR "localhost" #define SERV_TCP_PORT 2101 /* default destination */ #define NTRIP_CASTER "www.euref-ip.net" #define NTRIP_PORT 2101 #define SISNET_SERVER "131.176.49.142" #define SISNET_PORT 7777 #define RTP_VERSION 2 #define TIME_RESOLUTION 125 static int ttybaud = 19200; static const char *ttyport = "/dev/gps"; static const char *filepath = "/dev/stdin"; static enum MODE inputmode = INFILE; static int sisnet = 31; static int gps_file = -1; static sockettype gps_socket = INVALID_SOCKET; static sockettype socket_tcp = INVALID_SOCKET; static sockettype socket_udp = INVALID_SOCKET; #ifndef WINDOWSVERSION static int gps_serial = INVALID_HANDLE_VALUE; static int sigpipe_received = 0; #else HANDLE gps_serial = INVALID_HANDLE_VALUE; #endif static int sigalarm_received = 0; static int sigint_received = 0; static int reconnect_sec = 1; static const char * casterouthost = NTRIP_CASTER; static char rtsp_extension[SZ] = ""; static const char * mountpoint = NULL; static int udp_cseq = 1; static int udp_tim, udp_seq, udp_init; /* Forward references */ static void send_receive_loop(sockettype sock, int outmode, struct sockaddr * pcasterRTP, socklen_t length, unsigned int rtpssrc); static void usage(int, char *); static int encode(char *buf, int size, const char *user, const char *pwd); static int send_to_caster(char *input, sockettype socket, int input_size); static void close_session(const char *caster_addr, const char *mountpoint, int session, char *rtsp_ext, int fallback); static int reconnect(int rec_sec, int rec_sec_max); static void handle_sigint(int sig); static void setup_signal_handler(int sig, void (*handler)(int)); #ifndef WINDOWSVERSION static int openserial(const char * tty, int blocksz, int baud); static void handle_sigpipe(int sig); static void handle_alarm(int sig); #else static HANDLE openserial(const char * tty, int baud); #endif /* * main * * Main entry point for the program. Processes command-line arguments and * prepares for action. * * Parameters: * argc : integer : Number of command-line arguments. * argv : array of char : Command-line arguments as an array of * zero-terminated pointers to strings. * * Return Value: * The function does not return a value (although its return type is int). * * Remarks: * */ int main(int argc, char **argv) { int c; int size = 2048; /* for setting send buffer size */ struct sockaddr_in caster; const char * proxyhost = ""; unsigned int proxyport = 0; /*** INPUT ***/ const char * casterinhost = 0; unsigned int casterinport = 0; const char * inhost = 0; unsigned int inport = 0; char get_extension[SZ] = ""; struct hostent * he; const char * sisnetpassword = ""; const char * sisnetuser = ""; const char * stream_name = 0; const char * stream_user = 0; const char * stream_password = 0; const char * recvrid= 0; const char * recvrpwd = 0; const char * initfile = NULL; int bindmode = 0; /*** OUTPUT ***/ unsigned int casteroutport = NTRIP_PORT; const char * outhost = 0; unsigned int outport = 0; char post_extension[SZ] = ""; const char * ntrip_str = ""; const char * user = ""; const char * password = ""; int outputmode = NTRIP1; struct sockaddr_in casterRTP; struct sockaddr_in local; int client_port = 0; int server_port = 0; unsigned int session = 0; socklen_t len = 0; int i = 0; char szSendBuffer[BUFSZ]; char authorization[SZ]; int nBufferBytes = 0; char * dlim = " \r\n="; char * token; char * tok_buf[BUFSZ]; int reconnect_sec_max = 0; setbuf(stdout, 0); setbuf(stdin, 0); setbuf(stderr, 0); { char *a; int i = 0; for(a = revisionstr+11; *a && *a != ' '; ++a) revisionstr[i++] = *a; revisionstr[i] = 0; datestr[0] = datestr[7]; datestr[1] = datestr[8]; datestr[2] = datestr[9]; datestr[3] = datestr[10]; datestr[5] = datestr[12]; datestr[6] = datestr[13]; datestr[8] = datestr[15]; datestr[9] = datestr[16]; datestr[4] = datestr[7] = '-'; datestr[10] = 0; } /* setup signal handler for CTRL+C */ setup_signal_handler(SIGINT, handle_sigint); #ifndef WINDOWSVERSION /* setup signal handler for boken pipe */ setup_signal_handler(SIGPIPE, handle_sigpipe); /* setup signal handler for timeout */ setup_signal_handler(SIGALRM, handle_alarm); alarm(ALARMTIME); #else /* winsock initialization */ WSADATA wsaData; if (WSAStartup(MAKEWORD(1,1), &wsaData)) { fprintf(stderr, "Could not init network access.\n"); return 20; } #endif /* get and check program arguments */ if(argc <= 1) { usage(2, argv[0]); exit(1); } while((c = getopt(argc, argv, "M:i:h:b:p:s:a:m:c:H:P:f:x:y:l:u:V:D:U:W:O:E:F:R:N:n:B")) != EOF) { switch (c) { case 'M': /*** InputMode ***/ if(!strcmp(optarg, "serial")) inputmode = SERIAL; else if(!strcmp(optarg, "tcpsocket")) inputmode = TCPSOCKET; else if(!strcmp(optarg, "file")) inputmode = INFILE; else if(!strcmp(optarg, "sisnet")) inputmode = SISNET; else if(!strcmp(optarg, "udpsocket")) inputmode = UDPSOCKET; else if(!strcmp(optarg, "caster")) inputmode = CASTER; else inputmode = atoi(optarg); if((inputmode == 0) || (inputmode >= LAST)) { fprintf(stderr, "ERROR: can't convert <%s> to a valid InputMode\n", optarg); usage(-1, argv[0]); } break; case 'i': /* serial input device */ ttyport = optarg; break; case 'B': /* bind to incoming UDP stream */ bindmode = 1; break; case 'V': /* Sisnet data server version number */ if(!strcmp("3.0", optarg)) sisnet = 30; else if(!strcmp("3.1", optarg)) sisnet = 31; else if(!strcmp("2.1", optarg)) sisnet = 21; else { fprintf(stderr, "ERROR: unknown SISNeT version <%s>\n", optarg); usage(-2, argv[0]); } break; case 'b': /* serial input baud rate */ ttybaud = atoi(optarg); if(ttybaud <= 1) { fprintf(stderr, "ERROR: can't convert <%s> to valid serial baud rate\n", optarg); usage(1, argv[0]); } break; case 'a': /* Destination caster address */ casterouthost = optarg; break; case 'p': /* Destination caster port */ casteroutport = atoi(optarg); if(casteroutport <= 1 || casteroutport > 65535) { fprintf(stderr, "ERROR: can't convert <%s> to a valid HTTP server port\n", optarg); usage(1, argv[0]); } break; case 'm': /* Destination caster mountpoint for stream upload */ mountpoint = optarg; break; case 's': /* File name for input data simulation from file */ filepath = optarg; break; case 'f': /* name of an initialization file */ initfile = optarg; break; case 'x': /* user ID to access incoming stream */ recvrid = optarg; break; case 'y': /* password to access incoming stream */ recvrpwd = optarg; break; case 'u': /* Sisnet data server user ID */ sisnetuser = optarg; break; case 'l': /* Sisnet data server password */ sisnetpassword = optarg; break; case 'c': /* DestinationCaster password for stream upload to mountpoint */ password = optarg; break; case 'H': /* Input host address*/ casterinhost = optarg; break; case 'P': /* Input port */ casterinport = atoi(optarg); if(casterinport <= 1 || casterinport > 65535) { fprintf(stderr, "ERROR: can't convert <%s> to a valid port number\n", optarg); usage(1, argv[0]); } break; case 'D': /* Source caster mountpoint for stream input */ stream_name = optarg; break; case 'U': /* Source caster user ID for input stream access */ stream_user = optarg; break; case 'W': /* Source caster password for input stream access */ stream_password = optarg; break; case 'E': /* Proxy Server */ proxyhost = optarg; break; case 'F': /* Proxy port */ proxyport = atoi(optarg); break; case 'R': /* maximum delay between reconnect attempts in seconds */ reconnect_sec_max = atoi(optarg); break; case 'O': /* OutputMode */ outputmode = 0; if (!strcmp(optarg,"n") || !strcmp(optarg,"ntrip1")) outputmode = NTRIP1; else if(!strcmp(optarg,"h") || !strcmp(optarg,"http")) outputmode = HTTP; else if(!strcmp(optarg,"r") || !strcmp(optarg,"rtsp")) outputmode = RTSP; else if(!strcmp(optarg,"u") || !strcmp(optarg,"udp")) outputmode = UDP; else outputmode = atoi(optarg); if((outputmode == 0) || (outputmode >= END)) { fprintf(stderr, "ERROR: can't convert <%s> to a valid OutputMode\n", optarg); usage(-1, argv[0]); } break; case 'n': /* Destination caster user ID for stream upload to mountpoint */ user = optarg; break; case 'N': /* Ntrip-STR, optional for Ntrip Version 2.0 */ ntrip_str = optarg; break; case 'h': /* print help screen */ case '?': usage(0, argv[0]); break; default: usage(2, argv[0]); break; } } argc -= optind; argv += optind; /*** argument analysis ***/ if(argc > 0) { fprintf(stderr, "ERROR: Extra args on command line: "); for(; argc > 0; argc--) { fprintf(stderr, " %s", *argv++); } fprintf(stderr, "\n"); usage(1, argv[0]); /* never returns */ } if(outputmode != NTRIP1) { fprintf(stderr, "\nWARNING: *** NTRIP VERSION 2 PROTOCOL IS STILL" " BETA AND MAY BE CHANGED ***\n\n"); } if(ntrip_str && (outputmode == NTRIP1)) { fprintf(stderr, "WARNING: OutputMode is Ntrip version 1.0" " - Ntrip-STR will not be considered\n"); } if((reconnect_sec_max > 0) && (reconnect_sec_max < 256)) { fprintf(stderr, "WARNING: maximum delay between reconnect attemts changed from %d to 256 seconds\n" , reconnect_sec_max); reconnect_sec_max = 256; } if(!mountpoint) { fprintf(stderr, "ERROR: Missing mountpoint argument for stream upload\n"); exit(1); } if(!password[0]) { fprintf(stderr, "WARNING: Missing password argument for stream upload - " "are you really sure?\n"); } else { nBufferBytes += encode(authorization, sizeof(authorization), user, password); if(nBufferBytes > (int)sizeof(authorization)) { fprintf(stderr, "ERROR: user ID and/or password too long: %d (%d)\n" " user ID: %s \npassword: <%s>\n", nBufferBytes, (int)sizeof(authorization), user, password); exit(1); } } if(stream_name && stream_user && !stream_password) { fprintf(stderr, "WARNING: Missing password argument for stream download" " - are you really sure?\n"); } /*** proxy server handling ***/ if(*proxyhost) { outhost = inhost = proxyhost; outport = inport = proxyport; i = snprintf(szSendBuffer, sizeof(szSendBuffer),"http://%s:%d", casterouthost, casteroutport); if((i > SZ) || (i < 0)) { fprintf(stderr, "ERROR: Destination caster name/port to long - " "length = %d (max: %d)\n", i, SZ); exit(0); } else { strncpy(post_extension, szSendBuffer, (size_t)i); strcpy(szSendBuffer, ""); i = snprintf(szSendBuffer, sizeof(szSendBuffer),":%d", casteroutport); strncpy(rtsp_extension, szSendBuffer, SZ); strcpy(szSendBuffer,""); i = 0; } i = snprintf(szSendBuffer, sizeof(szSendBuffer),"http://%s:%d", casterinhost, casterinport); if((i > SZ) || (i < 0)) { fprintf(stderr,"ERROR: Destination caster name/port to long - length = %d (max: %d)\n", i, SZ); exit(0); } else { strncpy(get_extension, szSendBuffer, (size_t)i); strcpy(szSendBuffer, ""); i = 0; } } else { outhost = casterouthost; outport = casteroutport; inhost = casterinhost; inport = casterinport; } while(inputmode != LAST) { int input_init = 1; if(sigint_received) break; /*** InputMode handling ***/ switch(inputmode) { case INFILE: { if((gps_file = open(filepath, O_RDONLY)) < 0) { perror("ERROR: opening input file"); exit(1); } #ifndef WINDOWSVERSION /* set blocking inputmode in case it was not set (seems to be sometimes for fifo's) */ fcntl(gps_file, F_SETFL, 0); #endif printf("file input: file = %s\n", filepath); } break; case SERIAL: /* open serial port */ { #ifndef WINDOWSVERSION gps_serial = openserial(ttyport, 1, ttybaud); #else gps_serial = openserial(ttyport, ttybaud); #endif if(gps_serial == INVALID_HANDLE_VALUE) exit(1); printf("serial input: device = %s, speed = %d\n", ttyport, ttybaud); if(initfile) { char buffer[1024]; FILE *fh; int i; if((fh = fopen(initfile, "r"))) { while((i = fread(buffer, 1, sizeof(buffer), fh)) > 0) { #ifndef WINDOWSVERSION if((write(gps_serial, buffer, i)) != i) { perror("WARNING: sending init file"); input_init = 0; break; } #else DWORD nWrite = -1; if(!WriteFile(gps_serial, buffer, sizeof(buffer), &nWrite, NULL)) { fprintf(stderr,"ERROR: sending init file \n"); input_init = 0; break; } i = (int)nWrite; #endif } if(i < 0) { perror("ERROR: reading init file"); reconnect_sec_max = 0; input_init = 0; break; } fclose(fh); } else { fprintf(stderr, "ERROR: can't read init file <%s>\n", initfile); reconnect_sec_max = 0; input_init = 0; break; } } } break; case TCPSOCKET: case UDPSOCKET: case SISNET: case CASTER: { if(inputmode == SISNET) { if(!inhost) inhost = SISNET_SERVER; if(!inport) inport = SISNET_PORT; } else if(inputmode == CASTER) { if(!inport) inport = NTRIP_PORT; if(!inhost) inhost = NTRIP_CASTER; } else if((inputmode == TCPSOCKET) || (inputmode == UDPSOCKET)) { if(!inport) inport = SERV_TCP_PORT; if(!inhost) inhost = SERV_HOST_ADDR; } if(!(he = gethostbyname(inhost))) { fprintf(stderr, "ERROR: Input host <%s> unknown\n", inhost); usage(-2, argv[0]); } if((gps_socket = socket(AF_INET, inputmode == UDPSOCKET ? SOCK_DGRAM : SOCK_STREAM, 0)) == INVALID_SOCKET) { fprintf(stderr, "ERROR: can't create socket for incoming data stream\n"); exit(1); } memset((char *) &caster, 0x00, sizeof(caster)); if(!bindmode) memcpy(&caster.sin_addr, he->h_addr, (size_t)he->h_length); caster.sin_family = AF_INET; caster.sin_port = htons(inport); fprintf(stderr, "%s input: host = %s, port = %d, %s%s%s%s%s\n", inputmode == CASTER ? "caster" : inputmode == SISNET ? "sisnet" : inputmode == TCPSOCKET ? "tcp socket" : "udp socket", bindmode ? "127.0.0.1" : inet_ntoa(caster.sin_addr), inport, stream_name ? "stream = " : "", stream_name ? stream_name : "", initfile ? ", initfile = " : "", initfile ? initfile : "", bindmode ? "binding mode" : ""); if(bindmode) { if(bind(gps_socket, (struct sockaddr *) &caster, sizeof(caster)) < 0) { fprintf(stderr, "ERROR: can't bind input to port %d\n", inport); reconnect_sec_max = 0; input_init = 0; break; } } /* connect to input-caster or proxy server*/ else if(connect(gps_socket, (struct