/* * rigctl.c - (C) Stephane Fillod 2000-2005 * * This program test/control a radio using Hamlib. * It takes commands in interactive mode as well as * from command line options. * * $Id: rigctl.c,v 1.54 2005-01-25 00:21:46 fillods Exp $ * * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include "misc.h" #include "sprintflst.h" #define MAXNAMSIZ 32 #define MAXNBOPT 100 /* max number of different options */ #define ARG_IN1 0x01 #define ARG_OUT1 0x02 #define ARG_IN2 0x04 #define ARG_OUT2 0x08 #define ARG_IN3 0x10 #define ARG_OUT3 0x20 #define ARG_IN4 0x40 #define ARG_OUT4 0x80 #define ARG_NOVFO 0x8000 #define ARG_IN (ARG_IN1|ARG_IN2|ARG_IN3|ARG_IN4) #define ARG_OUT (ARG_OUT1|ARG_OUT2|ARG_OUT3|ARG_OUT4) struct test_table { unsigned char cmd; const char *name; int (*rig_routine)(RIG*, int, const struct test_table*, vfo_t, const char*, const char*, const char*); int flags; const char *arg1; const char *arg2; const char *arg3; }; /* * external prototype */ int dumpcaps (RIG *); /* * Prototypes */ void usage(); void usage_rig(); void version(); void list_models(); void dump_chan(RIG*, channel_t*); static int print_conf_list(const struct confparams *cfp, rig_ptr_t data); int set_conf(RIG *my_rig, char *conf_parms); #define declare_proto_rig(f) static int (f)(RIG *rig, int interactive, \ const struct test_table *cmd, vfo_t vfo, const char *arg1, \ const char *arg2, const char *arg3) declare_proto_rig(set_freq); declare_proto_rig(get_freq); declare_proto_rig(set_rit); declare_proto_rig(get_rit); declare_proto_rig(set_xit); declare_proto_rig(get_xit); declare_proto_rig(set_mode); declare_proto_rig(get_mode); declare_proto_rig(set_vfo); declare_proto_rig(get_vfo); declare_proto_rig(set_ptt); declare_proto_rig(get_ptt); declare_proto_rig(get_ptt); declare_proto_rig(set_rptr_shift); declare_proto_rig(get_rptr_shift); declare_proto_rig(set_rptr_offs); declare_proto_rig(get_rptr_offs); declare_proto_rig(set_ctcss_tone); declare_proto_rig(get_ctcss_tone); declare_proto_rig(set_dcs_code); declare_proto_rig(get_dcs_code); declare_proto_rig(set_split_freq); declare_proto_rig(get_split_freq); declare_proto_rig(set_split_mode); declare_proto_rig(get_split_mode); declare_proto_rig(set_split_vfo); declare_proto_rig(get_split_vfo); declare_proto_rig(set_ts); declare_proto_rig(get_ts); declare_proto_rig(power2mW); declare_proto_rig(set_level); declare_proto_rig(get_level); declare_proto_rig(set_func); declare_proto_rig(get_func); declare_proto_rig(set_parm); declare_proto_rig(get_parm); declare_proto_rig(set_bank); declare_proto_rig(set_mem); declare_proto_rig(get_mem); declare_proto_rig(vfo_op); declare_proto_rig(scan); declare_proto_rig(set_channel); declare_proto_rig(get_channel); declare_proto_rig(set_trn); declare_proto_rig(get_trn); declare_proto_rig(get_info); declare_proto_rig(dump_caps); declare_proto_rig(set_ant); declare_proto_rig(get_ant); declare_proto_rig(reset); declare_proto_rig(send_morse); declare_proto_rig(set_powerstat); declare_proto_rig(get_powerstat); /* * convention: upper case cmd is set, lowercase is get * * TODO: add missing rig_set_/rig_get_: sql, dcd, etc. * NB: 'q' 'Q' '?' are reserved by interactive mode interface * do NOT use -W since it's reserved by POSIX. * * Available alphabetic letters: -.