kopia lustrzana https://github.com/Hamlib/Hamlib
495 wiersze
15 KiB
C
495 wiersze
15 KiB
C
/*
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* Hamlib ELAD backend - FDM_DUO description
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* Copyright (c) 2000-2004 by Stephane Fillod and Juergen Rinas
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* Copyright (c) 2018 by Giovanni Franza HB9EIK
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*
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*/
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#include <hamlib/config.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <hamlib/rig.h>
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#include "idx_builtin.h"
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#include "elad.h"
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#define FDM_DUO_ALL_MODES (RIG_MODE_AM|RIG_MODE_CW|RIG_MODE_CWR|RIG_MODE_SSB|RIG_MODE_FM|RIG_MODE_RTTY|RIG_MODE_RTTYR)
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#define FDM_DUO_OTHER_TX_MODES (RIG_MODE_CW|RIG_MODE_SSB|RIG_MODE_FM|RIG_MODE_RTTY)
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#define FDM_DUO_AM_TX_MODES RIG_MODE_AM
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#define FDM_DUO_VFO (RIG_VFO_A|RIG_VFO_B)
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#define FDM_DUO_LEVEL_ALL (RIG_LEVEL_RFPOWER|RIG_LEVEL_AF|RIG_LEVEL_RF|RIG_LEVEL_SQL|RIG_LEVEL_AGC)
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#define FDM_DUO_FUNC_ALL (RIG_FUNC_NB|RIG_FUNC_COMP|RIG_FUNC_VOX|RIG_FUNC_NR|RIG_FUNC_NR|RIG_FUNC_BC)
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/*
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* elad_fdm_duo_get_info
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* Assumes rig!=NULL
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*/
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static const char *
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elad_fdm_duo_get_info(RIG *rig)
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{
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char firmbuf[50];
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int retval;
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size_t firm_len;
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retval = elad_transaction(rig, "TY", firmbuf, sizeof(firmbuf));
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if (retval != RIG_OK)
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{
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return NULL;
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}
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firm_len = strlen(firmbuf);
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if (firm_len != 5)
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{
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rig_debug(RIG_DEBUG_ERR, "elad_get_info: wrong answer len=%d\n", (int)firm_len);
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return NULL;
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}
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switch (firmbuf[4])
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{
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case '0':
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return "FDM-DUOHX (200W)";
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case '1':
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return "FDM-DUOSAT (100W + AT)";
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case '2':
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return "Japanese 50W type";
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case '3':
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return "Japanese 20W type";
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default:
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return "Firmware: unknown";
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}
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}
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/*
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* elad_fdm_duo_set_level
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* Assumes rig!=NULL
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*
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* set levels of most functions
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*
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* WARNING: the commands differ slightly from the general versions in elad.c
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* e.g.: "SQ"=>"SQ0" , "AG"=>"AG0"
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*/
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int
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elad_fdm_duo_set_level(RIG *rig, vfo_t vfo, setting_t level, value_t val)
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{
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char levelbuf[16];
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int elad_val;
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switch (level)
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{
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case RIG_LEVEL_RFPOWER:
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elad_val = val.f * 100; /* level for FDM_DUOSAT is from 0.. 100W in SSB */
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SNPRINTF(levelbuf, sizeof(levelbuf), "PC%03d", elad_val);
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break;
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case RIG_LEVEL_AF:
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elad_val = val.f * 255; /* possible values for FDM_DUO are 000.. 255 */
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SNPRINTF(levelbuf, sizeof(levelbuf), "AG0%03d", elad_val);
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break;
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case RIG_LEVEL_RF:
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elad_val = val.f * 100; /* possible values for FDM_DUO are 000.. 100 */
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SNPRINTF(levelbuf, sizeof(levelbuf), "RG%03d", elad_val);
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break;
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case RIG_LEVEL_SQL:
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elad_val = val.f * 255; /* possible values for FDM_DUO are 000.. 255 */
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SNPRINTF(levelbuf, sizeof(levelbuf), "SQ0%03d", elad_val);
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break;
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case RIG_LEVEL_AGC: /* possible values for FDM_DUO 000(=off), 001(=fast), 002(=slow) */
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/* hamlib argument is int, possible values rig.h:enum agc_level_e */
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switch (val.i)
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{
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case RIG_AGC_OFF:
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elad_val = 0;
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break;
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case RIG_AGC_FAST:
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elad_val = 1;
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break;
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case RIG_AGC_SLOW:
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elad_val = 2;
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break;
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default:
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rig_debug(RIG_DEBUG_ERR, "%s: Unsupported agc value", __func__);
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return -RIG_EINVAL;
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};
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SNPRINTF(levelbuf, sizeof(levelbuf), "GT%03d", elad_val);
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break;
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default:
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rig_debug(RIG_DEBUG_ERR, "%s: Unsupported set_level %s", __func__,
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rig_strlevel(level));
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return -RIG_EINVAL;
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}
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return elad_transaction(rig, levelbuf, NULL, 0);
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}
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/*
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* elad_get_level
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* Assumes rig!=NULL, val!=NULL
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*/
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int