sockaddr *)&caster, sizeof(caster)) < 0) { fprintf(stderr, "WARNING: can't connect input to %s at port %d\n", inet_ntoa(caster.sin_addr), inport); input_init = 0; break; } if(stream_name) /* input from Ntrip Version 1.0 caster*/ { int init = 0; /* set socket buffer size */ setsockopt(gps_socket, SOL_SOCKET, SO_SNDBUF, (const char *) &size, sizeof(const char *)); if(stream_user && stream_password) { /* leave some space for login */ nBufferBytes=snprintf(szSendBuffer, sizeof(szSendBuffer)-40, "GET %s/%s HTTP/1.0\r\n" "User-Agent: %s/%s\r\n" "Connection: close\r\n" "Authorization: Basic ", get_extension, stream_name, AGENTSTRING, revisionstr); /* second check for old glibc */ if(nBufferBytes > (int)sizeof(szSendBuffer)-40 || nBufferBytes < 0) { fprintf(stderr, "ERROR: Source caster request too long\n"); input_init = 0; reconnect_sec_max =0; break; } nBufferBytes += encode(szSendBuffer+nBufferBytes, sizeof(szSendBuffer)-nBufferBytes-4, stream_user, stream_password); if(nBufferBytes > (int)sizeof(szSendBuffer)-4) { fprintf(stderr, "ERROR: Source caster user ID and/or password too long\n"); input_init = 0; reconnect_sec_max =0; break; } szSendBuffer[nBufferBytes++] = '\r'; szSendBuffer[nBufferBytes++] = '\n'; szSendBuffer[nBufferBytes++] = '\r'; szSendBuffer[nBufferBytes++] = '\n'; } else { nBufferBytes = snprintf(szSendBuffer, sizeof(szSendBuffer), "GET %s/%s HTTP/1.0\r\n" "User-Agent: %s/%s\r\n" "Connection: close\r\n" "\r\n", get_extension, stream_name, AGENTSTRING, revisionstr); } if((send(gps_socket, szSendBuffer, (size_t)nBufferBytes, 0)) != nBufferBytes) { fprintf(stderr, "WARNING: could not send Source caster request\n"); input_init = 0; break; } nBufferBytes = 0; /* check Source caster's response */ while(!init && nBufferBytes < (int)sizeof(szSendBuffer) && (nBufferBytes += recv(gps_socket, szSendBuffer, sizeof(szSendBuffer)-nBufferBytes, 0)) > 0) { if(strstr(szSendBuffer, "\r\n")) { if(!strstr(szSendBuffer, "ICY 200 OK")) { int k; fprintf(stderr, "ERROR: could not get requested data from Source caster: "); for(k = 0; k < nBufferBytes && szSendBuffer[k] != '\n' && szSendBuffer[k] != '\r'; ++k) { fprintf(stderr, "%c", isprint(szSendBuffer[k]) ? szSendBuffer[k] : '.'); } fprintf(stderr, "\n"); if(!strstr(szSendBuffer, "SOURCETABLE 200 OK")) { reconnect_sec_max =0; } input_init = 0; break; } else init = 1; } } } /* end input from Ntrip Version 1.0 caster */ if(initfile && inputmode != SISNET) { char buffer[1024]; FILE *fh; int i; if((fh = fopen(initfile, "r"))) { while((i = fread(buffer, 1, sizeof(buffer), fh)) > 0) { if((send(gps_socket, buffer, (size_t)i, 0)) != i) { perror("WARNING: sending init file"); input_init = 0; break; } } if(i < 0) { perror("ERROR: reading init file"); reconnect_sec_max = 0; input_init = 0; break; } fclose(fh); } else { fprintf(stderr, "ERROR: can't read init file <%s>\n", initfile); reconnect_sec_max = 0; input_init = 0; break; } } } if(inputmode == SISNET) { int i, j; char buffer[1024]; i = snprintf(buffer, sizeof(buffer), sisnet >= 30 ? "AUTH,%s,%s\r\n" : "AUTH,%s,%s", sisnetuser, sisnetpassword); if((send(gps_socket, buffer, (size_t)i, 0)) != i) { perror("WARNING: sending authentication for SISNeT data server"); input_init = 0; break; } i = sisnet >= 30 ? 7 : 5; if((j = recv(gps_socket, buffer, i, 0)) != i && strncmp("*AUTH", buffer, 5)) { fprintf(stderr, "WARNING: SISNeT connect failed:"); for(i = 0; i < j; ++i) { if(buffer[i] != '\r' && buffer[i] != '\n') { fprintf(stderr, "%c", isprint(buffer[i]) ? buffer[i] : '.'); } } fprintf(stderr, "\n"); input_init = 0; break; } if(sisnet >= 31) { if((send(gps_socket, "START\r\n", 7, 0)) != i) { perror("WARNING: sending Sisnet start command"); input_init = 0; break; } } } /*** receiver authentication ***/ if (recvrid && recvrpwd && ((inputmode == TCPSOCKET) || (inputmode == UDPSOCKET))) { if (strlen(recvrid) > (BUFSZ-3)) { fprintf(stderr, "ERROR: Receiver ID too long\n"); reconnect_sec_max = 0; input_init = 0; break; } else { fprintf(stderr, "Sending user ID for receiver...\n"); nBufferBytes = recv(gps_socket, szSendBuffer, BUFSZ, 0); strcpy(szSendBuffer, recvrid); strcat(szSendBuffer,"\r\n"); if(send(gps_socket,szSendBuffer, strlen(szSendBuffer), MSG_DONTWAIT) < 0) { perror("WARNING: sending user ID for receiver"); input_init = 0; break; } } if (strlen(recvrpwd) > (BUFSZ-3)) { fprintf(stderr, "ERROR: Receiver password too long\n"); reconnect_sec_max = 0; input_init = 0; break; } else { fprintf(stderr, "Sending user password for receiver...\n"); nBufferBytes = recv(gps_socket, szSendBuffer, BUFSZ, 0); strcpy(szSendBuffer, recvrpwd); strcat(szSendBuffer,"\r\n"); if(send(gps_socket, szSendBuffer, strlen(szSendBuffer), MSG_DONTWAIT) < 0) { perror("WARNING: sending user password for receiver"); input_init = 0; break; } } } break; default: usage(-1, argv[0]); break; } /* ----- main part ----- */ int output_init = 1, fallback = 0; while((input_init) && (output_init)) { #ifndef WINDOWSVERSION if((sigalarm_received) || (sigint_received) || (sigpipe_received)) break; #else if((sigalarm_received) || (sigint_received)) break; #endif if(!(he = gethostbyname(outhost))) { fprintf(stderr, "ERROR: Destination caster or proxy host <%s> unknown\n", outhost); close_session(casterouthost, mountpoint, session, rtsp_extension, 0); usage(-2, argv[0]); } /* create socket */ if((socket_tcp = socket(AF_INET, (outputmode == UDP ? SOCK_DGRAM : SOCK_STREAM), 0)) == INVALID_SOCKET) { perror("ERROR: tcp socket"); reconnect_sec_max = 0; break; } memset((char *) &caster, 0x00, sizeof(caster)); memcpy(&caster.sin_addr, he->h_addr, (size_t)he->h_length); caster.sin_family = AF_INET; caster.sin_port = htons(outport); /* connect to Destination caster or Proxy server*/ fprintf(stderr, "caster output: host = %s, port = %d, mountpoint = %s" ", mode = %s\n\n", inet_ntoa(caster.sin_addr), outport, mountpoint, outputmode == NTRIP1 ? "ntrip1" : outputmode == HTTP ? "http" : outputmode == UDP ? "udp" : "rtsp"); if(connect(socket_tcp, (struct sockaddr *) &caster, sizeof(caster)) < 0) { fprintf(stderr, "WARNING: can't connect output to %s at port %d\n", inet_ntoa(caster.sin_addr), outport); break; } /*** OutputMode handling ***/ switch(outputmode) { case UDP: { unsigned int session; char rtpbuf[1526]; int i=12, j; udp_init = time(0); srand(udp_init); session = rand(); udp_tim = rand(); udp_seq = rand(); rtpbuf[0] = (2<<6); /* padding, extension, csrc are empty */ rtpbuf[1] = 97; /* marker is empty */ rtpbuf[2] = (udp_seq>>8)&0xFF; rtpbuf[3] = (udp_seq)&0xFF; rtpbuf[4] = (udp_tim>>24)&0xFF; rtpbuf[5] = (udp_tim>>16)&0xFF; rtpbuf[6] = (udp_tim>>8)&0xFF; rtpbuf[7] = (udp_tim)&0xFF; /* sequence and timestamp are empty */ rtpbuf[8] = (session>>24)&0xFF; rtpbuf[9] = (session>>16)&0xFF; rtpbuf[10] = (session>>8)&0xFF; rtpbuf[11] = (session)&0xFF; ++udp_seq; j = snprintf(rtpbuf+i, sizeof(rtpbuf)-i-40, /* leave some space for login */ "POST /%s HTTP/1.1\r\n" "Host: %s\r\n" "Ntrip-Version: Ntrip/2.0\r\n" "User-Agent: %s/%s\r\n" "Authorization: Basic %s%s%s\r\n" "Connection: close\r\n" "Transfer-Encoding: chunked\r\n\r\n", mountpoint, casterouthost, AGENTSTRING, revisionstr, authorization, ntrip_str ? "\r\nNtrip-STR: " : "", ntrip_str); i += j; if(i > (int)sizeof(rtpbuf)-40 || j < 0) /* second check for old glibc */ { fprintf(stderr, "Requested data too long\n"); reconnect_sec_max = 0; output_init = 0; break; } else { rtpbuf[i++] = '\r'; rtpbuf[i++] = '\n'; rtpbuf[i++] = '\r'; rtpbuf[i++] = '\n'; if(send(socket_tcp, rtpbuf, i, 0) != i) { perror("Could not send UDP packet"); reconnect_sec_max = 0; output_init = 0; break; } else { int stop = 0; int numbytes; if((numbytes=recv(socket_tcp, rtpbuf, sizeof(rtpbuf)-1, 0)) > 0) { /* we don't expect message longer than 1513, so we cut the last byte for security reasons to prevent buffer overrun */ rtpbuf[numbytes] = 0; if(numbytes > 17+12 && (!strncmp(rtpbuf+12, "HTTP/1.1 200 OK\r\n", 17) || !strncmp(rtpbuf+12, "HTTP/1.0 200 OK\r\n", 17))) { const char *sessioncheck = "session: "; int l = strlen(sessioncheck)-1; int j=0; for(i = 12; j != l && i < numbytes-l; ++i) { for(j = 0; j < l && tolower(rtpbuf[i+j]) == sessioncheck[j]; ++j) ; } if(i != numbytes-l) /* found a session number */ { i+=l; session = 0; while(i < numbytes && rtpbuf[i] >= '0' && rtpbuf[i] <= '9') session = session * 10 + rtpbuf[i++]-'0'; if(rtpbuf[i] != '\r') { fprintf(stderr, "Could not extract session number\n"); stop = 1; } } } else { int k; fprintf(stderr, "Could not access mountpoint: "); for(k = 12; k < numbytes && rtpbuf[k] != '\n' && rtpbuf[k] != '\r'; ++k) { fprintf(stderr, "%c", isprint(rtpbuf[k]) ? rtpbuf[k] : '.'); } fprintf(stderr, "\n"); stop = 1; } } if(!stop) { send_receive_loop(socket_tcp, outputmode, NULL, 0, session); input_init = output_init = 0; /* send connection close always to allow nice session closing */ udp_tim += (time(0)-udp_init)*1000000/TIME_RESOLUTION; rtpbuf[0] = (2<<6); /* padding, extension, csrc are empty */ rtpbuf[1] = 98; /* marker is empty */ rtpbuf[2] = (udp_seq>>8)&0xFF; rtpbuf[3] = (udp_seq)&0xFF; rtpbuf[4] = (udp_tim>>24)&0xFF; rtpbuf[5] = (udp_tim>>16)&0xFF; rtpbuf[6] = (udp_tim>>8)&0xFF; rtpbuf[7] = (udp_tim)&0xFF; /* sequence and timestamp are empty */ rtpbuf[8] = (session>>24)&0xFF; rtpbuf[9] = (session>>16)&0xFF; rtpbuf[10] = (session>>8)&0xFF; rtpbuf[11] = (session)&0xFF; send(socket_tcp, rtpbuf, 12, 0); /* cleanup */ } else { reconnect_sec_max = 600; output_init = 0; } } } } break; case NTRIP1: /*** OutputMode Ntrip Version 1.0 ***/ fallback = 0; nBufferBytes = snprintf(szSendBuffer, sizeof(szSendBuffer), "SOURCE %s %s/%s\r\n" "Source-Agent: %s/%s\r\n\r\n", password, post_extension, mountpoint, AGENTSTRING, revisionstr); if((nBufferBytes > (int)sizeof(szSendBuffer)) || (nBufferBytes < 0)) { fprintf(stderr, "ERROR: Destination caster request to long\n"); reconnect_sec_max = 0; output_init = 0; break; } if(!send_to_caster(szSendBuffer, socket_tcp, nBufferBytes)) { output_init = 0; break; } /* check Destination caster's response */ nBufferBytes = recv(socket_tcp, szSendBuffer, sizeof(szSendBuffer), 0); szSendBuffer[nBufferBytes] = '\0'; if(!strstr(szSendBuffer, "OK")) { char *a; fprintf(stderr, "ERROR: Destination caster's or Proxy's reply is not OK: "); for(a = szSendBuffer; *a && *a != '\n' && *a != '\r'; ++a) { fprintf(stderr, "%.1s", isprint(*a) ? a : "."); } fprintf(stderr, "\n"); if((strstr(szSendBuffer,"ERROR - Bad Password")) || (strstr(szSendBuffer,"400 Bad Request"))) reconnect_sec_max = 0; output_init = 0; break; } #ifndef NDEBUG else { fprintf(stderr, "Destination caster response:\n%s\n", szSendBuffer); } #endif send_receive_loop(socket_tcp, outputmode, NULL, 0, 0); input_init = output_init = 0; break; case HTTP: /*** Ntrip-Version 2.0 HTTP/1.1 ***/ nBufferBytes = snprintf(szSendBuffer, sizeof(szSendBuffer), "POST %s/%s HTTP/1.1\r\n" "Host: %s\r\n" "Ntrip-Version: Ntrip/2.0\r\n" "User-Agent: %s/%s\r\n" "Authorization: Basic %s%s%s\r\n" "Connection: close\r\n" "Transfer-Encoding: chunked\r\n\r\n", post_extension, mountpoint, casterouthost, AGENTSTRING, revisionstr, authorization, ntrip_str ? "\r\nNtrip-STR: " : "", ntrip_str); if((nBufferBytes > (int)sizeof(szSendBuffer)) || (nBufferBytes < 0)) { fprintf(stderr, "ERROR: Destination caster request to long\n"); reconnect_sec_max = 0; output_init = 0; break; } if(!send_to_caster(szSendBuffer, socket_tcp, nBufferBytes)) { output_init = 0; break; } /* check Destination caster's response */ nBufferBytes = recv(socket_tcp, szSendBuffer, sizeof(szSendBuffer), 0); szSendBuffer[nBufferBytes] = '\0'; if(!strstr(szSendBuffer, "HTTP/1.1 200 OK")) { char *a; fprintf(stderr, "ERROR: Destination caster's%s reply is not OK: ", *proxyhost ? " or Proxy's" : ""); for(a = szSendBuffer; *a && *a != '\n' && *a != '\r'; ++a) { fprintf(stderr, "%.1s", isprint(*a) ? a : "."); } fprintf(stderr, "\n"); /* fallback if necessary */ if(!strstr(szSendBuffer,"Ntrip-Version: Ntrip/2.0\r\n")) { fprintf(stderr, " Ntrip Version 2.0 not implemented at Destination caster" " <%s>%s%s%s\n%s\n" "ntripserver falls back to Ntrip Version 1.0\n\n", casterouthost, *proxyhost ? " or Proxy <" : "", proxyhost, *proxyhost ? ">" : "", *proxyhost ? " or HTTP/1.1 not implemented at Proxy\n" : ""); close_session(casterouthost, mountpoint, session, rtsp_extension, 1); outputmode = NTRIP1; break; } else if((strstr(szSendBuffer,"HTTP/1.1 401 Unauthorized")) || (strstr(szSendBuffer,"501 Not Implemented"))) { reconnect_sec_max = 0; } output_init = 0; break; } #ifndef NDEBUG else { fprintf(stderr, "Destination caster response:\n%s\n",szSendBuffer); } #endif send_receive_loop(socket_tcp, outputmode, NULL, 0, 0); input_init = output_init = 0; break; case RTSP: /*** Ntrip-Version 2.0 RTSP / RTP ***/ if((socket_udp = socket(AF_INET, SOCK_DGRAM,0)) == INVALID_SOCKET) { perror("ERROR: udp socket"); exit(4); } /* fill structure with local address information for UDP */ memset(&local, 0, sizeof(local)); local.sin_family = AF_INET; local.sin_port = htons(0); local.sin_addr.s_addr = htonl(INADDR_ANY); len = (socklen_t)sizeof(local); /* bind() in order to get a random RTP client_port */ if((bind(socket_udp,(struct sockaddr *)&local, len)) < 0) { perror("ERROR: udp bind"); reconnect_sec_max = 0; output_init = 0; break; } if((getsockname(socket_udp, (struct sockaddr*)&local, &len)) != -1) { client_port = (unsigned int)ntohs(local.sin_port); } else { perror("ERROR: getsockname(localhost)"); reconnect_sec_max = 0; output_init = 0; break; } nBufferBytes = snprintf(szSendBuffer, sizeof(szSendBuffer), "SETUP rtsp://%s%s/%s RTSP/1.0\r\n" "CSeq: %d\r\n" "Ntrip-Version: Ntrip/2.0\r\n" "Ntrip-Component: