// // This file is part of Dire Wolf, an amateur radio packet TNC. // // Copyright (C) 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2020 John Langner, WB2OSZ // // 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, see . // /*------------------------------------------------------------------ * * Module: server.c * * Purpose: Provide service to other applications via "AGW TCPIP Socket Interface". * * Input: * * Outputs: * * Description: This provides a TCP socket for communication with a client application. * It implements a subset of the AGW socket interface. * * Commands from application recognized: * * 'R' Request for version number. * (See below for response.) * * 'G' Ask about radio ports. * (See below for response.) * * 'g' Capabilities of a port. (new in 0.8) * (See below for response.) * * 'k' Ask to start receiving RAW AX25 frames. * * 'm' Ask to start receiving Monitor AX25 frames. * Enables sending of U, I, S, and T messages to client app. * * 'V' Transmit UI data frame. * * 'H' Report recently heard stations. Not implemented yet. * * 'K' Transmit raw AX.25 frame. * * 'X' Register CallSign * * 'x' Unregister CallSign * * 'y' Ask Outstanding frames waiting on a Port (new in 1.2) * * 'Y' How many frames waiting for transmit for a particular station (new in 1.5) * * 'C' Connect, Start an AX.25 Connection (new in 1.4) * * 'v' Connect VIA, Start an AX.25 circuit thru digipeaters (new in 1.4) * * 'c' Connection with non-standard PID (new in 1.4) * * 'D' Send Connected Data (new in 1.4) * * 'd' Disconnect, Terminate an AX.25 Connection (new in 1.4) * * * A message is printed if any others are received. * * TODO: Should others be implemented? * * * Messages sent to client application: * * 'R' Reply to Request for version number. * Currently responds with major 1, minor 0. * * 'G' Reply to Ask about radio ports. * * 'g' Reply to capabilities of a port. (new in 0.8) * * 'K' Received AX.25 frame in raw format. * (Enabled with 'k' command.) * * 'U' Received AX.25 "UI" frames in monitor format. * (Enabled with 'm' command.) * * 'I' Received AX.25 "I" frames in monitor format. (new in 1.6) * (Enabled with 'm' command.) * * 'S' Received AX.25 "S" and "U" (other than UI) frames in monitor format. (new in 1.6) * (Enabled with 'm' command.) * * 'T' Own Transmitted AX.25 frames in monitor format. (new in 1.6) * (Enabled with 'm' command.) * * 'y' Outstanding frames waiting on a Port (new in 1.2) * * 'Y' How many frames waiting for transmit for a particular station (new in 1.5) * * 'C' AX.25 Connection Received (new in 1.4) * * 'D' Connected AX.25 Data (new in 1.4) * * 'd' Disconnected (new in 1.4) * * * * References: AGWPE TCP/IP API Tutorial * http://uz7ho.org.ua/includes/agwpeapi.htm * * It has disappeared from the original location but you can find it here: * https://web.archive.org/web/20130807113413/http:/uz7ho.org.ua/includes/agwpeapi.htm * https://www.on7lds.net/42/sites/default/files/AGWPEAPI.HTM * * Getting Started with Winsock * http://msdn.microsoft.com/en-us/library/windows/desktop/bb530742(v=vs.85).aspx * * * Major change in 1.1: * * Formerly a single client was allowed. * Now we can have multiple concurrent clients. * *---------------------------------------------------------------*/ /* * Native Windows: Use the Winsock interface. * Linux: Use the BSD socket interface. * Cygwin: Can use either one. */ #include "direwolf.h" // Sets _WIN32_WINNT for XP API level needed by ws2tcpip.h #if __WIN32__ #include #include // _WIN32_WINNT must be set to 0x0501 before including this #else #include #include #include #include #include #include #endif #include #include #include #include #include #include #include #include "tq.h" #include "ax25_pad.h" #include "textcolor.h" #include "audio.h" #include "server.h" #include "dlq.h" /* * Previously, we allowed only one network connection at a time to each port. * In version 1.1, we allow multiple concurrent client apps to attach with the AGW network protocol. * The default is a limit of 3 client applications at the same time. * You can increase the limit by changing the line below. * A larger number consumes more resources so don't go crazy by making it larger than needed. */ // FIXME: Put in direwolf.h rather than in .c file. Change name to reflect AGW vs KISS. Update user guide 5.7. #define MAX_NET_CLIENTS 3 static int client_sock[MAX_NET_CLIENTS]; /* File descriptor for socket for */ /* communication with client application. */ /* Set to -1 if not connected. */ /* (Don't use SOCKET type because it is unsigned.) */ static int enable_send_raw_to_client[MAX_NET_CLIENTS]; /* Should we send received packets to client app in raw form? */ /* Note that it starts as false for a new connection. */ /* the client app must send a command to enable this. */ static int enable_send_monitor_to_client[MAX_NET_CLIENTS]; /* Should we send received packets to client app in monitor form? */ /* Note that it starts as false for a new connection. */ /* the client app must send a command to enable this. */ // TODO: define in one place, use everywhere. // TODO: Macro to terminate thread when no point to go on. #if __WIN32__ #define THREAD_F unsigned __stdcall #else #define THREAD_F void * #endif static THREAD_F connect_listen_thread (void *arg); static THREAD_F cmd_listen_thread (void *arg); /* * Message header for AGW protocol. * Multibyte numeric values require rearranging for big endian cpu. */ /* * With MinGW version 4.6, obviously x86. * or Linux gcc version 4.9, Linux ARM. * * $ gcc -E -dM - < /dev/null | grep END * #define __ORDER_LITTLE_ENDIAN__ 1234 * #define __FLOAT_WORD_ORDER__ __ORDER_LITTLE_ENDIAN__ * #define __ORDER_PDP_ENDIAN__ 3412 * #define __ORDER_BIG_ENDIAN__ 4321 * #define __BYTE_ORDER__ __ORDER_LITTLE_ENDIAN__ * * This is for standard OpenWRT on MIPS. * * #define __ORDER_LITTLE_ENDIAN__ 1234 * #define __FLOAT_WORD_ORDER__ __ORDER_BIG_ENDIAN__ * #define __ORDER_PDP_ENDIAN__ 3412 * #define __ORDER_BIG_ENDIAN__ 4321 * #define __BYTE_ORDER__ __ORDER_BIG_ENDIAN__ * * This was reported for an old Mac with PowerPC processor. * (Newer versions have x86.) * * $ gcc -E -dM - < /dev/null | grep END * #define __BIG_ENDIAN__ 1 * #define _BIG_ENDIAN 1 */ #if defined(__BIG_ENDIAN__) || (defined(__BYTE_ORDER__) && defined(__ORDER_BIG_ENDIAN__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) // gcc >= 4.2 has __builtin_swap32() but might not be compatible with older versions or other compilers. #define host2netle(x) ( (((x)>>24)&0x000000ff) | (((x)>>8)&0x0000ff00) | (((x)<<8)&0x00ff0000) | (((x)<<24)&0xff000000) ) #define netle2host(x) ( (((x)>>24)&0x000000ff) | (((x)>>8)&0x0000ff00) | (((x)<<8)&0x00ff0000) | (((x)<<24)&0xff000000) ) #else #define host2netle(x) (x) #define netle2host(x) (x) #endif struct agwpe_s { unsigned char portx; /* 0 for first, 1 for second, etc. */ unsigned char reserved1; unsigned char reserved2; unsigned char reserved3; unsigned char datakind; /* message type, usually written as a letter. */ unsigned char reserved4; unsigned char pid; unsigned char reserved5; char call_from[10]; char call_to[10]; int data_len_NETLE; /* Number of data bytes following. */ /* _NETLE suffix is reminder to convert for network byte order. */ int user_reserved_NETLE; }; static void send_to_client (int client, void *reply_p); /*------------------------------------------------------------------- * * Name: debug_print * * Purpose: Print message to/from client for debugging. * * Inputs: fromto - Direction of message. * client - client number, 0 .. MAX_NET_CLIENTS-1 * pmsg - Address of the message block. * msg_len - Length of the message. * *--------------------------------------------------------------------*/ static int debug_client = 0; /* Debug option: Print information flowing from and to client. */ void server_set_debug (int n) { debug_client = n; } void hex_dump (unsigned char *p, int len) { int n, i, offset; offset = 0; while (len > 0) { n = len < 16 ? len : 16; dw_printf (" %03x: ", offset); for (i=0; i>>" }; switch (fromto) { case FROM_CLIENT: strlcpy (direction, "from", sizeof(direction)); /* from the client application */ switch (pmsg->datakind) { case 'P': strlcpy (datakind, "Application Login", sizeof(datakind)); break; case 'X': strlcpy (datakind, "Register CallSign", sizeof(datakind)); break; case 'x': strlcpy (datakind, "Unregister CallSign", sizeof(datakind)); break; case 'G': strlcpy (datakind, "Ask Port Information", sizeof(datakind)); break; case 'm': strlcpy (datakind, "Enable Reception of Monitoring Frames", sizeof(datakind)); break; case 'R': strlcpy (datakind, "AGWPE Version Info", sizeof(datakind)); break; case 'g': strlcpy (datakind, "Ask Port Capabilities", sizeof(datakind)); break; case 'H': strlcpy (datakind, "Callsign Heard on a Port", sizeof(datakind)); break; case 'y': strlcpy (datakind, "Ask Outstanding frames waiting on a Port", sizeof(datakind)); break; case 'Y': strlcpy (datakind, "Ask Outstanding frames waiting for a connection", sizeof(datakind)); break; case 'M': strlcpy (datakind, "Send UNPROTO Information", sizeof(datakind)); break; case 'C': strlcpy (datakind, "Connect, Start an AX.25 Connection", sizeof(datakind)); break; case 'D': strlcpy (datakind, "Send Connected Data", sizeof(datakind)); break; case 'd': strlcpy (datakind, "Disconnect, Terminate an AX.25 Connection", sizeof(datakind)); break; case 'v': strlcpy (datakind, "Connect VIA, Start an AX.25 circuit thru digipeaters", sizeof(datakind)); break; case 'V': strlcpy (datakind, "Send UNPROTO VIA", sizeof(datakind)); break; case 'c': strlcpy (datakind, "Non-Standard Connections, Connection with PID", sizeof(datakind)); break; case 'K': strlcpy (datakind, "Send data in raw AX.25 format", sizeof(datakind)); break; case 'k': strlcpy (datakind, "Activate reception of Frames in raw format", sizeof(datakind)); break; default: strlcpy (datakind, "**INVALID**", sizeof(datakind)); break; } break; case TO_CLIENT: default: strlcpy (direction, "to", sizeof(direction)); /* sent to the client application. */ switch (pmsg->datakind) { case 'R': strlcpy (datakind, "Version Number", sizeof(datakind)); break; case 'X': strlcpy (datakind, "Callsign Registration", sizeof(datakind)); break; case 'G': strlcpy (datakind, "Port Information", sizeof(datakind)); break; case 'g': strlcpy (datakind, "Capabilities of a Port", sizeof(datakind)); break; case 'y': strlcpy (datakind, "Frames Outstanding on a Port", sizeof(datakind)); break; case 'Y': strlcpy (datakind, "Frames Outstanding on a Connection", sizeof(datakind)); break; case 'H': strlcpy (datakind, "Heard Stations on a Port", sizeof(datakind)); break; case 'C': strlcpy (datakind, "AX.25 Connection Received", sizeof(datakind)); break; case 'D': strlcpy (datakind, "Connected AX.25 Data", sizeof(datakind)); break; case 'd': strlcpy (datakind, "Disconnected", sizeof(datakind)); break; case 'M': strlcpy (datakind, "Monitored Connected Information", sizeof(datakind)); break; case 'S': strlcpy (datakind, "Monitored Supervisory Information", sizeof(datakind)); break; case 'U': strlcpy (datakind, "Monitored Unproto Information", sizeof(datakind)); break; case 'T': strlcpy (datakind, "Monitoring Own Information", sizeof(datakind)); break; case 'K': strlcpy (datakind, "Monitored Information in Raw Format", sizeof(datakind)); break; default: strlcpy (datakind, "**INVALID**", sizeof(datakind)); break; } } text_color_set(DW_COLOR_DEBUG); dw_printf ("\n"); dw_printf ("%s %s %s AGWPE client application %d, total length = %d\n", prefix[(int)fromto], datakind, direction, client, msg_len); dw_printf ("\tportx = %d, datakind = '%c', pid = 0x%02x\n", pmsg->portx, pmsg->datakind, pmsg->pid); dw_printf ("\tcall_from = \"%s\", call_to = \"%s\"\n", pmsg->call_from, pmsg->call_to); dw_printf ("\tdata_len = %d, user_reserved = %d, data =\n", netle2host(pmsg->data_len_NETLE), netle2host(pmsg->user_reserved_NETLE)); hex_dump ((unsigned char*)pmsg + sizeof(struct agwpe_s), netle2host(pmsg->data_len_NETLE)); if (msg_len < 36) { text_color_set (DW_COLOR_ERROR); dw_printf ("AGWPE message length, %d, is shorter than minimum 36.\n", msg_len); } if (msg_len != netle2host(pmsg->data_len_NETLE) + 36) { text_color_set (DW_COLOR_ERROR); dw_printf ("AGWPE message length, %d, inconsistent with data length %d.\n", msg_len, netle2host(pmsg->data_len_NETLE)); } } /*------------------------------------------------------------------- * * Name: server_init * * Purpose: Set up a server to listen for connection requests from * an application such as Xastir. * * Inputs: mc->agwpe_port - TCP port for server. * Main program has default of 8000 but allows * an alternative to be specified on the command line * * 0 means disable. New in version 1.2. * * Outputs: * * Description: This starts at least two threads: * * one to listen for a connection from client app. * * one or more to listen for commands from client app. * so the main application doesn't block while we wait for these. * *--------------------------------------------------------------------*/ static struct audio_s *save_audio_config_p; void server_init (struct audio_s *audio_config_p, struct misc_config_s *mc) { int client; #if __WIN32__ HANDLE connect_listen_th; HANDLE cmd_listen_th[MAX_NET_CLIENTS]; #else pthread_t connect_listen_tid; pthread_t cmd_listen_tid[MAX_NET_CLIENTS]; int e; #endif int server_port = mc->agwpe_port; /* Usually 8000 but can be changed. */ #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf ("server_init ( %d )\n", server_port); debug_a = 1; #endif save_audio_config_p = audio_config_p; for (client=0; clientai_family, ai->ai_socktype, ai->ai_protocol); if (listen_sock == INVALID_SOCKET) { text_color_set(DW_COLOR_ERROR); dw_printf ("connect_listen_thread: Socket creation failed, err=%d", WSAGetLastError()); return (0); } #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf("Binding to port %s ... \n", server_port_str); #endif err = bind( listen_sock, ai->ai_addr, (int)ai->ai_addrlen); if (err == SOCKET_ERROR) { text_color_set(DW_COLOR_ERROR); dw_printf("Bind failed with error: %d\n", WSAGetLastError()); // TODO: translate number to text? dw_printf("Some other application is probably already using port %s.