--------K-----*-----W-Y- */ struct test_table test_list[] = { { 'F', "set_freq", set_freq, ARG_IN, "Frequency" }, { 'f', "get_freq", get_freq, ARG_OUT, "Frequency" }, { 'J', "set_rit", set_rit, ARG_IN, "RIT" }, { 'j', "get_rit", get_rit, ARG_OUT, "RIT" }, { 'M', "set_mode", set_mode, ARG_IN, "Mode", "Passband" }, { 'm', "get_mode", get_mode, ARG_OUT, "Mode", "Passband" }, { 'V', "set_vfo", set_vfo, ARG_IN|ARG_NOVFO, "VFO" }, { 'v', "get_vfo", get_vfo, ARG_OUT, "VFO" }, { 'T', "set_ptt", set_ptt, ARG_IN, "PTT" }, { 't', "get_ptt", get_ptt, ARG_OUT, "PTT" }, { 'R', "set_rptr_shift", set_rptr_shift, ARG_IN, "Rptr shift" }, { 'r', "get_rptr_shift", get_rptr_shift, ARG_OUT, "Rptr shift" }, { 'O', "set_rptr_offs", set_rptr_offs, ARG_IN, "Rptr offset" }, { 'o', "get_rptr_offs", get_rptr_offs, ARG_OUT, "Rptr offset" }, { 'C', "set_ctcss_tone", set_ctcss_tone, ARG_IN, "CTCSS tone" }, { 'c', "get_ctcss_tone", get_ctcss_tone, ARG_OUT, "CTCSS tone" }, { 'D', "set_dcs_code", set_dcs_code, ARG_IN, "DCS code" }, { 'd', "get_dcs_code", get_dcs_code, ARG_OUT, "DCS code" }, { 'I', "set_split_freq", set_split_freq, ARG_IN, "Tx frequency" }, { 'i', "get_split_freq", get_split_freq, ARG_OUT, "Tx frequency" }, { 'X', "set_split_mode", set_split_mode, ARG_IN, "Mode", "Passband" }, { 'x', "get_split_mode", get_split_mode, ARG_OUT, "Mode", "Passband" }, { 'S', "set_split_vfo", set_split_vfo, ARG_IN, "Split mode", "TxVFO" }, { 's', "get_split_vfo", get_split_vfo, ARG_OUT, "Split mode", "TxVFO" }, { 'N', "set_ts", set_ts, ARG_IN, "Tuning step" }, { 'n', "get_ts", get_ts, ARG_OUT, "Tuning step" }, { 'L', "set_level", set_level, ARG_IN, "Level", "Value" }, { 'l', "get_level", get_level, ARG_IN1|ARG_OUT2, "Level", "Value" }, { 'U', "set_func", set_func, ARG_IN, "Func", "Func status" }, { 'u', "get_func", get_func, ARG_IN1|ARG_OUT2, "Func", "Func status" }, { 'P', "set_parm", set_parm, ARG_IN|ARG_NOVFO, "Parm", "Value" }, { 'p', "get_parm", get_parm, ARG_IN1|ARG_OUT2|ARG_NOVFO, "Parm", "Value" }, { 'E', "set_mem", set_mem, ARG_IN, "Memory#" }, { 'e', "get_mem", get_mem, ARG_OUT, "Memory#" }, { 'G', "vfo_op", vfo_op, ARG_IN, "Mem/VFO op" }, { 'g', "scan", scan, ARG_IN, "Scan fct", "Channel" }, { 'H', "set_channel", set_channel, ARG_IN|ARG_NOVFO, /* FIXME */ }, { 'h', "get_channel", get_channel, ARG_IN|ARG_NOVFO, "Channel" }, { 'A', "set_trn", set_trn, ARG_IN|ARG_NOVFO, "Transceive" }, { 'a', "get_trn", get_trn, ARG_OUT|ARG_NOVFO, "Transceive" }, { 'B', "set_bank", set_bank, ARG_IN, "Bank" }, { '_', "get_info", get_info, ARG_OUT|ARG_NOVFO, "Info" }, { '2', "power2mW", power2mW, ARG_NOVFO }, { '1', "dump_caps", dump_caps, ARG_NOVFO }, { 'Z', "set_xit", set_xit, ARG_IN, "XIT" }, { 'z', "get_xit", get_xit, ARG_OUT, "XIT" }, { 0x83, "set_ant", set_ant, ARG_IN, "Antenna" }, { 0x84, "get_ant", get_ant, ARG_OUT, "Antenna" }, { 0x85, "reset", reset, ARG_IN, "Reset" }, { 0x86, "send_morse", send_morse, ARG_IN, "Morse" }, { 0x87, "set_powerstat", set_powerstat, ARG_IN|ARG_NOVFO, "Status" }, { 0x88, "get_powerstat", get_powerstat, ARG_OUT|ARG_NOVFO, "Status" }, { 0x00, "", NULL }, }; /* * Reminder: when adding long options, * keep up to date SHORT_OPTIONS, usage()'s output and man page. thanks. * NB: do NOT use -W since it's reserved by POSIX. * TODO: add an option to read from a file */ #define SHORT_OPTIONS "m:r:p:d:P:D:s:c:lC:LuovhV" static struct option long_options[] = { {"model", 1, 0, 'm'}, {"rig-file", 1, 0, 'r'}, {"ptt-file", 1, 0, 'p'}, {"dcd-file", 1, 0, 'd'}, {"ptt-type", 1, 0, 'P'}, {"dcd-type", 1, 0, 'D'}, {"serial-speed", 1, 0, 's'}, {"civaddr", 1, 0, 'c'}, {"list", 0, 0, 'l'}, {"set-conf", 1, 0, 'C'}, {"show-conf",0, 0, 'L'}, {"dump-caps", 0, 0, 'u'}, {"vfo", 0, 0, 'o'}, {"verbose", 0, 0, 'v'}, {"help", 0, 0, 'h'}, {"version", 0, 0, 'V'}, {0, 0, 0, 0} }; struct test_table *find_cmd_entry(int cmd) { int i; for (i=0; i= MAXNBOPT || test_list[i].cmd == 0x00) return NULL; return &test_list[i]; } /* * TODO: use Lex */ char parse_arg(const char *arg) { int i; for (i=0; i\n\n"); /* * at least one command on command line, * disable interactive mode */ if (optind < argc) interactive = 0; my_rig = rig_init(my_model); if (!my_rig) { fprintf(stderr, "Unknown rig num %d, or initialization error.