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elad_fdm_duo_get_level(RIG *rig, vfo_t vfo, setting_t level, value_t *val)
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{
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char ackbuf[50];
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size_t ack_len;
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int levelint;
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int retval;
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switch (level)
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{
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case RIG_LEVEL_RFPOWER:
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retval = elad_transaction(rig, "PC", ackbuf, sizeof(ackbuf));
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if (RIG_OK != retval)
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{
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return retval;
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}
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ack_len = strlen(ackbuf);
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if (5 != ack_len)
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{
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return -RIG_EPROTO;
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}
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if (1 != sscanf(&ackbuf[2], "%d", &levelint))
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{
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return -RIG_EPROTO;
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}
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val->f = (float) levelint / 100.;
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return RIG_OK;
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case RIG_LEVEL_AF:
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retval = elad_transaction(rig, "AG0", ackbuf, sizeof(ackbuf));
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if (RIG_OK != retval)
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{
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return retval;
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}
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ack_len = strlen(ackbuf);
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if (6 != ack_len)
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{
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return -RIG_EPROTO;
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}
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if (1 != sscanf(&ackbuf[3], "%d", &levelint))
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{
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return -RIG_EPROTO;
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}
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val->f = (float) levelint / 255.;
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return RIG_OK;
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case RIG_LEVEL_RF:
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retval = elad_transaction(rig, "RG", ackbuf, sizeof(ackbuf));
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if (RIG_OK != retval)
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{
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return retval;
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}
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ack_len = strlen(ackbuf);
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if (5 != ack_len)
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{
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return -RIG_EPROTO;
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}
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if (1 != sscanf(&ackbuf[2], "%d", &levelint))
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{
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return -RIG_EPROTO;
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}
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val->f = (float) levelint / 100.;
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return RIG_OK;
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case RIG_LEVEL_SQL:
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retval = elad_transaction(rig, "SQ0", ackbuf, sizeof(ackbuf));
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if (RIG_OK != retval)
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{
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return retval;
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}
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ack_len = strlen(ackbuf);
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if (6 != ack_len)
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{
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return -RIG_EPROTO;
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}
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if (1 != sscanf(&ackbuf[3], "%d", &levelint))
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{
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return -RIG_EPROTO;
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}
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val->f = (float) levelint / 255.;
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return RIG_OK;
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case RIG_LEVEL_AGC:
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retval = elad_transaction(rig, "GT", ackbuf, sizeof(ackbuf));
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if (RIG_OK != retval)
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{
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return retval;
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}
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ack_len = strlen(ackbuf);
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if (5 != ack_len)
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{
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return -RIG_EPROTO;
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}
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switch (ackbuf[4])
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{
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case '0':
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val->i = RIG_AGC_OFF;
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break;
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case '1':
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val->i = RIG_AGC_FAST;
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break;
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case '2':
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val->i = RIG_AGC_SLOW;
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break;
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default:
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return -RIG_EPROTO;
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}
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return RIG_OK;
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case RIG_LEVEL_MICGAIN:
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case RIG_LEVEL_PREAMP:
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case RIG_LEVEL_IF:
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case RIG_LEVEL_APF:
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case RIG_LEVEL_NR:
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case RIG_LEVEL_PBT_IN:
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case RIG_LEVEL_PBT_OUT:
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case RIG_LEVEL_CWPITCH:
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case RIG_LEVEL_KEYSPD:
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case RIG_LEVEL_NOTCHF:
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case RIG_LEVEL_COMP:
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case RIG_LEVEL_BKINDL:
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case RIG_LEVEL_BALANCE:
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return -RIG_ENIMPL;
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default:
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rig_debug(RIG_DEBUG_ERR, "Unsupported get_level %s", rig_strlevel(level));
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return -RIG_EINVAL;
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}
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return RIG_OK; /* never reached */
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}
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static struct elad_priv_caps fdm_duo_priv_caps =
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{
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.cmdtrm = EOM_KEN,
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};
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/*
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* fdm_duo rig capabilities.