\n", server_port_str); dw_printf("Try using a different port number with AGWPORT in the configuration file.\n"); freeaddrinfo(ai); closesocket(listen_sock); WSACleanup(); return (0); } freeaddrinfo(ai); #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf("opened socket as fd (%d) on port (%s) for stream i/o\n", listen_sock, server_port_str ); #endif while (1) { int client; int c; client = -1; for (c = 0; c < MAX_NET_CLIENTS && client < 0; c++) { if (client_sock[c] <= 0) { client = c; } } /* * Listen for connection if we have not reached maximum. */ if (client >= 0) { if(listen(listen_sock, MAX_NET_CLIENTS) == SOCKET_ERROR) { text_color_set(DW_COLOR_ERROR); dw_printf("Listen failed with error: %d\n", WSAGetLastError()); return (0); } text_color_set(DW_COLOR_INFO); dw_printf("Ready to accept AGW client application %d on port %s ...\n", client, server_port_str); client_sock[client] = accept(listen_sock, NULL, NULL); if (client_sock[client] == -1) { text_color_set(DW_COLOR_ERROR); dw_printf("Accept failed with error: %d\n", WSAGetLastError()); closesocket(listen_sock); WSACleanup(); return (0); } text_color_set(DW_COLOR_INFO); dw_printf("\nAttached to AGW client application %d ...\n\n", client); /* * The command to change this is actually a toggle, not explicit on or off. * Make sure it has proper state when we get a new connection. */ enable_send_raw_to_client[client] = 0; enable_send_monitor_to_client[client] = 0; } else { SLEEP_SEC(1); /* wait then check again if more clients allowed. */ } } #else /* End of Windows case, now Linux */ struct sockaddr_in sockaddr; /* Internet socket address struct */ socklen_t sockaddr_size = sizeof(struct sockaddr_in); int server_port = (int)(ptrdiff_t)arg; int listen_sock; int bcopt = 1; listen_sock= socket(AF_INET,SOCK_STREAM,0); if (listen_sock == -1) { text_color_set(DW_COLOR_ERROR); perror ("connect_listen_thread: Socket creation failed"); return (NULL); } /* Version 1.3 - as suggested by G8BPQ. */ /* Without this, if you kill the application then try to run it */ /* again quickly the port number is unavailable for a while. */ /* Don't try doing the same thing On Windows; It has a different meaning. */ /* http://stackoverflow.com/questions/14388706/socket-options-so-reuseaddr-and-so-reuseport-how-do-they-differ-do-they-mean-t */ setsockopt (listen_sock, SOL_SOCKET, SO_REUSEADDR, (const char *)&bcopt, 4); sockaddr.sin_addr.s_addr = INADDR_ANY; sockaddr.sin_port = htons(server_port); sockaddr.sin_family = AF_INET; #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf("Binding to port %d ... \n", server_port); #endif if (bind(listen_sock,(struct sockaddr*)&sockaddr,sizeof(sockaddr)) == -1) { text_color_set(DW_COLOR_ERROR); dw_printf("Bind failed with error: %d\n", errno); dw_printf("%s\n", strerror(errno)); dw_printf("Some other application is probably already using port %d.\n", server_port); dw_printf("Try using a different port number with AGWPORT in the configuration file.\n"); return (NULL); } getsockname( listen_sock, (struct sockaddr *)(&sockaddr), &sockaddr_size); #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf("opened socket as fd (%d) on port (%d) for stream i/o\n", listen_sock, ntohs(sockaddr.sin_port) ); #endif while (1) { int client; int c; client = -1; for (c = 0; c < MAX_NET_CLIENTS && client < 0; c++) { if (client_sock[c] <= 0) { client = c; } } if (client >= 0) { if(listen(listen_sock,MAX_NET_CLIENTS) == -1) { text_color_set(DW_COLOR_ERROR); perror ("connect_listen_thread: Listen failed"); return (NULL); } text_color_set(DW_COLOR_INFO); dw_printf("Ready to accept AGW client application %d on port %d ...\n", client, server_port); client_sock[client] = accept(listen_sock, (struct sockaddr*)(&sockaddr),&sockaddr_size); text_color_set(DW_COLOR_INFO); dw_printf("\nAttached to AGW client application %d...\n\n", client); /* * The command to change this is actually a toggle, not explicit on or off. * Make sure it has proper state when we get a new connection. */ enable_send_raw_to_client[client] = 0; enable_send_monitor_to_client[client] = 0; } else { SLEEP_SEC(1); /* wait then check again if more clients allowed. */ } } #endif } /*------------------------------------------------------------------- * * Name: server_send_rec_packet * * Purpose: Send a received packet to the client app. * * Inputs: chan - Channel number where packet was received. * 0 = first, 1 = second if any. * * pp - Identifier for packet object. * * fbuf - Address of raw received frame buffer. * flen - Length of raw received frame. * * * Description: Send message to client if connected. * Disconnect from client, and notify user, if any error. * * There are two different formats: * RAW - the original received frame. * MONITOR - human readable monitoring format. * *--------------------------------------------------------------------*/ static void mon_addrs (int chan, packet_t pp, char *result, int result_size); static char mon_desc (packet_t pp, char *result, int result_size); void server_send_rec_packet (int chan, packet_t pp, unsigned char *fbuf, int flen) { struct { struct agwpe_s hdr; char data[1+AX25_MAX_PACKET_LEN]; } agwpe_msg; int err; /* * RAW format */ for (int client=0; client 0){ memset (&agwpe_msg.hdr, 0, sizeof(agwpe_msg.hdr)); agwpe_msg.hdr.portx = chan; agwpe_msg.hdr.datakind = 'K'; ax25_get_addr_with_ssid (pp, AX25_SOURCE, agwpe_msg.hdr.call_from); ax25_get_addr_with_ssid (pp, AX25_DESTINATION, agwpe_msg.hdr.call_to); agwpe_msg.hdr.data_len_NETLE = host2netle(flen + 1); /* Stick in extra byte for the "TNC" to use. */ agwpe_msg.data[0] = 0; memcpy (agwpe_msg.data + 1, fbuf, (size_t)flen); if (debug_client) { debug_print (TO_CLIENT, client, &agwpe_msg.hdr, sizeof(agwpe_msg.hdr) + netle2host(agwpe_msg.hdr.data_len_NETLE)); } #if __WIN32__ err = SOCK_SEND (client_sock[client], (char*)(&agwpe_msg), sizeof(agwpe_msg.hdr) + netle2host(agwpe_msg.hdr.data_len_NETLE)); if (err == SOCKET_ERROR) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nError %d sending message to AGW client application. Closing connection.