\n", my_model); fprintf(stderr, "Please check with --list option.\n"); exit(2); } retcode = set_conf(my_rig, conf_parms); if (retcode != RIG_OK) { fprintf(stderr, "Config parameter error: %s\n", rigerror(retcode)); exit(2); } if (rig_file) strncpy(my_rig->state.rigport.pathname, rig_file, FILPATHLEN); /* * ex: RIG_PTT_PARALLEL and /dev/parport0 */ if (ptt_type != RIG_PTT_NONE) my_rig->state.pttport.type.ptt = ptt_type; if (dcd_type != RIG_DCD_NONE) my_rig->state.dcdport.type.dcd = dcd_type; if (ptt_file) strncpy(my_rig->state.pttport.pathname, ptt_file, FILPATHLEN); if (dcd_file) strncpy(my_rig->state.dcdport.pathname, dcd_file, FILPATHLEN); /* FIXME: bound checking and port type == serial */ if (serial_rate != 0) my_rig->state.rigport.parm.serial.rate = serial_rate; if (civaddr) rig_set_conf(my_rig, rig_token_lookup(my_rig, "civaddr"), civaddr); /* * print out conf parameters */ if (show_conf) { rig_token_foreach(my_rig, print_conf_list, (rig_ptr_t)my_rig); } /* * print out conf parameters, and exists immediately * We may be interested only in only caps, and rig_open may fail. */ if (dump_caps_opt) { dumpcaps(my_rig); rig_cleanup(my_rig); /* if you care about memory */ exit(0); } retcode = rig_open(my_rig); if (retcode != RIG_OK) { fprintf(stderr,"rig_open: error = %s \n", rigerror(retcode)); exit(2); } if (verbose > 0) printf("Opened rig model %d, '%s'\n", my_rig->caps->rig_model, my_rig->caps->model_name); rig_debug(RIG_DEBUG_VERBOSE, "Backend version: %s, Status: %s\n", my_rig->caps->version, rig_strstatus(my_rig->caps->status)); #define MAXARGSZ 127 while (1) { char arg1[MAXARGSZ+1], *p1; char arg2[MAXARGSZ+1], *p2; char arg3[MAXARGSZ+1], *p3; static int last_was_ret = 1; vfo_t vfo = RIG_VFO_CURR; if (interactive) { printf("\nRig command: "); do { scanfc("%c", &cmd); /* command by name */ if (cmd == '\\') { unsigned char cmd_name[MAXNAMSIZ], *pcmd = cmd_name; int c_len = MAXNAMSIZ; scanfc("%c", pcmd); while(c_len-- && (isalnum(*pcmd) || *pcmd == '_' )) scanfc("%c", ++pcmd); *pcmd = '\0'; cmd = parse_arg(cmd_name); break; } if (cmd == 0x0a || cmd == 0x0d) { if (last_was_ret) { printf("? for help, q to quit.\n"); printf("\nRig command: "); continue; } last_was_ret = 1; } } while (cmd == 0x0a || cmd == 0x0d); last_was_ret = 0; /* comment line */ if (cmd == '#' || cmd == ';') { while( cmd != '\n' && cmd != '\r') scanfc("%c", &cmd); continue; } if (cmd == 'Q' || cmd == 'q') break; if (cmd == '?') { usage_rig(); continue; } } else { /* parse rest of command line */ if (optind >= argc) break; if (argv[optind][1] == '\0') cmd = argv[optind][0]; else cmd = parse_arg(argv[optind]); optind++; } cmd_entry = find_cmd_entry(cmd); if (!cmd_entry) { fprintf(stderr, "Command '%c' not found!\n", cmd); continue; } p1 = p2 = p3 = NULL; if (!(cmd_entry->flags & ARG_NOVFO) && vfo_mode) { if (interactive) { printf("VFO: "); scanfc("%s", arg1); vfo = rig_parse_vfo(arg1); } else { if (!argv[optind]) { fprintf(stderr, "Invalid arg for command '%s'\n", cmd_entry->name); exit(2); } vfo = rig_parse_vfo(argv[optind++]); } } if ((cmd_entry->flags & ARG_IN1) && cmd_entry->arg1) { if (interactive) { printf("%s: ", cmd_entry->arg1); scanfc("%s", arg1); p1 = arg1; } else { if (!argv[optind]) { fprintf(stderr, "Invalid arg for command '%s'\n", cmd_entry->name); exit(2); } p1 = argv[optind++]; } } if ((cmd_entry->flags & ARG_IN2) && cmd_entry->arg2) { if (interactive) { printf("%s: ", cmd_entry->arg2); scanfc("%s", arg2); p2 = arg2; } else { if (!argv[optind]) { fprintf(stderr, "Invalid arg for command '%s'\n", cmd_entry->name); exit(2); } p2 = argv[optind++]; } } if ((cmd_entry->flags & ARG_IN3) && cmd_entry->arg3) { if (interactive) { printf("%s: ", cmd_entry->arg3); scanfc("%s", arg3); p3 = arg3; } else { if (!argv[optind]) { fprintf(stderr, "Invalid arg for command '%s'\n", cmd_entry->name); exit(2); } p3 = argv[optind++]; } } retcode = (*cmd_entry->rig_routine)(my_rig, interactive, cmd_entry, vfo, p1, p2, p3); if (retcode != RIG_OK ) { printf("%s: error = %s\n", cmd_entry->name, rigerror(retcode)); } } rig_close(my_rig); /* close port */ rig_cleanup(my_rig); /* if you care about memory */ return 0; } void version() { printf("rigctl, %s\n\n", hamlib_version); printf("%s\n", hamlib_copyright); } void usage_rig() { int i; printf("Commands (may not be available for this rig):\n"); for (i=0; test_list[i].cmd != 0; i++) { printf("%c: %-16s(", isprint(test_list[i].cmd)?test_list[i].cmd:'?', test_list[i].name); if (test_list[i].arg1 && (test_list[i].flags&ARG_IN1)) printf("%s", test_list[i].arg1); if (test_list[i].arg2 && (test_list[i].flags&ARG_IN2)) printf(",%s", test_list[i].arg2); if (test_list[i].arg3 && (test_list[i].flags&ARG_IN3)) printf(",%s", test_list[i].arg3); printf(") \t"); if (i%2) printf("\n"); } } void usage() { printf("Usage: rigctl [OPTION]... [COMMAND]...\n" "Send COMMANDs to a connected radio transceiver or receiver.\n\n"); printf( " -m, --model=ID select radio model number. See model list\n" " -r, --rig-file=DEVICE set device of the radio to operate on\n" " -p, --ptt-file=DEVICE set device of the PTT device to operate on\n" " -d, --dcd-file=DEVICE set device of the DCD device to operate on\n" " -P, --ptt-type=TYPE set type of the PTT device to operate on\n" " -D, --dcd-type=TYPE set type of the DCD device to operate on\n" " -s, --serial-speed=BAUD set serial speed of the serial port\n" " -c, --civaddr=ID set CI-V address, decimal (for Icom rigs only)\n" " -C, --set-conf=PARM=VAL set config parameters\n" " -L, --show-conf list all config parameters\n" " -l, --list list all model numbers and exit\n" " -u, --dump-caps dump capabilities and exit\n" " -o, --vfo do not default to VFO_CURR, require extra vfo arg\n" " -v, --verbose set verbose mode, cumulative\n" " -h, --help display this help and exit\n" " -V, --version output version information and exit\n\n" ); usage_rig(); printf("\nReport bugs to .\n"); } static int print_conf_list(const struct confparams *cfp, rig_ptr_t data) { RIG *rig = (RIG*) data; int i; char buf[128] = ""; rig_get_conf(rig, cfp->token, buf); printf("%s: \"%s\"\n" "\t" "Default: %s, Value: %s\n", cfp->name, cfp->tooltip, cfp->dflt, buf ); switch (cfp->type) { case RIG_CONF_NUMERIC: printf("\tRange: %.1f..%.1f, step %.1f\n", cfp->u.n.min, cfp->u.n.max, cfp->u.n.step); break; case RIG_CONF_COMBO: if (!cfp->u.c.combostr) break; printf("\tCombo: %s", cfp->u.c.combostr[0]); for (i=1 ; iu.c.combostr[i]; i++) printf(", %s", cfp->u.c.combostr[i]); printf("\n"); break; case RIG_CONF_STRING: printf("\tString.\n"); break; case RIG_CONF_CHECKBUTTON: printf("\tCheck button.\n"); break; default: printf("\tUnkown conf\n"); } return 1; /* !=0, we want them all ! */ } static int print_model_list(const struct rig_caps *caps, void *data) { printf("%d\t%-16s%-24s%-8s%s\n", caps->rig_model, caps->mfg_name, caps->model_name, caps->version, rig_strstatus(caps->status)); return 1; /* !