Ntripserver\r\n" "User-Agent: %s/%s\r\n" "Transport: RTP/GNSS;unicast;client_port=%u\r\n" "Authorization: Basic %s%s%s\r\n\r\n", casterouthost, rtsp_extension, mountpoint, udp_cseq++, AGENTSTRING, revisionstr, client_port, authorization, ntrip_str ? "\r\nNtrip-STR: " : "", ntrip_str); if((nBufferBytes > (int)sizeof(szSendBuffer)) || (nBufferBytes < 0)) { fprintf(stderr, "ERROR: Destination caster request to long\n"); reconnect_sec_max = 0; output_init = 0; break; } if(!send_to_caster(szSendBuffer, socket_tcp, nBufferBytes)) { output_init = 0; break; } while((nBufferBytes = recv(socket_tcp, szSendBuffer, sizeof(szSendBuffer), 0)) > 0) { /* check Destination caster's response */ szSendBuffer[nBufferBytes] = '\0'; if(!strstr(szSendBuffer, "RTSP/1.0 200 OK")) { char *a; fprintf(stderr, "ERROR: Destination caster's%s reply is not OK: ", *proxyhost ? " or Proxy's" : ""); for(a = szSendBuffer; *a && *a != '\n' && *a != '\r'; ++a) { fprintf(stderr, "%c", isprint(*a) ? *a : '.'); } fprintf(stderr, "\n"); /* fallback if necessary */ if(strncmp(szSendBuffer, "RTSP",4) != 0) { if(strstr(szSendBuffer,"Ntrip-Version: Ntrip/2.0\r\n")) { fprintf(stderr, " RTSP not implemented at Destination caster <%s>%s%s%s\n\n" "ntripserver falls back to Ntrip Version 2.0 in TCP/IP" " mode\n\n", casterouthost, *proxyhost ? " or Proxy <" :"", proxyhost, *proxyhost ? ">":""); close_session(casterouthost, mountpoint, session, rtsp_extension, 1); outputmode = HTTP; fallback = 1; break; } else { fprintf(stderr, " Ntrip-Version 2.0 not implemented at Destination caster" "<%s>%s%s%s\n%s" " or RTSP/1.0 not implemented at Destination caster%s\n\n" "ntripserver falls back to Ntrip Version 1.0\n\n", casterouthost, *proxyhost ? " or Proxy <" :"", proxyhost, *proxyhost ? ">":"", *proxyhost ? " or HTTP/1.1 not implemented at Proxy\n" : "", *proxyhost ? " or Proxy" :""); close_session(casterouthost, mountpoint, session, rtsp_extension, 1); outputmode = NTRIP1; fallback = 1; break; } } else if((strstr(szSendBuffer, "RTSP/1.0 401 Unauthorized")) || (strstr(szSendBuffer, "RTSP/1.0 501 Not Implemented"))) { reconnect_sec_max = 0; } output_init = 0; break; } #ifndef NDEBUG else { fprintf(stderr, "Destination caster response:\n%s\n",szSendBuffer); } #endif if((strstr(szSendBuffer,"RTSP/1.0 200 OK\r\n")) && (strstr(szSendBuffer,"CSeq: 1\r\n"))) { for(token = strtok(szSendBuffer, dlim); token != NULL; token = strtok(NULL, dlim)) { tok_buf[i] = token; i++; } session = atoi(tok_buf[6]); server_port = atoi(tok_buf[10]); nBufferBytes = snprintf(szSendBuffer, sizeof(szSendBuffer), "RECORD rtsp://%s%s/%s RTSP/1.0\r\n" "CSeq: %d\r\n" "Session: %u\r\n" "\r\n", casterouthost, rtsp_extension, mountpoint, udp_cseq++, session); if((nBufferBytes >= (int)sizeof(szSendBuffer)) || (nBufferBytes < 0)) { fprintf(stderr, "ERROR: Destination caster request to long\n"); reconnect_sec_max = 0; output_init = 0; break; } if(!send_to_caster(szSendBuffer, socket_tcp, nBufferBytes)) { output_init = 0; break; } } else if((strstr(szSendBuffer,"RTSP/1.0 200 OK\r\n")) && (strstr(szSendBuffer, "CSeq: 2\r\n"))) { /* fill structure with caster address information for UDP */ memset(&casterRTP, 0, sizeof(casterRTP)); casterRTP.sin_family = AF_INET; casterRTP.sin_port = htons(((uint16_t)server_port)); if((he = gethostbyname(outhost))== NULL) { fprintf(stderr, "ERROR: Destination caster unknown\n"); reconnect_sec_max = 0; output_init = 0; break; } else { memcpy((char *)&casterRTP.sin_addr.s_addr, he->h_addr_list[0], (size_t)he->h_length); } len = (socklen_t)sizeof(casterRTP); send_receive_loop(socket_udp, outputmode, (struct sockaddr *)&casterRTP, (socklen_t)len, session); break; } else{break;} } input_init = output_init = 0; break; } } close_session(casterouthost, mountpoint, session, rtsp_extension, 0); if( (reconnect_sec_max || fallback) && !sigint_received ) reconnect_sec = reconnect(reconnect_sec, reconnect_sec_max); else inputmode = LAST; } return 0; } static void send_receive_loop(sockettype sock, int outmode, struct sockaddr* pcasterRTP, socklen_t length, unsigned int rtpssrc) { int nodata = 0; char buffer[BUFSZ] = { 0 }; char sisnetbackbuffer[200]; char szSendBuffer[BUFSZ] = ""; int nBufferBytes = 0; /* RTSP / RTP Mode */ int isfirstpacket = 1; struct timeval now; struct timeval last = {0,0}; long int sendtimediff; int rtpseq = 0; int rtptime = 0; time_t laststate = time(0); if(outmode == UDP) { rtptime = time(0); #ifdef WINDOWSVERSION u_long blockmode = 1; if(ioctlsocket(socket_tcp, FIONBIO, &blockmode)) #else /* WINDOWSVERSION */ if(fcntl(socket_tcp, F_SETFL, O_NONBLOCK) < 0) #endif /* WINDOWSVERSION */ { fprintf(stderr, "Could not set nonblocking mode\n"); return; } } else if(outmode == RTSP) { #ifdef WINDOWSVERSION u_long blockmode = 1; if(ioctlsocket(socket_tcp, FIONBIO, &blockmode)) #else /* WINDOWSVERSION */ if(fcntl(socket_tcp, F_SETFL, O_NONBLOCK) < 0) #endif /* WINDOWSVERSION */ { fprintf(stderr, "Could not set nonblocking mode\n"); return; } } /* data transmission */ fprintf(stderr,"transfering data ...\n"); int send_recv_success = 0; #ifdef WINDOWSVERSION time_t nodata_begin = 0, nodata_current = 0; #endif while(1) { if(send_recv_success < 3) send_recv_success++; if(!nodata) { #ifndef WINDOWSVERSION alarm(ALARMTIME); #else time(&nodata_begin); #endif } else { nodata = 0; #ifdef WINDOWSVERSION time(&nodata_current); if(difftime(nodata_current, nodata_begin) >= ALARMTIME) { sigalarm_received = 1; fprintf(stderr, "ERROR: more than %d seconds no activity\n", ALARMTIME); } #endif } /* signal handling*/ #ifdef WINDOWSVERSION if((sigalarm_received) || (sigint_received)) break; #else if((sigalarm_received) || (sigint_received) || (sigpipe_received)) break; #endif if(!nBufferBytes) { if(inputmode == SISNET && sisnet <= 30) { int i; /* a somewhat higher rate than 1 second to get really each block */ /* means we need to skip double blocks sometimes */ struct timeval tv = {0,700000}; select(0, 0, 0, 0, &tv); memcpy(sisnetbackbuffer, buffer, sizeof(sisnetbackbuffer)); i = (sisnet >= 30 ? 