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* Notice that some rigs share the same functions.
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* Also this struct is READONLY!
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*/
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const struct rig_caps fdm_duo_caps =
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{
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RIG_MODEL(RIG_MODEL_ELAD_FDM_DUO),
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.model_name = "FDM-DUO",
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.mfg_name = "ELAD",
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.version = BACKEND_VER ".0",
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.copyright = "LGPL",
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.status = RIG_STATUS_UNTESTED,
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.rig_type = RIG_TYPE_TRANSCEIVER,
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.ptt_type = RIG_PTT_RIG_MICDATA,
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.dcd_type = RIG_DCD_RIG,
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.port_type = RIG_PORT_SERIAL,
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.serial_rate_min = 4800,
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.serial_rate_max = 115200,
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.serial_data_bits = 8,
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.serial_stop_bits = 1,
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.serial_parity = RIG_PARITY_NONE,
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.serial_handshake = RIG_HANDSHAKE_NONE,
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.write_delay = 0,
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.post_write_delay = 0,
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.timeout = 200,
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.retry = 10,
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.preamp = {12, RIG_DBLST_END,},
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.attenuator = {12, RIG_DBLST_END,},
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.max_rit = kHz(9.99),
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.max_xit = kHz(9.99),
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.max_ifshift = Hz(0),
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.targetable_vfo = RIG_TARGETABLE_FREQ,
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.transceive = RIG_TRN_RIG,
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.rx_range_list1 = {
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{kHz(100), Hz(59999999), FDM_DUO_ALL_MODES, -1, -1, FDM_DUO_VFO},
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RIG_FRNG_END,
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}, /*!< Receive frequency range list for ITU region 1 */
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.tx_range_list1 = {
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{kHz(1810), kHz(1850), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO}, /* 100W class */
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{kHz(1810), kHz(1850), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO}, /* 25W class */
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{kHz(3500), kHz(3800), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(3500), kHz(3800), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(7), kHz(7200), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(7), kHz(7200), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(10100), kHz(10150), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(10100), kHz(10150), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(14), kHz(14350), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(14), kHz(14350), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(18068), kHz(18168), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(18068), kHz(18168), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(21), kHz(21450), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(21), kHz(21450), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(24890), kHz(24990), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(24890), kHz(24990), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(28), kHz(29700), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(28), kHz(29700), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(50), kHz(52000), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(50), kHz(52000), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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RIG_FRNG_END,
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}, /*!< Transmit frequency range list for ITU region 1 */
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.rx_range_list2 = {
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{kHz(100), Hz(59999999), FDM_DUO_ALL_MODES, -1, -1, FDM_DUO_VFO},
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RIG_FRNG_END,
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}, /*!< Receive frequency range list for ITU region 2 */
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.tx_range_list2 = {
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{kHz(1800), MHz(2) - 1, FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO}, /* 100W class */
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{kHz(1800), MHz(2) - 1, FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO}, /* 25W class */