=0, we want them all ! */ } void list_models() { int status; rig_load_all_backends(); printf("Rig#\tMfg Model Vers. Status\n"); status = rig_list_foreach(print_model_list, NULL); if (status != RIG_OK ) { printf("rig_list_foreach: error = %s \n", rigerror(status)); exit(2); } } int set_conf(RIG *my_rig, char *conf_parms) { char *p, *q, *n; int ret; p = conf_parms; while (p && *p != '\0') { /* FIXME: left hand value of = cannot be null */ q = strchr(p, '='); if (q) *q++ = '\0'; n = strchr(q, ','); if (n) *n++ = '\0'; ret = rig_set_conf(my_rig, rig_token_lookup(my_rig, p), q); if (ret != RIG_OK) return ret; p = n; } return RIG_OK; } /* * static int (f)(RIG *rig, int interactive, const void *arg1, const void *arg2, const void *arg3, const void *arg4) */ declare_proto_rig(set_freq) { freq_t freq; sscanf(arg1, "%"SCNfreq, &freq); return rig_set_freq(rig, vfo, freq); } declare_proto_rig(get_freq) { int status; freq_t freq; status = rig_get_freq(rig, vfo, &freq); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); /* i.e. "Frequency" */ printf("%"PRIll"\n", (long long)freq); return status; } declare_proto_rig(set_rit) { shortfreq_t rit; sscanf(arg1, "%ld", &rit); return rig_set_rit(rig, vfo, rit); } declare_proto_rig(get_rit) { int status; shortfreq_t rit; status = rig_get_rit(rig, vfo, &rit); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%ld\n", rit); return status; } declare_proto_rig(set_xit) { shortfreq_t xit; sscanf(arg1, "%ld", &xit); return rig_set_xit(rig, vfo, xit); } declare_proto_rig(get_xit) { int status; shortfreq_t xit; status = rig_get_xit(rig, vfo, &xit); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%ld\n", xit); return status; } declare_proto_rig(set_mode) { rmode_t mode; pbwidth_t width; mode = rig_parse_mode(arg1); sscanf(arg2, "%ld", &width); return rig_set_mode(rig, vfo, mode, width); } declare_proto_rig(get_mode) { int status; rmode_t mode; pbwidth_t width; status = rig_get_mode(rig, vfo, &mode, &width); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%s\n", rig_strrmode(mode)); if (interactive) printf("%s: ", cmd->arg2); printf("%ld\n", width); return status; } declare_proto_rig(set_vfo) { return rig_set_vfo(rig, rig_parse_vfo(arg1)); } declare_proto_rig(get_vfo) { int status; status = rig_get_vfo(rig, &vfo); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%s\n", rig_strvfo(vfo)); return status; } declare_proto_rig(set_ptt) { ptt_t ptt; sscanf(arg1, "%d", (int*)&ptt); return rig_set_ptt(rig, vfo, ptt); } declare_proto_rig(get_ptt) { int status; ptt_t ptt; status = rig_get_ptt(rig, vfo, &ptt); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", ptt); return status; } declare_proto_rig(set_rptr_shift) { rptr_shift_t rptr_shift; rptr_shift = rig_parse_rptr_shift(arg1); return rig_set_rptr_shift(rig, vfo, rptr_shift); } declare_proto_rig(get_rptr_shift) { int status; rptr_shift_t rptr_shift; status = rig_get_rptr_shift(rig, vfo, &rptr_shift); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%s\n", rig_strptrshift(rptr_shift)); return status; } declare_proto_rig(set_rptr_offs) { unsigned long rptr_offs; sscanf(arg1, "%ld", &rptr_offs); return rig_set_rptr_offs(rig, vfo, rptr_offs); } declare_proto_rig(get_rptr_offs) { int status; unsigned long rptr_offs; status = rig_get_rptr_offs(rig, vfo, &rptr_offs); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%ld\n", rptr_offs); return status; } declare_proto_rig(set_ctcss_tone) { tone_t tone; sscanf(arg1, "%d", &tone); return rig_set_ctcss_tone(rig, vfo, tone); } declare_proto_rig(get_ctcss_tone) { int status; tone_t tone; status = rig_get_ctcss_tone(rig, vfo, &tone); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", tone); return status; } declare_proto_rig(set_dcs_code) { tone_t code; sscanf(arg1, "%d", &code); return rig_set_dcs_code(rig, vfo, code); } declare_proto_rig(get_dcs_code) { int status; tone_t code; status = rig_get_dcs_code(rig, vfo, &code); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", code); return status; } declare_proto_rig(set_split_freq) { freq_t txfreq; sscanf(arg1, "%"SCNfreq, &txfreq); return rig_set_split_freq(rig, vfo, txfreq); } declare_proto_rig(get_split_freq) { int status; freq_t txfreq; status = rig_get_split_freq(rig, vfo, &txfreq); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%"PRIll"\n", (long long)txfreq); return status; } declare_proto_rig(set_split_mode) { rmode_t mode; pbwidth_t width; mode = rig_parse_mode(arg1); sscanf(arg2, "%d", (int*)&width); return rig_set_split_mode(rig, vfo, mode, width); } declare_proto_rig(get_split_mode) { int status; rmode_t mode; pbwidth_t width; status = rig_get_split_mode(rig, vfo, &mode, &width); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%s\n", rig_strrmode(mode)); if (interactive) printf("%s: ", cmd->arg2); printf("%ld\n", width); return status; } declare_proto_rig(set_split_vfo) { split_t split; sscanf(arg1, "%d", (int*)&split); return rig_set_split_vfo(rig, vfo, split, rig_parse_vfo(arg2)); } declare_proto_rig(get_split_vfo) { int status; split_t split; vfo_t tx_vfo; status = rig_get_split_vfo(rig, vfo, &split, &tx_vfo); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", split); if (interactive) printf("%s: ", cmd->arg2); printf("%s\n", rig_strvfo(tx_vfo)); return status; } declare_proto_rig(set_ts) { unsigned long ts; sscanf(arg1, "%ld", &ts); return rig_set_ts(rig, vfo, ts); } declare_proto_rig(get_ts) { int status; unsigned long ts; status = rig_get_ts(rig, vfo, &ts); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%ld\n", ts); return status; } declare_proto_rig(power2mW) { int status; float power; freq_t freq; rmode_t mode; unsigned int mwp; printf("Power [0.0 .. 1.0]: "); scanf("%f", &power); printf("Frequency: "); scanf("%"SCNfreq, &freq); printf("Mode: "); scanf("%d", &mode); status = rig_power2mW(rig, &mwp, power, freq, mode); printf("Power: %d mW\n", mwp); return status; } /* * RIG_CONF_ extparm's type: * NUMERIC: val.f * COMBO: val.i, starting from 0 * STRING: val.s * CHECKBUTTON: val.i 0/1 */ declare_proto_rig(set_level) { setting_t level; value_t val; level = rig_parse_level(arg1); if (!rig_has_set_level(rig, level)) { const struct confparams *cfp; cfp = rig_ext_lookup(rig, arg1); if (!cfp) return -RIG_EINVAL; /* no such parameter */ switch (cfp->type) { case RIG_CONF_CHECKBUTTON: case RIG_CONF_COMBO: sscanf(arg2, "%d", &val.i); break; case RIG_CONF_NUMERIC: sscanf(arg2, "%f", &val.f); break; case RIG_CONF_STRING: val.cs = arg2; break; default: return -RIG_ECONF; } return rig_set_ext_level(rig, vfo, cfp->token, val); } if (RIG_LEVEL_IS_FLOAT(level)) sscanf(arg2, "%f", &val.f); else sscanf(arg2, "%d", &val.i); return rig_set_level(rig, vfo, level, val); } declare_proto_rig(get_level) { int status; setting_t level; value_t val; level = rig_parse_level(arg1); if (!rig_has_get_level(rig, level)) { const struct confparams *cfp; cfp = rig_ext_lookup(rig, arg1); if (!cfp) return -RIG_EINVAL; /* no such parameter */ status = rig_get_ext_level(rig, vfo, cfp->token, &val); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg2); switch (cfp->type) { case RIG_CONF_CHECKBUTTON: case RIG_CONF_COMBO: printf("%d\n", val.i); break; case RIG_CONF_NUMERIC: printf("%f\n", val.f); break; case RIG_CONF_STRING: printf("%s\n", val.s); break; default: return -RIG_ECONF; } return status; } status = rig_get_level(rig, vfo, level, &val); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg2); if (RIG_LEVEL_IS_FLOAT(level)) printf("%f\n", val.f); else printf("%d\n", val.i); return