5 : 3); if((send(gps_socket, "MSG\r\n", i, 0)) != i) { perror("WARNING: sending SISNeT data request failed"); return; } } /*** receiving data ****/ if(inputmode == INFILE) nBufferBytes = read(gps_file, buffer, sizeof(buffer)); else if(inputmode == SERIAL) { #ifndef WINDOWSVERSION nBufferBytes = read(gps_serial, buffer, sizeof(buffer)); #else DWORD nRead = 0; if(!ReadFile(gps_serial, buffer, sizeof(buffer), &nRead, NULL)) { fprintf(stderr,"ERROR: reading serial input failed\n"); return; } nBufferBytes = (int)nRead; #endif } else #ifdef WINDOWSVERSION nBufferBytes = recv(gps_socket, buffer, sizeof(buffer), 0); #else nBufferBytes = read(gps_socket, buffer, sizeof(buffer)); #endif if(!nBufferBytes) { fprintf(stderr, "WARNING: no data received from input\n"); nodata = 1; #ifndef WINDOWSVERSION sleep(3); #else Sleep(3*1000); #endif continue; } else if((nBufferBytes < 0) && (!sigint_received)) { perror("WARNING: reading input failed"); return; } /* we can compare the whole buffer, as the additional bytes remain unchanged */ if(inputmode == SISNET && sisnet <= 30 && !memcmp(sisnetbackbuffer, buffer, sizeof(sisnetbackbuffer))) { nBufferBytes = 0; } } if(nBufferBytes < 0) return; /** send data ***/ if((nBufferBytes) && (outmode == NTRIP1)) /*** Ntrip-Version 1.0 ***/ { int i; if((i = send(sock, buffer, (size_t)nBufferBytes, MSG_DONTWAIT)) != nBufferBytes) { if(i < 0) { if(errno != EAGAIN) { perror("WARNING: could not send data to Destination caster"); return; } } else if(i) { memmove(buffer, buffer+i, (size_t)(nBufferBytes-i)); nBufferBytes -= i; } }else { nBufferBytes = 0; } } else if((nBufferBytes) && (outmode == UDP)) { char rtpbuf[1592]; int i; int ct = time(0); udp_tim += (ct-udp_init)*1000000/TIME_RESOLUTION; udp_init = ct; rtpbuf[0] = (2<<6); rtpbuf[1] = 96; rtpbuf[2] = (udp_seq>>8)&0xFF; rtpbuf[3] = (udp_seq)&0xFF; rtpbuf[4] = (udp_tim>>24)&0xFF; rtpbuf[5] = (udp_tim>>16)&0xFF; rtpbuf[6] = (udp_tim>>8)&0xFF; rtpbuf[7] = (udp_tim)&0xFF; rtpbuf[8] = (rtpssrc>>24)&0xFF; rtpbuf[9] = (rtpssrc>>16)&0xFF; rtpbuf[10] = (rtpssrc>>8)&0xFF; rtpbuf[11] = (rtpssrc)&0xFF; ++udp_seq; memcpy(rtpbuf+12, buffer, nBufferBytes); if((i = send(socket_tcp, rtpbuf, (size_t)nBufferBytes+12, MSG_DONTWAIT)) != nBufferBytes+12) { if(errno != EAGAIN) { perror("WARNING: could not send data to Destination caster"); return; } } else nBufferBytes = 0; i = recv(socket_tcp, rtpbuf, sizeof(rtpbuf), 0); if(i >= 12 && (unsigned char)rtpbuf[0] == (2 << 6) && rtpssrc == (unsigned int)(((unsigned char)rtpbuf[8]<<24)+((unsigned char)rtpbuf[9]<<16) +((unsigned char)rtpbuf[10]<<8)+(unsigned char)rtpbuf[11])) { if(rtpbuf[1] == 96) rtptime = time(0); else if(rtpbuf[1] == 98) { fprintf(stderr, "Connection end\n"); return; } } else if(time(0) > rtptime+60) { fprintf(stderr, "Timeout\n"); return; } } /*** Ntrip-Version 2.0 HTTP/1.1 ***/ else if((nBufferBytes) && (outmode == HTTP)) { int i, nChunkBytes, j = 1; nChunkBytes = snprintf(szSendBuffer, sizeof(szSendBuffer),"%x\r\n", nBufferBytes); send(sock, szSendBuffer, nChunkBytes, MSG_DONTWAIT); if((i = send(sock, buffer, (size_t)nBufferBytes, MSG_DONTWAIT)) != nBufferBytes) { if(i < 0) { if(errno != EAGAIN) { perror("WARNING: could not send data to Destination caster"); return; } } else if(i) { while(j>0) { j = send(sock, buffer, (size_t)BUFSZ, MSG_DONTWAIT); } } } else { send(sock, "\r\n", strlen("\r\n"), MSG_DONTWAIT); nBufferBytes = 0; } } /*** Ntrip-Version 2.0 RTSP(TCP) / RTP(UDP) ***/ else if((nBufferBytes) && (outmode == RTSP)) { time_t ct; int r; char rtpbuffer[BUFSZ+12]; int i, j; gettimeofday(&now, NULL); /* RTP data packet generation*/ if(isfirstpacket){ rtpseq = rand(); rtptime = rand(); last = now; isfirstpacket = 0; } else { ++rtpseq; sendtimediff = (((now.tv_sec - last.tv_sec)*1000000) + (now.tv_usec - last.tv_usec)); rtptime += sendtimediff/TIME_RESOLUTION; } rtpbuffer[0] = (RTP_VERSION<<6); /* padding, extension, csrc are empty */ rtpbuffer[1] = 96; /* marker is empty */ rtpbuffer[2] = rtpseq>>8; rtpbuffer[3] = rtpseq; rtpbuffer[4] = rtptime>>24; rtpbuffer[5] = rtptime>>16; rtpbuffer[6] = rtptime>>8; rtpbuffer[7] = rtptime; rtpbuffer[8] = rtpssrc>>24; rtpbuffer[9] = rtpssrc>>16; rtpbuffer[10] = rtpssrc>>8; rtpbuffer[11] = rtpssrc; for(j=0; j 15) { i = snprintf(buffer, sizeof(buffer), "GET_PARAMETER rtsp://%s%s/%s RTSP/1.0\r\n" "CSeq: %d\r\n" "Session: %u\r\n" "\r\n", casterouthost, rtsp_extension, mountpoint, udp_cseq++, rtpssrc); if(i > (int)sizeof(buffer) || i < 0) { fprintf(stderr, "Requested data too long\n"); return; } else if(send(socket_tcp, buffer, (size_t)i, 0) != i) { perror("send"); return; } laststate = ct; } /* ignore RTSP server replies */ if((r=recv(socket_tcp, buffer, sizeof(buffer), 0)) < 0) { #ifdef WINDOWSVERSION if(WSAGetLastError() != WSAEWOULDBLOCK) #else /* WINDOWSVERSION */ if(errno != EAGAIN) #endif /* WINDOWSVERSION */ { fprintf(stderr, "Control connection closed\n"); return; } } else if(!r) { fprintf(stderr, "Control connection read error\n"); return; } } if(send_recv_success == 3) reconnect_sec = 1; } return; } /******************************************************************** * openserial * * Open the serial port with the given device name and configure it for * reading NMEA data from a GPS receiver. * * Parameters: * tty : pointer to : A zero-terminated string containing the device * unsigned char name of the appropriate serial port. * blocksz : integer : Block size for port I/O (ifndef WINDOWSVERSION) * baud : integer : Baud rate for port I/O * * Return Value: * The function returns a file descriptor for the opened port if successful. * The function returns -1 / INVALID_HANDLE_VALUE in the event of an error. * * Remarks: * ********************************************************************/ #ifndef WINDOWSVERSION static int openserial(const char * tty, int blocksz, int baud) { struct termios termios; /*** opening the serial port ***/ gps_serial = open(tty, O_RDWR | O_NONBLOCK | O_EXLOCK); if(gps_serial < 0) { perror("ERROR: opening serial connection"); return (-1); } /*** configuring the serial port ***/ if(tcgetattr(gps_serial, &termios) < 0) { perror("ERROR: get serial attributes"); return (-1); } termios.c_iflag = 0; termios.c_oflag = 0; /* (ONLRET) */ termios.c_cflag = CS8 | CLOCAL | CREAD; termios.c_lflag = 0; { int cnt; for(cnt = 0; cnt < NCCS; cnt++) termios.c_cc[cnt] = -1; } termios.c_cc[VMIN] = blocksz; termios.c_cc[VTIME] = 2; #if (B4800 != 4800) /* Not every system has speed settings equal to absolute speed value. */ switch (baud) { case 300: baud = B300; break; case 1200: baud = B1200; break; case 2400: baud = B2400; break; case 4800: baud = B4800; break; case 9600: baud = B9600; break; case 19200: baud = B19200; break; case 38400: baud = B38400; break; #ifdef B57600 case 57600: baud = B57600; break; #endif #ifdef B115200 case 115200: baud = B115200; break; #endif #ifdef B230400 case 230400: baud = B230400; break; #endif default: fprintf(stderr, "WARNING: Baud settings not useful, using 19200\n"); baud = B19200; break; } #endif if(cfsetispeed(&termios, baud) != 0) { perror("ERROR: setting serial speed with cfsetispeed"); return (-1); } if(cfsetospeed(&termios, baud) != 0) { perror("ERROR: setting serial speed with cfsetospeed"); return (-1); } if(tcsetattr(gps_serial, TCSANOW, &termios) < 0) { perror("ERROR: setting serial attributes"); return (-1); } if(fcntl(gps_serial, F_SETFL, 0) == -1) { perror("WARNING: setting blocking inputmode failed"); } return (gps_serial); } #else static HANDLE openserial(const char * tty, int baud) { DCB dcb; COMMTIMEOUTS cmt; char compath[15] = ""; snprintf(compath, sizeof(compath), "\\\\.