\n\n", WSAGetLastError()); closesocket (client_sock[client]); client_sock[client] = -1; WSACleanup(); dlq_client_cleanup (client); } #else err = SOCK_SEND (client_sock[client], &agwpe_msg, sizeof(agwpe_msg.hdr) + netle2host(agwpe_msg.hdr.data_len_NETLE)); if (err <= 0) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nError sending message to AGW client application. Closing connection.\n\n"); close (client_sock[client]); client_sock[client] = -1; dlq_client_cleanup (client); } #endif } } // Application might want more human readable format. server_send_monitored (chan, pp, 0); } /* end server_send_rec_packet */ void server_send_monitored (int chan, packet_t pp, int own_xmit) { /* * MONITOR format - 'I' for information frames. * 'U' for unnumbered information. * 'S' for supervisory and other unnumbered. */ struct { struct agwpe_s hdr; char data[128+AX25_MAX_PACKET_LEN]; // Add plenty of room for header prefix. } agwpe_msg; int err; for (int client=0; client 0) { memset (&agwpe_msg.hdr, 0, sizeof(agwpe_msg.hdr)); agwpe_msg.hdr.portx = chan; // datakind is added later. ax25_get_addr_with_ssid (pp, AX25_SOURCE, agwpe_msg.hdr.call_from); ax25_get_addr_with_ssid (pp, AX25_DESTINATION, agwpe_msg.hdr.call_to); /* http://uz7ho.org.ua/includes/agwpeapi.htm#_Toc500723812 */ /* Description mentions one CR character after timestamp but example has two. */ /* Actual observed cases have only one. */ /* Also need to add extra CR, CR, null at end. */ /* The documentation example includes these 3 extra in the Len= value */ /* but actual observed data uses only the packet info length. */ // Documentation doesn't mention anything about including the via path. // In version 1.4, we add that to match observed behaviour. // This inconsistency was reported: // Direwolf: // [AGWE-IN] 1:Fm ZL4FOX-8 To Q7P2U2 [08:25:07]`I1*l V>/"9<}[:Barts Tracker 3.83V X // AGWPE: // [AGWE-IN] 1:Fm ZL4FOX-8 To Q7P2U2 Via WIDE3-3 [08:32:14]`I0*l V>/"98}[:Barts Tracker 3.83V X // Format the channel and addresses, with leading and trailing space. mon_addrs (chan, pp, (char*)(agwpe_msg.data), sizeof(agwpe_msg.data)); // Add the description with <... > char desc[120]; agwpe_msg.hdr.datakind = mon_desc (pp, desc, sizeof(desc)); if (own_xmit) { agwpe_msg.hdr.datakind = 'T'; } strlcat ((char*)(agwpe_msg.data), desc, sizeof(agwpe_msg.data)); // Timestamp with [...]\r time_t clock = time(NULL); struct tm *tm = localtime(&clock); // TODO: use localtime_r ? char ts[32]; snprintf (ts, sizeof(ts), "[%02d:%02d:%02d]\r", tm->tm_hour, tm->tm_min, tm->tm_sec); strlcat ((char*)(agwpe_msg.data), ts, sizeof(agwpe_msg.data)); // Information if any with \r. unsigned char *pinfo = NULL; int info_len = ax25_get_info (pp, &pinfo); int msg_data_len = strlen((char*)(agwpe_msg.data)); // result length so far if (info_len > 0 && pinfo != NULL) { // Issue 367: Use of strlcat truncated information part at any nul character. // Use memcpy instead to preserve binary data, e.g. NET/ROM. memcpy (agwpe_msg.data + msg_data_len, pinfo, info_len); msg_data_len += info_len; agwpe_msg.data[msg_data_len++] = '\r'; } agwpe_msg.data[msg_data_len++] = '\0'; // add nul at end, included in length. agwpe_msg.hdr.data_len_NETLE = host2netle(msg_data_len); if (debug_client) { debug_print (TO_CLIENT, client, &agwpe_msg.hdr, sizeof(agwpe_msg.hdr) + netle2host(agwpe_msg.hdr.data_len_NETLE)); } #if __WIN32__ err = SOCK_SEND (client_sock[client], (char*)(&agwpe_msg), sizeof(agwpe_msg.hdr) + netle2host(agwpe_msg.hdr.data_len_NETLE)); if (err == SOCKET_ERROR) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nError %d sending message to AGW client application %d. Closing connection.\n\n", WSAGetLastError(), client); closesocket (client_sock[client]); client_sock[client] = -1; WSACleanup(); dlq_client_cleanup (client); } #else err = SOCK_SEND (client_sock[client], &agwpe_msg, sizeof(agwpe_msg.hdr) + netle2host(agwpe_msg.hdr.data_len_NETLE)); if (err <= 0) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nError sending message to AGW client application %d. Closing connection.\n\n", client); close (client_sock[client]); client_sock[client] = -1; dlq_client_cleanup (client); } #endif } } } /* server_send_monitored */ // Next two are broken out in case they can be reused elsewhere. // Format addresses in AGWPR monitoring format such as: // 1:Fm ZL4FOX-8 To Q7P2U2 Via WIDE3-3 static void mon_addrs (int chan, packet_t pp, char *result, int result_size) { char src[AX25_MAX_ADDR_LEN]; char dst[AX25_MAX_ADDR_LEN]; ax25_get_addr_with_ssid (pp, AX25_SOURCE, src); ax25_get_addr_with_ssid (pp, AX25_DESTINATION, dst); int num_digi = ax25_get_num_repeaters(pp); if (num_digi > 0) { char via[AX25_MAX_REPEATERS*(AX25_MAX_ADDR_LEN+1)]; char stemp[AX25_MAX_ADDR_LEN+1]; int j; ax25_get_addr_with_ssid (pp, AX25_REPEATER_1, via); for (j = 1; j < num_digi; j++) { ax25_get_addr_with_ssid (pp, AX25_REPEATER_1 + j, stemp); strlcat (via, ",", sizeof(via)); strlcat (via, stemp, sizeof(via)); } snprintf (result, result_size, " %d:Fm %s To %s Via %s ", chan+1, src, dst, via); } else { snprintf (result, result_size, " %d:Fm %s To %s ", chan+1, src, dst); } } // Generate frame description in AGWPE monitoring format such as // // // // // Returns: // 'I' for information frame. // 'U' for unnumbered information frame. // 'S' for supervisory and other unnumbered frames. static char mon_desc (packet_t pp, char *result, int result_size) { cmdres_t cr; // command/response. char ignore[80]; // direwolf description. not used here. int pf; // poll/final bit. int ns; // N(S) Send sequence number. int nr; // N(R) Received sequence number. char pf_text[4]; // P or F depending on whether command or response. ax25_frame_type_t ftype = ax25_frame_type (pp, &cr, ignore, &pf, &nr, &ns); switch (cr) { case cr_cmd: strcpy(pf_text, "P"); break; // P only: I, SABME, SABM, DISC case cr_res: strcpy(pf_text, "F"); break; // F only: DM, UA, FRMR // Either: RR, RNR, REJ, SREJ, UI, XID, TEST default: strcpy(pf_text, "PF"); break; // Not AX.25 version >= 2.0 // APRS is often sloppy about this but it // is essential for connected mode. } unsigned char *pinfo = NULL; // I, UI, XID, SREJ, TEST can have information part. int info_len = ax25_get_info (pp, &pinfo); switch (ftype) { case frame_type_I: snprintf (result, result_size, "", ns, nr, ax25_get_pid(pp), info_len, pf_text, pf); return ('I'); case frame_type_U_UI: snprintf (result, result_size, "", ax25_get_pid(pp), info_len, pf_text, pf); return ('U'); break; case frame_type_S_RR: snprintf (result, result_size, "", nr, pf_text, pf); return ('S'); break; case frame_type_S_RNR: snprintf (result, result_size, "", nr, pf_text, pf); return ('S'); break; case frame_type_S_REJ: snprintf (result, result_size, "", nr, pf_text, pf); return ('S'); break; case frame_type_S_SREJ: snprintf (result, result_size, "", nr, pf_text, pf, info_len); return ('S'); break; case frame_type_U_SABME: snprintf (result, result_size, "", pf_text, pf); return ('S'); break; case frame_type_U_SABM: snprintf (result, result_size, "", pf_text, pf); return ('S'); break; case frame_type_U_DISC: snprintf (result, result_size, "", pf_text, pf); return ('S'); break; case frame_type_U_DM: snprintf (result, result_size, "", pf_text, pf); return ('S'); break; case frame_type_U_UA: snprintf (result, result_size, "", pf_text, pf); return ('S'); break; case frame_type_U_FRMR: snprintf (result, result_size, "", pf_text, pf); return ('S'); break; case frame_type_U_XID: snprintf (result, result_size, "", pf_text, pf, info_len); return ('S'); break; case frame_type_U_TEST: snprintf (result, result_size, "", pf_text, pf, info_len); return ('S'); break; default: case frame_type_U: snprintf (result, result_size, ""); return ('S'); break; } } /*------------------------------------------------------------------- * * Name: server_link_established * * Purpose: Send notification to client app when a link has * been established with another station. * * DL-CONNECT Confirm or DL-CONNECT Indication in the protocol spec. * * Inputs: chan - Which radio channel. * * client - Which one of potentially several clients. * * remote_call - Callsign[-ssid] of remote station. * * own_call - Callsign[-ssid] of my end. * * incoming - true if connection was initiated from other end. * false if this end started it. * *--------------------------------------------------------------------*/ void server_link_established (int chan, int client, char *remote_call, char *own_call, int incoming) { struct { struct agwpe_s hdr; char info[100]; } reply; memset (&reply, 0, sizeof(reply)); reply.hdr.portx = chan; reply.hdr.datakind = 'C'; strlcpy (reply.hdr.call_from, remote_call, sizeof(reply.hdr.call_from)); strlcpy (reply.hdr.call_to, own_call, sizeof(reply.hdr.call_to)); // Question: Should the via path be provided too? if (incoming) { // Other end initiated the connection. snprintf (reply.info, sizeof(reply.info), "*** CONNECTED To Station %s\r", remote_call); } else { // We started the connection. snprintf (reply.info, sizeof(reply.info), "*** CONNECTED With Station %s\r", remote_call); } reply.hdr.data_len_NETLE = host2netle(strlen(reply.info) + 1); send_to_client (client, &reply); } /* end server_link_established */ /*------------------------------------------------------------------- * * Name: server_link_terminated * * Purpose: Send notification to client app when a link with * another station has been terminated or a connection * attempt failed. * * DL-DISCONNECT Confirm or DL-DISCONNECT Indication in the protocol spec. * * Inputs: chan - Which radio channel. * * client - Which one of potentially several clients. * * remote_call - Callsign[-ssid] of remote station. * * own_call - Callsign[-ssid] of my end. * * timeout - true when no answer from other station. * How do we distinguish who asked for the * termination of an existing link? * *--------------------------------------------------------------------*/ void server_link_terminated (int chan, int client, char *remote_call, char *own_call, int timeout) { struct { struct agwpe_s hdr; char info[100]; } reply; memset (&reply, 0, sizeof(reply)); reply.hdr.portx = chan; reply.hdr.datakind = 'd'; strlcpy (reply.hdr.call_from, remote_call, sizeof(reply.hdr.call_from)); /* right order */ strlcpy (reply.hdr.call_to, own_call, sizeof(reply.hdr.call_to)); if (timeout) { snprintf (reply.info, sizeof(reply.info), "*** DISCONNECTED RETRYOUT With %s\r", remote_call); } else { snprintf (reply.info, sizeof(reply.info), "*** DISCONNECTED From Station %s\r", remote_call); } reply.hdr.data_len_NETLE = host2netle(strlen(reply.info) + 1); send_to_client (client, &reply); } /* end server_link_terminated */ /*------------------------------------------------------------------- * * Name: server_rec_conn_data * * Purpose: Send received connected data to the application. * * DL-DATA Indication in the protocol spec. * * Inputs: chan - Which radio channel. * * client - Which one of potentially several clients. * * remote_call - Callsign[-ssid] of remote station. * * own_call - Callsign[-ssid] of my end. * * pid - Protocol ID from I frame. * * data_ptr - Pointer to a block of bytes. * * data_len - Number of bytes. Could be zero. * *--------------------------------------------------------------------*/ void server_rec_conn_data (int chan, int client, char *remote_call, char *own_call, int pid, char *data_ptr, int data_len) { struct { struct agwpe_s hdr; char info[AX25_MAX_INFO_LEN]; // I suppose there is potential for something larger. // We'll cross that bridge if we ever come to it. } reply; memset (&reply.hdr, 0, sizeof(reply.hdr)); reply.hdr.portx = chan; reply.hdr.datakind = 'D'; reply.hdr.pid = pid; strlcpy (reply.hdr.call_from, remote_call, sizeof(reply.hdr.call_from)); strlcpy (reply.hdr.call_to, own_call, sizeof(reply.hdr.call_to)); if (data_len < 0) { text_color_set(DW_COLOR_ERROR); dw_printf ("Invalid length %d for connected data to client %d.\n", data_len, client); data_len = 0; } else if (data_len > AX25_MAX_INFO_LEN) { text_color_set(DW_COLOR_ERROR); dw_printf ("Invalid length %d for connected data to client %d.\n", data_len, client); data_len = AX25_MAX_INFO_LEN; } memcpy (reply.info, data_ptr, data_len); reply.hdr.data_len_NETLE = host2netle(data_len); send_to_client (client, &reply); } /* end server_rec_conn_data */ /*------------------------------------------------------------------- * * Name: server_outstanding_frames_reply * * Purpose: Send 'Y' Outstanding frames for connected data to the application. * * Inputs: chan - Which radio channel. * * client - Which one of potentially several clients. * * own_call - Callsign[-ssid] of my end. * * remote_call - Callsign[-ssid] of remote station. * * count - Number of frames sent from the application but * not yet received by the other station. * *--------------------------------------------------------------------*/ void server_outstanding_frames_reply (int chan, int client, char *own_call, char *remote_call, int count) { struct { struct agwpe_s hdr; int count_NETLE; } reply; memset (&reply.hdr, 0, sizeof(reply.hdr)); reply.hdr.portx = chan; reply.hdr.datakind = 'Y'; strlcpy (reply.hdr.call_from, own_call, sizeof(reply.hdr.call_from)); strlcpy (reply.hdr.call_to, remote_call, sizeof(reply.hdr.call_to)); reply.hdr.data_len_NETLE = host2netle(4); reply.count_NETLE = host2netle(count); send_to_client (client, &reply); } /* end server_outstanding_frames_reply */ /*------------------------------------------------------------------- * * Name: read_from_socket * * Purpose: Read from socket until we have desired number of bytes. * * Inputs: fd - file descriptor. * ptr - address where data should be placed. * len - desired number of bytes. * * Description: Just a wrapper for the "read" system call but it should * never return fewer than the desired number of bytes. * *--------------------------------------------------------------------*/ static int read_from_socket (int fd, char *ptr, int len) { int got_bytes = 0; #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf ("read_from_socket (%d, %p, %d)\n", fd, ptr, len); #endif while (got_bytes < len) { int n; n = SOCK_RECV (fd, ptr + got_bytes, len - got_bytes); #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf ("read_from_socket: n = %d\n", n); #endif if (n <= 0) { return (n); } got_bytes += n; } assert (got_bytes >= 0 && got_bytes <= len); #if DEBUG text_color_set(DW_COLOR_DEBUG); dw_printf ("read_from_socket: return %d\n", got_bytes); #endif return (got_bytes); } /*------------------------------------------------------------------- * * Name: cmd_listen_thread * * Purpose: Wait for command messages from an application. * * Inputs: arg - client number, 0 .. MAX_NET_CLIENTS-1 * * Outputs: client_sock[n] - File descriptor for communicating with client app. * * Description: Process messages from the client application. * Note that the client can go away and come back again and * re-establish communication without restarting this application. * *--------------------------------------------------------------------*/ static void send_to_client (int client, void *reply_p) { struct agwpe_s *ph; int len; int err; ph = (struct agwpe_s *) reply_p; // Replies are often hdr + other stuff. len = sizeof(struct agwpe_s) + netle2host(ph->data_len_NETLE); /* Not sure what max data length might be. */ if (netle2host(ph->data_len_NETLE) < 0 || netle2host(ph->data_len_NETLE) > 4096) { text_color_set(DW_COLOR_ERROR); dw_printf ("Invalid data length %d for AGW protocol message to client %d.\n", netle2host(ph->data_len_NETLE), client); debug_print (TO_CLIENT, client, ph, len); } if (debug_client) { debug_print (TO_CLIENT, client, ph, len); } err = SOCK_SEND (client_sock[client], (char*)(ph), len); (void)err; } static THREAD_F cmd_listen_thread (void *arg) { int n; struct { struct agwpe_s hdr; /* Command header. */ char data[AX25_MAX_PACKET_LEN]; /* Additional data used by some commands. */ /* Maximum for 'V': 1 + 8*10 + 256 */ /* Maximum for 'D': Info part length + 1 */ } cmd; int client = (int)(ptrdiff_t)arg; assert (client >= 0 && client < MAX_NET_CLIENTS); while (1) { while (client_sock[client] <= 0) { SLEEP_SEC(1); /* Not connected. Try again later. */ } n = read_from_socket (client_sock[client], (char *)(&cmd.hdr), sizeof(cmd.hdr)); if (n != sizeof(cmd.hdr)) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nError getting message header from AGW client application %d.\n", client); dw_printf ("Tried to read %d bytes but got only %d.\n", (int)sizeof(cmd.hdr), n); dw_printf ("Closing connection.\n\n"); #if __WIN32__ closesocket (client_sock[client]); #else close (client_sock[client]); #endif client_sock[client] = -1; dlq_client_cleanup (client); continue; } /* * Take some precautions to guard against bad data which could cause problems later. */ if (cmd.hdr.portx < 0 || cmd.hdr.portx >= MAX_CHANS) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nInvalid port number, %d, in command '%c', from AGW client application %d.\n", cmd.hdr.portx, cmd.hdr.datakind, client); cmd.hdr.portx = 0; // avoid subscript out of bounds, try to keep going. } /* * Call to/from fields are 10 bytes but contents must not exceed 9 characters. * It's not guaranteed that unused bytes will contain 0 so we * don't issue error message in this case. */ cmd.hdr.call_from[sizeof(cmd.hdr.call_from)-1] = '\0'; cmd.hdr.call_to[sizeof(cmd.hdr.call_to)-1] = '\0'; /* * Following data must fit in available buffer. * Leave room for an extra nul byte terminator at end later. */ int data_len = netle2host(cmd.hdr.data_len_NETLE); if (data_len < 0 || data_len > (int)(sizeof(cmd.data) - 1)) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nInvalid message from AGW client application %d.\n", client); dw_printf ("Data Length of %d is out of range.\n", data_len); /* This is a bad situation. */ /* If we tried to read again, the header probably won't be there. */ /* No point in trying to continue reading. */ dw_printf ("Closing connection.\n\n"); #if __WIN32__ closesocket (client_sock[client]); #else close (client_sock[client]); #endif client_sock[client] = -1; dlq_client_cleanup (client); return (0); } cmd.data[0] = '\0'; if (data_len > 0) { n = read_from_socket (client_sock[client], cmd.data, data_len); if (n != data_len) { text_color_set(DW_COLOR_ERROR); dw_printf ("\nError getting message data from AGW client application %d.\n", client); dw_printf ("Tried to read %d bytes but got only %d.\n", data_len, n); dw_printf ("Closing connection.\n\n"); #if __WIN32__ closesocket (client_sock[client]); #else close (client_sock[client]); #endif client_sock[client] = -1; dlq_client_cleanup (client); return (0); } if (n >= 0) { cmd.data[n] = '\0'; // Tidy if we print for debug. } } /* * print & process message from client. */ if (debug_client) { debug_print (FROM_CLIENT, client, &cmd.hdr, sizeof(cmd.hdr) + data_len); } switch (cmd.hdr.datakind) { case 'R': /* Request for version number */ { struct { struct agwpe_s hdr; int major_version_NETLE; int minor_version_NETLE; } reply; memset (&reply, 0, sizeof(reply)); reply.hdr.datakind = 'R'; reply.hdr.data_len_NETLE = host2netle(sizeof(reply.major_version_NETLE) + sizeof(reply.minor_version_NETLE)); assert (netle2host(reply.hdr.data_len_NETLE) == 8); // Xastir only prints this and doesn't care otherwise. // APRSIS32 doesn't seem to care. // UI-View32 wants on 2000.15 or later. reply.major_version_NETLE = host2netle(2005); reply.minor_version_NETLE = host2netle(127); assert (sizeof(reply) == 44); send_to_client (client, &reply); } break; case 'G': /* Ask about radio ports */ { struct { struct agwpe_s hdr; char info[200]; } reply; int j, count; memset (&reply, 0, sizeof(reply)); reply.hdr.datakind = 'G'; // Xastir only prints this and doesn't care otherwise. // YAAC uses this to identify available channels. // The interface manual wants the first to be "Port1" // so channel 0 corresponds