status; } declare_proto_rig(set_func) { setting_t func; int func_stat; func = rig_parse_func(arg1); sscanf(arg2, "%d", (int*)&func_stat); return rig_set_func(rig, vfo, func, func_stat); } declare_proto_rig(get_func) { int status; setting_t func; int func_stat; func = rig_parse_func(arg1); status = rig_get_func(rig, vfo, func, &func_stat); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg2); printf("%d\n", func_stat); return status; } declare_proto_rig(set_parm) { setting_t parm; value_t val; parm = rig_parse_parm(arg1); if (!rig_has_set_parm(rig, parm)) { const struct confparams *cfp; cfp = rig_ext_lookup(rig, arg1); if (!cfp) return -RIG_EINVAL; /* no such parameter */ switch (cfp->type) { case RIG_CONF_CHECKBUTTON: case RIG_CONF_COMBO: sscanf(arg2, "%d", &val.i); break; case RIG_CONF_NUMERIC: sscanf(arg2, "%f", &val.f); break; case RIG_CONF_STRING: val.cs = arg2; break; default: return -RIG_ECONF; } return rig_set_ext_parm(rig, cfp->token, val); } if (RIG_PARM_IS_FLOAT(parm)) sscanf(arg2, "%f", &val.f); else sscanf(arg2, "%d", &val.i); return rig_set_parm(rig, parm, val); } declare_proto_rig(get_parm) { int status; setting_t parm; value_t val; parm = rig_parse_parm(arg1); if (!rig_has_get_parm(rig, parm)) { const struct confparams *cfp; cfp = rig_ext_lookup(rig, arg1); if (!cfp) return -RIG_EINVAL; /* no such parameter */ status = rig_get_ext_parm(rig, cfp->token, &val); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg2); switch (cfp->type) { case RIG_CONF_CHECKBUTTON: case RIG_CONF_COMBO: printf("%d\n", val.i); break; case RIG_CONF_NUMERIC: printf("%f\n", val.f); break; case RIG_CONF_STRING: printf("%s\n", val.s); break; default: return -RIG_ECONF; } return status; } status = rig_get_parm(rig, parm, &val); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg2); if (RIG_PARM_IS_FLOAT(parm)) printf("%f\n", val.f); else printf("%d\n", val.i); return status; } declare_proto_rig(set_bank) { int bank; sscanf(arg1, "%d", &bank); return rig_set_bank(rig, vfo, bank); } declare_proto_rig(set_mem) { int ch; sscanf(arg1, "%d", &ch); return rig_set_mem(rig, vfo, ch); } declare_proto_rig(get_mem) { int status; int ch; status = rig_get_mem(rig, vfo, &ch); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", ch); return status; } declare_proto_rig(vfo_op) { vfo_op_t op; op = rig_parse_vfo_op(arg1); return rig_vfo_op(rig, vfo, op); } declare_proto_rig(scan) { scan_t op; int ch; op = rig_parse_scan(arg1); sscanf(arg2, "%d", &ch); return rig_scan(rig, vfo, op, ch); } declare_proto_rig(set_channel) { fprintf(stderr,"rigctl set_channel not implemented yet!\n"); return -RIG_ENIMPL; } declare_proto_rig(get_channel) { int status; channel_t chan; if (isdigit(arg1[0])) { chan.vfo = RIG_VFO_MEM; if (sscanf(arg1, "%d", &chan.channel_num) != 1) return -RIG_EINVAL; } else { chan.vfo = rig_parse_vfo(arg1); chan.channel_num = 0; } status = rig_get_channel(rig, &chan); if (status != RIG_OK) return status; dump_chan(rig, &chan); return status; } static int myfreq_event(RIG *rig, vfo_t vfo, freq_t freq, rig_ptr_t arg) { printf("Event: freq changed to %"PRIll"Hz on %s\n", (long long)freq, rig_strvfo(vfo)); return 0; } static int mymode_event(RIG *rig, vfo_t vfo, rmode_t mode, pbwidth_t width, rig_ptr_t arg) { printf("Event: mode changed to %s, width %liHz on %s\n", rig_strrmode(mode), width, rig_strvfo(vfo)); return 0; } static int myvfo_event(RIG *rig, vfo_t vfo, rig_ptr_t arg) { printf("Event: vfo changed to %s\n", rig_strvfo(vfo)); return 0; } static int myptt_event(RIG *rig, vfo_t vfo, ptt_t ptt, rig_ptr_t arg) { printf("Event: PTT changed to %i on %s\n", ptt, rig_strvfo(vfo)); return 0; } static int mydcd_event(RIG *rig, vfo_t