\\%s", tty); /*** opening the serial port ***/ gps_serial = CreateFile(compath, GENERIC_READ | GENERIC_WRITE, 0, 0, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, 0); if(gps_serial == INVALID_HANDLE_VALUE) { fprintf(stderr, "ERROR: opening serial connection\n"); return (INVALID_HANDLE_VALUE); } /*** configuring the serial port ***/ FillMemory(&dcb, sizeof(dcb), 0); dcb.DCBlength = sizeof(dcb); if(!GetCommState(gps_serial, &dcb)) { fprintf(stderr, "ERROR: get serial attributes\n"); return (INVALID_HANDLE_VALUE); } switch (baud) { case 110: baud = CBR_110; break; case 300: baud = CBR_300; break; case 600: baud = CBR_600; break; case 1200: baud = CBR_1200; break; case 2400: baud = CBR_2400; break; case 4800: baud = CBR_4800; break; case 9600: baud = CBR_9600; break; case 14400: baud = CBR_14400; break; case 19200: baud = CBR_19200; break; case 38400: baud = CBR_38400; break; case 56000: baud = CBR_56000; break; case 57600: baud = CBR_57600; break; case 115200: baud = CBR_115200; break; case 128000: baud = CBR_128000; break; case 256000: baud = CBR_256000; break; default: fprintf(stderr, "WARNING: Baud settings not useful, using 19200\n"); baud = CBR_19200; break; } dcb.BaudRate = baud; dcb.ByteSize = 8; dcb.StopBits = ONESTOPBIT; dcb.Parity = NOPARITY; if(!GetCommState(gps_serial, &dcb)) { fprintf(stderr, "ERROR: get serial attributes\n"); return (INVALID_HANDLE_VALUE); } FillMemory(&cmt, sizeof(cmt), 0); cmt.ReadIntervalTimeout = 1000; cmt.ReadTotalTimeoutMultiplier = 1; cmt.ReadTotalTimeoutConstant = 0; if(!SetCommTimeouts(gps_serial, &cmt)) { fprintf(stderr, "ERROR: set serial timeouts\n"); return (INVALID_HANDLE_VALUE); } return (gps_serial); } /* openserial */ #endif /******************************************************************** * usage * * Send a usage message to standard error and quit the program. * * Parameters: * None. * * Return Value: * The function does not return a value. * * Remarks: * *********************************************************************/ #ifdef __GNUC__ __attribute__ ((noreturn)) #endif /* __GNUC__ */ void usage(int rc, char *name) { fprintf(stderr, "Version %s (%s) GPL" COMPILEDATE "\nUsage:\n%s [OPTIONS]\n", revisionstr, datestr, name); fprintf(stderr, "PURPOSE\n"); fprintf(stderr, " The purpose of this program is to pick up a GNSS data stream (Input, Source)\n"); fprintf(stderr, " from either\n\n"); fprintf(stderr, " 1. a Serial port, or\n"); fprintf(stderr, " 2. an IP server, or\n"); fprintf(stderr, " 3. a File, or\n"); fprintf(stderr, " 4. a SISNeT Data Server, or\n"); fprintf(stderr, " 5. a UDP server, or\n"); fprintf(stderr, " 6. an NTRIP Version 1.0 Caster\n\n"); fprintf(stderr, " and forward that incoming stream (Output, Destination) to either\n\n"); fprintf(stderr, " - an NTRIP Version 1.0 Caster, or\n"); fprintf(stderr, " - an NTRIP Version 2.0 Caster via TCP/IP or RTSP/RTP.\n\n\n"); fprintf(stderr, "OPTIONS\n"); fprintf(stderr, " -h|? print this help screen\n\n"); fprintf(stderr, " -E Proxy server host name or address, required i.e. when\n"); fprintf(stderr, " running the program in a proxy server protected LAN,\n"); fprintf(stderr, " optional\n"); fprintf(stderr, " -F Proxy server IP port, required i.e. when running\n"); fprintf(stderr, " the program in a proxy server protected LAN, optional\n"); fprintf(stderr, " -R Reconnect mechanism with maximum delay between reconnect\n"); fprintf(stderr, " attemts in seconds, default: no reconnect activated,\n"); fprintf(stderr, " optional\n\n"); fprintf(stderr, " -M Sets the input mode (1 = Serial Port, 2 = IP server,\n"); fprintf(stderr, " 3 = File, 4 = SISNeT Data Server, 5 = UDP server, 6 = NTRIP Caster),\n"); fprintf(stderr, " mandatory\n\n"); fprintf(stderr, " = 1 (Serial Port):\n"); fprintf(stderr, " -i Serial input device, default: /dev/gps, mandatory if\n"); fprintf(stderr, " =1\n"); fprintf(stderr, " -b Serial input baud rate, default: 19200 bps, mandatory\n"); fprintf(stderr, " if =1\n"); fprintf(stderr, " -f Name of initialization file to be send to input device,\n"); fprintf(stderr, " optional\n\n"); fprintf(stderr, " = 2|5 (IP port | UDP port):\n"); fprintf(stderr, " -H Input host name or address, default: 127.0.0.1,\n"); fprintf(stderr, " mandatory if = 2|5\n"); fprintf(stderr, " -P Input port, default: 1025, mandatory if = 2|5\n"); fprintf(stderr, " -f Name of initialization file to be send to server,\n"); fprintf(stderr, " optional\n"); fprintf(stderr, " -x User ID to access incoming stream, optional\n"); fprintf(stderr, " -y Password, to access incoming stream, optional\n"); fprintf(stderr, " -B Bind to incoming UDP stream, optional for = 5\n\n"); fprintf(stderr, " = 3 (File):\n"); fprintf(stderr, " -s File name to simulate stream by reading data from (log)\n"); fprintf(stderr, " file, default is /dev/stdin, mandatory for = 3\n\n"); fprintf(stderr, " = 4 (SISNeT Data Server):\n"); fprintf(stderr, " -H SISNeT Data Server name or address,\n"); fprintf(stderr, " default: 131.176.49.142, mandatory if = 4\n"); fprintf(stderr, " -P SISNeT Data Server port, default: 7777, mandatory if\n"); fprintf(stderr, " = 4\n"); fprintf(stderr, " -u SISNeT Data Server user ID, mandatory if = 4\n"); fprintf(stderr, " -l SISNeT Data Server password, mandatory if = 4\n"); fprintf(stderr, " -V SISNeT Data Server Version number, options are 2.1, 3.0\n"); fprintf(stderr, " or 3.1, default: 3.1, mandatory if = 4\n\n"); fprintf(stderr, " = 6 (NTRIP Version 1.0 Caster):\n"); fprintf(stderr, " -H Source caster name or address, default: 127.0.0.1,\n"); fprintf(stderr, " mandatory if = 6\n"); fprintf(stderr, " -P Source caster port, default: 2101, mandatory if\n"); fprintf(stderr, " = 6\n"); fprintf(stderr, " -D Source caster mountpoint for stream input, mandatory if\n"); fprintf(stderr, " = 6\n"); fprintf(stderr, " -U Source caster user Id for input stream access, mandatory\n"); fprintf(stderr, " for protected streams if = 6\n"); fprintf(stderr, " -W Source caster password for input stream access, mandatory\n"); fprintf(stderr, " for protected streams if = 6\n\n"); fprintf(stderr, " -O Sets output mode for communatation with destination caster\n"); fprintf(stderr, " 1 = http: NTRIP Version 2.0 Caster in TCP/IP mode\n"); fprintf(stderr, " 2 = rtsp: NTRIP Version 2.0 Caster in RTSP/RTP mode\n"); fprintf(stderr, " 3 = ntrip1: NTRIP Version 1.0 Caster\n"); fprintf(stderr, " 4 = udp: NTRIP Version 2.0 Caster in Plain UDP mode\n"); fprintf(stderr, " optional\n\n"); fprintf(stderr, " Defaults to NTRIP1.0, but will change to 2.0 in future versions\n"); fprintf(stderr, " Note that the program automatically falls back from mode rtsp to mode http and\n"); fprintf(stderr, " further to mode ntrip1 if necessary.