to "Port1." // We can have gaps in the numbering. // I wonder what applications will think about that. // No other place cares about total number. count = 0; for (j=0; jchan_medium[j] == MEDIUM_RADIO || save_audio_config_p->chan_medium[j] == MEDIUM_IGATE || save_audio_config_p->chan_medium[j] == MEDIUM_NETTNC) { count++; } } snprintf (reply.info, sizeof(reply.info), "%d;", count); for (j=0; jchan_medium[j]) { case MEDIUM_RADIO: { char stemp[100]; int a = ACHAN2ADEV(j); // If I was really ambitious, some description could be provided. static const char *names[8] = { "first", "second", "third", "fourth", "fifth", "sixth", "seventh", "eighth" }; if (save_audio_config_p->adev[a].num_channels == 1) { snprintf (stemp, sizeof(stemp), "Port%d %s soundcard mono;", j+1, names[a]); strlcat (reply.info, stemp, sizeof(reply.info)); } else { snprintf (stemp, sizeof(stemp), "Port%d %s soundcard %s;", j+1, names[a], j&1 ? "right" : "left"); strlcat (reply.info, stemp, sizeof(reply.info)); } } break; case MEDIUM_IGATE: { char stemp[100]; snprintf (stemp, sizeof(stemp), "Port%d Internet Gateway;", j+1); strlcat (reply.info, stemp, sizeof(reply.info)); } break; case MEDIUM_NETTNC: { // could elaborate with hostname, etc. char stemp[100]; snprintf (stemp, sizeof(stemp), "Port%d Network TNC;", j+1); strlcat (reply.info, stemp, sizeof(reply.info)); } break; default: { // could elaborate with hostname, etc. char stemp[100]; snprintf (stemp, sizeof(stemp), "Port%d INVALID CHANNEL;", j+1); strlcat (reply.info, stemp, sizeof(reply.info)); } break; } // switch } // for each channel reply.hdr.data_len_NETLE = host2netle(strlen(reply.info) + 1); send_to_client (client, &reply); } break; case 'g': /* Ask about capabilities of a port. */ { struct { struct agwpe_s hdr; unsigned char on_air_baud_rate; /* 0=1200, 1=2400, 2=4800, 3=9600, ... */ unsigned char traffic_level; /* 0xff if not in autoupdate mode */ unsigned char tx_delay; unsigned char tx_tail; unsigned char persist; unsigned char slottime; unsigned char maxframe; unsigned char active_connections; int how_many_bytes_NETLE; } reply; memset (&reply, 0, sizeof(reply)); reply.hdr.portx = cmd.hdr.portx; /* Reply with same port number ! */ reply.hdr.datakind = 'g'; reply.hdr.data_len_NETLE = host2netle(12); // YAAC asks for this. // Fake it to keep application happy. // TODO: Supply real values instead of just faking it. reply.on_air_baud_rate = 0; reply.traffic_level = 1; reply.tx_delay = 0x19; reply.tx_tail = 4; reply.persist = 0xc8; reply.slottime = 4; reply.maxframe = 7; reply.active_connections = 0; reply.how_many_bytes_NETLE = host2netle(1); assert (sizeof(reply) == 48); send_to_client (client, &reply); } break; case 'H': /* Ask about recently heard stations on given port. */ /* This should send back 20 'H' frames for the most recently heard stations. */ /* If there are less available, empty frames are sent to make a total of 20. */ /* Each contains the first and last heard times. */ { #if 0 /* Currently, this information is not being collected. */ struct { struct agwpe_s hdr; char info[100]; } reply; memset (&reply.hdr, 0, sizeof(reply.hdr)); reply.hdr.datakind = 'H'; // TODO: Implement properly. reply.hdr.portx = cmd.hdr.portx strlcpy (reply.hdr.call_from, "WB2OSZ-15 Mon,01Jan2000 01:02:03 Tue,31Dec2099 23:45:56", sizeof(reply.hdr.call_from)); // or 00:00:00 00:00:00 strlcpy (agwpe_msg.data, ..., sizeof(agwpe_msg.data)); reply.hdr.data_len_NETLE = host2netle(strlen(reply.info)); send_to_client (client, &reply); #endif } break; case 'k': /* Ask to start receiving RAW AX25 frames */ // Actually it is a toggle so we must be sure to clear it for a new connection. enable_send_raw_to_client[client] = ! enable_send_raw_to_client[client]; break; case 'm': /* Ask to start receiving Monitor frames */ // Actually it is a toggle so we must be sure to clear it for a new connection. enable_send_monitor_to_client[client] = ! enable_send_monitor_to_client[client]; break; case 'V': /* Transmit UI data frame (with digipeater path) */ { // Data format is: // 1 byte for number of digipeaters. // 10 bytes for each digipeater. // data part of message. char stemp[AX25_MAX_PACKET_LEN+2]; char *p; int ndigi; int k; packet_t pp; strlcpy (stemp, cmd.hdr.call_from, sizeof(stemp)); strlcat (stemp, ">", sizeof(stemp)); strlcat (stemp, cmd.hdr.call_to, sizeof(stemp)); cmd.data[data_len] = '\0'; ndigi = cmd.data[0]; p = cmd.data + 1; for (k=0; k= 1 && ax25_get_h(pp,AX25_REPEATER_1)) { tq_append (cmd.hdr.portx, TQ_PRIO_0_HI, pp); } else { tq_append (cmd.hdr.portx, TQ_PRIO_1_LO, pp); } } } break; case 'X': /* Register CallSign */ { struct { struct agwpe_s hdr; char data; /* 1 = success, 0 = failure */ } reply; int ok = 1; // The protocol spec says it is an error to register the same one more than once. // Too much trouble. Report success if the channel is valid. int chan = cmd.hdr.portx; // Connected mode can only be used with internal modems. if (chan >= 0 && chan < MAX_CHANS && save_audio_config_p->chan_medium[chan] == MEDIUM_RADIO) { ok = 1; dlq_register_callsign (cmd.hdr.call_from, chan, client); } else { text_color_set(DW_COLOR_ERROR); dw_printf ("AGW protocol error. Register callsign for invalid channel %d.\n", chan); ok = 0; } memset (&reply, 0, sizeof(reply)); reply.hdr.datakind = 'X'; reply.hdr.portx = cmd.hdr.portx; memcpy (reply.hdr.call_from, cmd.hdr.call_from, sizeof(reply.hdr.call_from)); reply.hdr.data_len_NETLE = host2netle(1); reply.data = ok; send_to_client (client, &reply); } break; case 'x': /* Unregister CallSign */ { int chan = cmd.hdr.portx; // Connected mode can only be used with internal modems. if (chan >= 0 && chan < MAX_CHANS && save_audio_config_p->chan_medium[chan] == MEDIUM_RADIO) { dlq_unregister_callsign (cmd.hdr.call_from, chan, client); } else { text_color_set(DW_COLOR_ERROR); dw_printf ("AGW protocol error. Unregister callsign for invalid channel %d.\n", chan); } } /* No response is expected. */ break; case 'C': /* Connect, Start an AX.25 Connection */ case 'v': /* Connect VIA, Start an AX.25 circuit thru digipeaters */ case 'c': /* Connection with non-standard PID */ { struct via_info { unsigned char num_digi; /* Expect to be in range 1 to 7. Why not up to 8? */ char dcall[7][10]; } #if 1 // October 2017. gcc ??? complained: // warning: dereferencing pointer 'v' does break strict-aliasing rules // Try adding this attribute to get rid of the warning. // If this upsets your compiler, take it out. // Let me know. Maybe we could put in a compiler version check here. __attribute__((__may_alias__)) #endif *v = (struct via_info *)cmd.data; char callsigns[AX25_MAX_ADDRS][AX25_MAX_ADDR_LEN]; int num_calls = 2; /* 2 plus any digipeaters. */ int pid = 0xf0; /* normal for AX.25 I frames. */ int j; strlcpy (callsigns[AX25_SOURCE], cmd.hdr.call_from, sizeof(callsigns[AX25_SOURCE])); strlcpy (callsigns[AX25_DESTINATION], cmd.hdr.call_to, sizeof(callsigns[AX25_DESTINATION])); if (cmd.hdr.datakind == 'c') { pid = cmd.hdr.pid; /* non standard for NETROM, TCP/IP, etc. */ } if (cmd.hdr.datakind == 'v') { if (v->num_digi >= 1 && v->num_digi <= 7) { if (data_len != v->num_digi * 10 + 1 && data_len != v->num_digi * 10 + 2) { // I'm getting 1 more than expected from AGWterminal. text_color_set(DW_COLOR_ERROR); dw_printf ("AGW client, connect via, has data len, %d when %d expected.