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{kHz(3500), MHz(4) - 1, FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(3500), MHz(4) - 1, FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(5250), kHz(5450), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(5250), kHz(5450), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(7), kHz(7300), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(7), kHz(7300), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(10100), kHz(10150), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(10100), kHz(10150), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(14), kHz(14350), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(14), kHz(14350), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(18068), kHz(18168), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(18068), kHz(18168), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(21), kHz(21450), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(21), kHz(21450), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{kHz(24890), kHz(24990), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{kHz(24890), kHz(24990), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(28), kHz(29700), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(28), kHz(29700), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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{MHz(50), kHz(52000), FDM_DUO_OTHER_TX_MODES, 5000, 100000, FDM_DUO_VFO},
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{MHz(50), kHz(52000), FDM_DUO_AM_TX_MODES, 5000, 25000, FDM_DUO_VFO},
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RIG_FRNG_END,
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}, /*!< Transmit frequency range list for ITU region 2 */
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.tuning_steps = {
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{FDM_DUO_ALL_MODES, kHz(1)},
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{FDM_DUO_ALL_MODES, Hz(2500)},
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{FDM_DUO_ALL_MODES, kHz(5)},
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{FDM_DUO_ALL_MODES, Hz(6250)},
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{FDM_DUO_ALL_MODES, kHz(10)},
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{FDM_DUO_ALL_MODES, Hz(12500)},
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{FDM_DUO_ALL_MODES, kHz(15)},
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{FDM_DUO_ALL_MODES, kHz(20)},
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{FDM_DUO_ALL_MODES, kHz(25)},
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{FDM_DUO_ALL_MODES, kHz(30)},
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{FDM_DUO_ALL_MODES, kHz(100)},
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{FDM_DUO_ALL_MODES, kHz(500)},
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{FDM_DUO_ALL_MODES, MHz(1)},
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{FDM_DUO_ALL_MODES, 0}, /* any tuning step */
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RIG_TS_END,
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},
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/* mode/filter list, remember: order matters! */
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.filters = {
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{RIG_MODE_SSB, kHz(2.4)},
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{RIG_MODE_CW, Hz(200)},
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{RIG_MODE_RTTY, Hz(500)},
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|
{RIG_MODE_AM, kHz(9)},
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|
{RIG_MODE_FM, kHz(14)},
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|
RIG_FLT_END,
|
|
},
|
|
.priv = (void *)& fdm_duo_priv_caps,
|
|
.rig_init = elad_init,
|
|
.rig_cleanup = elad_cleanup,
|
|
.set_freq = elad_set_freq,
|
|
.get_freq = elad_get_freq,
|
|
.set_rit = elad_set_rit, /* FIXME should this switch to rit mode or just set the frequency? */
|
|
.get_rit = elad_get_rit,
|
|
.set_xit = elad_set_xit, /* FIXME should this switch to xit mode or just set the frequency? */
|
|
.get_xit = elad_get_xit,
|
|
.set_mode = elad_set_mode,
|
|
.get_mode = elad_get_mode,
|
|
.set_vfo = elad_set_vfo,
|
|
.get_vfo = elad_get_vfo_if,
|
|
.set_split_vfo = elad_set_split_vfo,
|
|
.get_split_vfo = elad_get_split_vfo_if,
|
|
.get_ptt = elad_get_ptt,
|
|
.set_ptt = elad_set_ptt,
|
|
.get_dcd = elad_get_dcd,
|
|
.set_powerstat = elad_set_powerstat,
|
|
.get_powerstat = elad_get_powerstat,
|
|
.get_info = elad_fdm_duo_get_info,
|
|
.reset = elad_reset,
|
|
.set_ant = elad_set_ant,
|
|
.get_ant = elad_get_ant,
|
|
.scan = elad_scan, /* not working, invalid arguments using rigctl; elad_scan does only support on/off and not tone and CTCSS scan */
|
|
.has_set_level = FDM_DUO_LEVEL_ALL,
|
|
.has_get_level = FDM_DUO_LEVEL_ALL,
|
|
.set_level = elad_fdm_duo_set_level,
|
|
.get_level = elad_fdm_duo_get_level,
|
|
.has_get_func = FDM_DUO_FUNC_ALL,
|
|
.has_set_func = FDM_DUO_FUNC_ALL,
|
|
.set_func = elad_set_func,
|
|
.get_func = elad_get_func,
|
|
};
|
|
|
|
|
|
/*
|
|
* my notes:
|
|
* format with: indent --line-length 200 fdm_duo.c
|
|
*
|
|
* for the FDM_DUO the function NR and BC have tree state: NR0,1,2 and BC0,1,2
|
|
* this cannot be send through the on/off logic of set_function!
|
|
*/
|
|
|
|
|
|
/*
|
|
* Function definitions below
|
|
*/
|