\n\n"); fprintf(stderr, " -a Destination caster name or address, default: 127.0.0.1,\n"); fprintf(stderr, " mandatory\n"); fprintf(stderr, " -p Destination caster port, default: 2101, mandatory\n"); fprintf(stderr, " -m Destination caster mountpoint for stream upload,\n"); fprintf(stderr, " mandatory\n"); fprintf(stderr, " -n Destination caster user ID for stream upload to\n"); fprintf(stderr, " mountpoint, only for NTRIP Version 2.0 destination\n"); fprintf(stderr, " casters, mandatory\n"); fprintf(stderr, " -c Destination caster password for stream upload to\n"); fprintf(stderr, " mountpoint, mandatory\n"); fprintf(stderr, " -N Sourcetable STR-record\n"); fprintf(stderr, " optional for NTRIP Version 2.0 in RTSP/RTP and TCP/IP mode\n\n"); exit(rc); } /* usage */ /********************************************************************/ /* signal handling */ /********************************************************************/ #ifdef __GNUC__ static void handle_sigint(int sig __attribute__((__unused__))) #else /* __GNUC__ */ static void handle_sigint(int sig) #endif /* __GNUC__ */ { sigint_received = 1; fprintf(stderr, "WARNING: SIGINT received - ntripserver terminates\n"); } #ifndef WINDOWSVERSION #ifdef __GNUC__ static void handle_alarm(int sig __attribute__((__unused__))) #else /* __GNUC__ */ static void handle_alarm(int sig) #endif /* __GNUC__ */ { sigalarm_received = 1; fprintf(stderr, "ERROR: more than %d seconds no activity\n", ALARMTIME); } #ifdef __GNUC__ static void handle_sigpipe(int sig __attribute__((__unused__))) #else /* __GNUC__ */ static void handle_sigpipe(int sig) #endif /* __GNUC__ */ { sigpipe_received = 1; } #endif /* WINDOWSVERSION */ static void setup_signal_handler(int sig, void (*handler)(int)) { #if _POSIX_VERSION > 198800L struct sigaction action; action.sa_handler = handler; sigemptyset(&(action.sa_mask)); sigaddset(&(action.sa_mask), sig); action.sa_flags = 0; sigaction(sig, &action, 0); #else signal(sig, handler); #endif return; } /* setupsignal_handler */ /******************************************************************** * base64-encoding * *******************************************************************/ static const char encodingTable [64] = { 'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P', 'Q','R','S','T','U','V','W','X','Y','Z','a','b','c','d','e','f', 'g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v', 'w','x','y','z','0','1','2','3','4','5','6','7','8','9','+','/' }; /* does not buffer overrun, but breaks directly after an error */ /* returns the number of required bytes */ static int encode(char *buf, int size, const char *user, const char *pwd) { unsigned char inbuf[3]; char *out = buf; int i, sep = 0, fill = 0, bytes = 0; while(*user || *pwd) { i = 0; while(i < 3 && *user) inbuf[i++] = *(user++); if(i < 3 && !sep) {inbuf[i++] = ':'; ++sep; } while(i < 3 && *pwd) inbuf[i++] = *(pwd++); while(i < 3) {inbuf[i++] = 0; ++fill; } if(out-buf < size-1) *(out++) = encodingTable[(inbuf [0] & 0xFC) >> 2]; if(out-buf < size-1) *(out++) = encodingTable[((inbuf [0] & 0x03) << 4) | ((inbuf [1] & 0xF0) >> 4)]; if(out-buf < size-1) { if(fill == 2) *(out++) = '='; else *(out++) = encodingTable[((inbuf [1] & 0x0F) << 2) | ((inbuf [2] & 0xC0) >> 6)]; } if(out-buf < size-1) { if(fill >= 1) *(out++) = '='; else *(out++) = encodingTable[inbuf [2] & 0x3F]; } bytes += 4; } if(out-buf < size) *out = 0; return bytes; }/* base64 Encoding */ /******************************************************************** * send message to caster * *********************************************************************/ static int send_to_caster(char *input, sockettype socket, int input_size) { int send_error = 1; if((send(socket, input, (size_t)input_size, 0)) != input_size) { fprintf(stderr, "WARNING: could not send full header to Destination caster\n"); send_error = 0; } #ifndef NDEBUG else { fprintf(stderr, "\nDestination caster request:\n"); fprintf(stderr, "%s", input); } #endif return send_error; }/* send_to_caster */ /******************************************************************** * reconnect * *********************************************************************/ int reconnect(int rec_sec, int rec_sec_max) { fprintf(stderr,"reconnect in <%d> seconds\n\n", rec_sec); rec_sec *= 2; if (rec_sec > rec_sec_max) rec_sec = rec_sec_max; #ifndef WINDOWSVERSION sleep(rec_sec); sigpipe_received = 0; #else Sleep(rec_sec*1000); #endif sigalarm_received = 0; return rec_sec; } /* reconnect */ /******************************************************************** * close session * *********************************************************************/ static void close_session(const char *caster_addr, const char *mountpoint, int session, char *rtsp_ext, int fallback) { int size_send_buf; char send_buf[BUFSZ]; if(!fallback) { if((gps_socket != INVALID_SOCKET) && ((inputmode == TCPSOCKET) || (inputmode == UDPSOCKET) || (inputmode == CASTER) || (inputmode == SISNET))) { if(closesocket(gps_socket) == -1) { perror("ERROR: close input device "); exit(0); } else { gps_socket = -1; #ifndef NDEBUG fprintf(stderr, "close input device: successful\n"); #endif } } else if((gps_serial != INVALID_HANDLE_VALUE) && (inputmode == SERIAL)) { #ifndef WINDOWSVERSION if(close(gps_serial) == INVALID_HANDLE_VALUE) { perror("ERROR: close input device "); exit(0); } #else if(!CloseHandle(gps_serial)) { fprintf(stderr, "ERROR: close input device "); exit(0); } #endif else { gps_serial = INVALID_HANDLE_VALUE; #ifndef NDEBUG fprintf(stderr, "close input device: successful\n"); #endif } } else if((gps_file != -1) && (inputmode == INFILE)) { if(close(gps_file) == -1) { perror("ERROR: close input device "); exit(0); } else { gps_file = -1; #ifndef NDEBUG fprintf(stderr, "close input device: successful\n"); #endif } } } if(socket_udp != INVALID_SOCKET) { if(udp_cseq > 2) { size_send_buf = snprintf(send_buf, sizeof(send_buf), "TEARDOWN rtsp://%s%s/%s RTSP/1.0\r\n" "CSeq: %d\r\n" "Session: %u\r\n" "\r\n", caster_addr, rtsp_ext, mountpoint, udp_cseq++, session); if((size_send_buf >= (int)sizeof(send_buf)) || (size_send_buf < 0)) { fprintf(stderr, "ERROR: Destination caster request to long\n"); exit(0); } send_to_caster(send_buf, socket_tcp, size_send_buf); strcpy(send_buf,""); size_send_buf = recv(socket_tcp, send_buf, sizeof(send_buf), 0); send_buf[size_send_buf] = '\0'; #ifndef NDEBUG fprintf(stderr, "Destination caster response:\n%s", send_buf); #endif } if(closesocket(socket_udp)==-1) { perror("ERROR: close udp socket"); exit(0); } else { socket_udp = -1; #ifndef NDEBUG fprintf(stderr, "close udp socket: successful\n"); #endif } } if(socket_tcp != INVALID_SOCKET) { if(closesocket(socket_tcp) == -1) { perror("ERROR: close tcp socket"); exit(0); } else { socket_tcp = -1; #ifndef NDEBUG fprintf(stderr, "close tcp socket: successful\n"); #endif } } } /* close_session */