\n", data_len, v->num_digi * 10 + 1); } for (j = 0; j < v->num_digi; j++) { strlcpy (callsigns[AX25_REPEATER_1 + j], v->dcall[j], sizeof(callsigns[AX25_REPEATER_1 + j])); num_calls++; } } else { text_color_set(DW_COLOR_ERROR); dw_printf ("\n"); dw_printf ("AGW client, connect via, has invalid number of digipeaters = %d\n", v->num_digi); } } dlq_connect_request (callsigns, num_calls, cmd.hdr.portx, client, pid); } break; case 'D': /* Send Connected Data */ { char callsigns[AX25_MAX_ADDRS][AX25_MAX_ADDR_LEN]; memset (callsigns, 0, sizeof(callsigns)); const int num_calls = 2; // only first 2 used. Digipeater path // must be remembered from connect request. strlcpy (callsigns[AX25_SOURCE], cmd.hdr.call_from, sizeof(callsigns[AX25_SOURCE])); strlcpy (callsigns[AX25_DESTINATION], cmd.hdr.call_to, sizeof(callsigns[AX25_SOURCE])); dlq_xmit_data_request (callsigns, num_calls, cmd.hdr.portx, client, cmd.hdr.pid, cmd.data, netle2host(cmd.hdr.data_len_NETLE)); } break; case 'd': /* Disconnect, Terminate an AX.25 Connection */ { char callsigns[AX25_MAX_ADDRS][AX25_MAX_ADDR_LEN]; memset (callsigns, 0, sizeof(callsigns)); const int num_calls = 2; // only first 2 used. strlcpy (callsigns[AX25_SOURCE], cmd.hdr.call_from, sizeof(callsigns[AX25_SOURCE])); strlcpy (callsigns[AX25_DESTINATION], cmd.hdr.call_to, sizeof(callsigns[AX25_SOURCE])); dlq_disconnect_request (callsigns, num_calls, cmd.hdr.portx, client); } break; case 'M': /* Send UNPROTO Information (no digipeater path) */ /* Added in version 1.3. This is the same as 'V' except there is no provision for digipeaters. TODO: combine 'V' and 'M' into one case. AGWterminal sends this for beacon or ask QRA. <<< Send UNPROTO Information from AGWPE client application 0, total length = 253 portx = 0, datakind = 'M', pid = 0x00 call_from = "WB2OSZ-15", call_to = "BEACON" data_len = 217, user_reserved = 556, data = 000: 54 68 69 73 20 76 65 72 73 69 6f 6e 20 75 73 65 This version use ... <<< Send UNPROTO Information from AGWPE client application 0, total length = 37 portx = 0, datakind = 'M', pid = 0x00 call_from = "WB2OSZ-15", call_to = "QRA" data_len = 1, user_reserved = 31759424, data = 000: 0d . . There is also a report of it coming from UISS. <<< Send UNPROTO Information from AGWPE client application 0, total length = 50 portx = 0, port_hi_reserved = 0 datakind = 77 = 'M', kind_hi = 0 call_from = "JH4XSY", call_to = "APRS" data_len = 14, user_reserved = 0, data = 000: 21 22 3c 43 2e 74 71 6c 48 72 71 21 21 5f !"", sizeof(stemp)); strlcat (stemp, cmd.hdr.call_to, sizeof(stemp)); cmd.data[data_len] = '\0'; strlcat (stemp, ":", sizeof(stemp)); strlcat (stemp, cmd.data, sizeof(stemp)); //text_color_set(DW_COLOR_DEBUG); //dw_printf ("Transmit '%s'\n", stemp); pp = ax25_from_text (stemp, 1); if (pp == NULL) { text_color_set(DW_COLOR_ERROR); dw_printf ("Failed to create frame from AGW 'M' message.\n"); } else { tq_append (cmd.hdr.portx, TQ_PRIO_1_LO, pp); } } break; case 'y': /* Ask Outstanding frames waiting on a Port */ /* Number of frames sitting in transmit queue for specified channel. */ { struct { struct agwpe_s hdr; int data_NETLE; // Little endian order. } reply; memset (&reply, 0, sizeof(reply)); reply.hdr.portx = cmd.hdr.portx; /* Reply with same port number */ reply.hdr.datakind = 'y'; reply.hdr.data_len_NETLE = host2netle(4); int n = 0; if (cmd.hdr.portx >= 0 && cmd.hdr.portx < MAX_CHANS) { // Count both normal and expedited in transmit queue for given channel. n = tq_count (cmd.hdr.portx, -1, "", "", 0); } reply.data_NETLE = host2netle(n); send_to_client (client, &reply); } break; case 'Y': /* How Many Outstanding frames wait for tx for a particular station */ // This is different than the above 'y' because this refers to a specific // link in connected mode. // This would be useful for a couple different purposes. // When sending bulk data, we want to keep a fair amount queued up to take // advantage of large window sizes (MAXFRAME, EMAXFRAME). On the other // hand we don't want to get TOO far ahead when transferring a large file. // Before disconnecting from another station, it would be good to know // that it actually received the last message we sent. For this reason, // I think it would be good for this to include information frames that were // transmitted but not yet acknowledged. // You could say that a particular frame is still waiting to be sent even // if was already sent because it could be sent again if lost previously. // The documentation is inconsistent about the address order. // One place says "callfrom" is my callsign and "callto" is the other guy. // That would make sense. We are asking about frames going to the other guy. // But another place says it depends on who initiated the connection. // // "If we started the connection CallFrom=US and CallTo=THEM // If the other end started the connection CallFrom=THEM and CallTo=US" // // The response description says nothing about the order; it just mentions two addresses. // If you are writing a client or server application, the order would // be clear but right here it could be either case. // // Another version of the documentation mentioned the source address being optional. // // The only way to get this information is from inside the data link state machine. // We will send a request to it and the result coming out will be used to // send the reply back to the client application. { char callsigns[AX25_MAX_ADDRS][AX25_MAX_ADDR_LEN]; memset (callsigns, 0, sizeof(callsigns)); const int num_calls = 2; // only first 2 used. strlcpy (callsigns[AX25_SOURCE], cmd.hdr.call_from, sizeof(callsigns[AX25_SOURCE])); strlcpy (callsigns[AX25_DESTINATION], cmd.hdr.call_to, sizeof(callsigns[AX25_SOURCE])); dlq_outstanding_frames_request (callsigns, num_calls, cmd.hdr.portx, client); } break; default: text_color_set(DW_COLOR_ERROR); dw_printf ("--- Unexpected Command from application %d using AGW protocol:\n", client); debug_print (FROM_CLIENT, client, &cmd.hdr, sizeof(cmd.hdr) + data_len); break; } } } /* end send_to_client */ /* end server.c */