vfo, dcd_t dcd, rig_ptr_t arg) { printf("Event: DCD changed to %i on %s\n", dcd, rig_strvfo(vfo)); return 0; } declare_proto_rig(set_trn) { int trn; if (!strcmp(arg1, "OFF")) trn = RIG_TRN_OFF; else if (!strcmp(arg1, "RIG") || !strcmp(arg1, "ON")) trn = RIG_TRN_RIG; else if (!strcmp(arg1, "POLL")) trn = RIG_TRN_POLL; else return -RIG_EINVAL; if (trn != RIG_TRN_OFF) { rig_set_freq_callback(rig, myfreq_event, NULL); rig_set_mode_callback(rig, mymode_event, NULL); rig_set_vfo_callback (rig, myvfo_event, NULL); rig_set_ptt_callback (rig, myptt_event, NULL); rig_set_dcd_callback (rig, mydcd_event, NULL); } return rig_set_trn(rig, trn); } declare_proto_rig(get_trn) { int status; int trn; status = rig_get_trn(rig, &trn); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", trn); return status; } declare_proto_rig(get_info) { const char *s; s = rig_get_info(rig); if (interactive) printf("%s: ", cmd->arg1); printf("%s\n", s ? s : "None"); return RIG_OK; } void dump_chan(RIG *rig, channel_t *chan) { int idx, firstloop=1; char freqbuf[16]; char widthbuf[16]; char prntbuf[256]; printf("Channel: %d, Name: '%s'\n", chan->channel_num, chan->channel_desc); printf("VFO: %s, Antenna: %d, Split: %s\n", rig_strvfo(chan->vfo), chan->ant, chan->split==RIG_SPLIT_ON?"ON":"OFF"); sprintf_freq(freqbuf, chan->freq); sprintf_freq(widthbuf, chan->width); printf("Freq: %s\tMode: %s\tWidth: %s\n", freqbuf, rig_strrmode(chan->mode), widthbuf); sprintf_freq(freqbuf, chan->tx_freq); sprintf_freq(widthbuf, chan->tx_width); printf("txFreq: %s\ttxMode: %s\ttxWidth: %s\n", freqbuf, rig_strrmode(chan->tx_mode), widthbuf); sprintf_freq(freqbuf,chan->rptr_offs); printf("Shift: %s, Offset: %s%s, ", rig_strptrshift(chan->rptr_shift), chan->rptr_offs>0?"+":"", freqbuf); sprintf_freq(freqbuf,chan->tuning_step); printf("Step: %s, ", freqbuf); sprintf_freq(freqbuf,chan->rit); printf("RIT: %s%s, ", chan->rit>0?"+":"", freqbuf); sprintf_freq(freqbuf,chan->xit); printf("XIT: %s%s\n", chan->xit>0?"+":"", freqbuf); printf("CTCSS: %d.%dHz, ", chan->ctcss_tone/10, chan->ctcss_tone%10); printf("CTCSSsql: %d.%dHz, ", chan->ctcss_sql/10, chan->ctcss_sql%10); printf("DCS: %d.%d, ", chan->dcs_code/10, chan->dcs_code%10); printf("DCSsql: %d.%d\n", chan->dcs_sql/10, chan->dcs_sql%10); sprintf_func(prntbuf, chan->funcs); printf("Functions: %s\n", prntbuf); printf("Levels:"); for (idx=0; idx<60; idx++) { setting_t level = rig_idx2setting(idx); const char *level_s; if (!rig_has_set_level(rig, level)) continue; level_s = rig_strlevel(level); if (!level_s) continue; /* duh! */ if (firstloop) firstloop = 0; else printf(",\t"); if (RIG_LEVEL_IS_FLOAT(level)) printf(" %s: %g%%", level_s, 100*chan->levels[idx].f); else printf(" %s: %d", level_s, chan->levels[idx].i); } printf("\n"); } declare_proto_rig(dump_caps) { dumpcaps(rig); return RIG_OK; } declare_proto_rig(set_ant) { ant_t ant; sscanf(arg1, "%d", &ant); return rig_set_ant(rig, vfo, rig_idx2setting(ant)); } declare_proto_rig(get_ant) { int status; ant_t ant; status = rig_get_ant(rig, vfo, &ant); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", rig_setting2idx(ant)); return status; } declare_proto_rig(reset) { reset_t reset; sscanf(arg1, "%d", &reset); return rig_reset(rig, reset); } declare_proto_rig(send_morse) { return rig_send_morse(rig, vfo, arg1); } declare_proto_rig(set_powerstat) { powerstat_t stat; sscanf(arg1, "%d", &stat); return rig_set_powerstat(rig, stat); } declare_proto_rig(get_powerstat) { int status; powerstat_t stat; status = rig_get_powerstat(rig, &stat); if (status != RIG_OK) return status; if (interactive) printf("%s: ", cmd->arg1); printf("%d\n", stat); return status; }