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Hamlib/rpcrig/rpcrig_proc.c

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/*
* Hamlib RPC server - procedures
* Copyright (c) 2001 by Stephane Fillod
*
* $Id: rpcrig_proc.c,v 1.4 2001-12-27 21:56:01 fillods Exp $
*
* This library is free software; you can redistribute it and/or modify
* it under the terms of the GNU Library 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 Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <stdio.h> /* Standard input/output definitions */
#include <string.h> /* String function definitions */
#include <unistd.h> /* UNIX standard function definitions */
#include <fcntl.h> /* File control definitions */
#include <errno.h> /* Error number definitions */
#include <sys/ioctl.h>
#include <rpc/rpc.h>
#include "rpcrig.h"
#include <hamlib/rig.h>
extern RIG *the_rpc_rig;
model_x *getmodel_1_svc(void *arg, struct svc_req *svc)
{
static model_x res;
rig_debug(RIG_DEBUG_VERBOSE,__FUNCTION__ " called\n");
/* free previous result */
//xdr_free(xdr_model, &res);
res = the_rpc_rig->caps->rig_model;
return &res;
}
rigstate_res *getrigstate_1_svc(void *arg, struct svc_req *svc)
{
static rigstate_res res;
struct rig_state *rs;
rig_debug(RIG_DEBUG_VERBOSE,__FUNCTION__ " called\n");
if (!the_rpc_rig->state.comm_state) {
res.rigstatus = -RIG_ERJCTED;
return &res;
}
rs = &the_rpc_rig->state;
res.rigstate_res_u.state.itu_region = rs->itu_region;
res.rigstate_res_u.state.has_set_func = rs->has_set_func;
res.rigstate_res_u.state.has_get_func = rs->has_get_func;
res.rigstate_res_u.state.has_set_level = rs->has_set_level;
res.rigstate_res_u.state.has_get_level = rs->has_get_level;
res.rigstate_res_u.state.has_set_parm = rs->has_set_parm;
res.rigstate_res_u.state.has_get_parm = rs->has_get_parm;
res.rigstate_res_u.state.max_rit = rs->max_rit;
res.rigstate_res_u.state.max_xit = rs->max_xit;
res.rigstate_res_u.state.max_ifshift = rs->max_ifshift;
res.rigstate_res_u.state.announces = rs->announces;
memcpy(res.rigstate_res_u.state.preamp, rs->preamp,
sizeof(int)*MAXDBLSTSIZ);
memcpy(res.rigstate_res_u.state.attenuator, rs->attenuator,
sizeof(int)*MAXDBLSTSIZ);
memcpy(res.rigstate_res_u.state.tuning_steps, rs->tuning_steps,
sizeof(struct tuning_step_list)*TSLSTSIZ);
memcpy(res.rigstate_res_u.state.filters, rs->filters,
sizeof(struct filter_list)*FLTLSTSIZ);
memcpy(res.rigstate_res_u.state.chan_list, rs->chan_list,
sizeof(chan_t)*CHANLSTSIZ);
memcpy(res.rigstate_res_u.state.rx_range_list, rs->rx_range_list,
sizeof(freq_range_t)*FRQRANGESIZ);
memcpy(res.rigstate_res_u.state.tx_range_list, rs->tx_range_list,
sizeof(freq_range_t)*FRQRANGESIZ);
res.rigstatus = RIG_OK;
return &res;
}
int *setfreq_1_svc(freq_arg *farg, struct svc_req *svc)
{
static int res;
res = rig_set_freq(the_rpc_rig, farg->vfo, freq_x2t(&farg->freq));
return &res;
}
freq_res *getfreq_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static freq_res res;
freq_t f;
res.rigstatus = rig_get_freq(the_rpc_rig, *vfo, &f);
freq_t2x(f, &res.freq_res_u.freq);
return &res;
}
int *setmode_1_svc(mode_arg *marg, struct svc_req *svc)
{
static int res;
rmode_t mode;
pbwidth_t width;
mode_s2t(&marg->mw, &mode, &width);
res = rig_set_mode(the_rpc_rig, marg->vfo, mode, width);
return &res;
}
mode_res *getmode_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static mode_res res;
rmode_t mode;
pbwidth_t width;
res.rigstatus = rig_get_mode(the_rpc_rig, *vfo, &mode, &width);
mode_t2s(mode, width, &res.mode_res_u.mw);
return &res;
}
int *setvfo_1_svc(vfo_x *varg, struct svc_req *svc)
{
static int res;
res = rig_set_vfo(the_rpc_rig, *varg);
return &res;
}
vfo_res *getvfo_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static vfo_res res;
vfo_t v;
v = *vfo;
res.rigstatus = rig_get_vfo(the_rpc_rig, &v);
res.vfo_res_u.vfo = v;
return &res;
}
int *setsplitfreq_1_svc(freq_arg *farg, struct svc_req *svc)
{
static int res;
res = rig_set_split_freq(the_rpc_rig, farg->vfo, freq_x2t(&farg->freq));
return &res;
}
freq_res *getsplitfreq_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static freq_res res;
freq_t f;
res.rigstatus = rig_get_split_freq(the_rpc_rig, *vfo, &f);
freq_t2x(f, &res.freq_res_u.freq);
return &res;
}
int *setsplitmode_1_svc(mode_arg *marg, struct svc_req *svc)
{
static int res;
rmode_t mode;
pbwidth_t width;
mode_s2t(&marg->mw, &mode, &width);
res = rig_set_split_mode(the_rpc_rig, marg->vfo, mode, width);
return &res;
}
mode_res *getsplitmode_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static mode_res res;
rmode_t mode;
pbwidth_t width;
res.rigstatus = rig_get_split_mode(the_rpc_rig, *vfo, &mode, &width);
mode_t2s(mode, width, &res.mode_res_u.mw);
return &res;
}
int *setsplit_1_svc(split_arg *sarg, struct svc_req *svc)
{
static int res;
res = rig_set_split(the_rpc_rig, sarg->vfo, sarg->split);
return &res;
}
split_res *getsplit_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static split_res res;
split_t s;
res.rigstatus = rig_get_split(the_rpc_rig, *vfo, &s);
res.split_res_u.split = s;
return &res;
}
int *setptt_1_svc(ptt_arg *arg, struct svc_req *svc)
{
static int res;
res = rig_set_ptt(the_rpc_rig, arg->vfo, arg->ptt);
return &res;
}
ptt_res *getptt_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static ptt_res res;
ptt_t p;
res.rigstatus = rig_get_ptt(the_rpc_rig, *vfo, &p);
res.ptt_res_u.ptt = p;
return &res;
}
dcd_res *getdcd_1_svc(vfo_x *vfo, struct svc_req *svc)
{
static dcd_res res;
dcd_t d;
res.rigstatus = rig_get_dcd(the_rpc_rig, *vfo, &d);
res.dcd_res_u.dcd = d;
return &res;
}
int *setlevel_1_svc(setting_arg *arg, struct svc_req *svc)
{
static int res;
setting_t setting;
value_t val;
setting = setting_x2t(&arg->setting);
if (RIG_LEVEL_IS_FLOAT(setting))
val.f = arg->val.f;
else
val.i = arg->val.i;
res = rig_set_level(the_rpc_rig, arg->vfo, setting, val);
return &res;
}
val_res *getlevel_1_svc(setting_arg *arg, struct svc_req *svc)
{
static val_res res;
setting_t setting;
value_t val;
setting = setting_x2t(&arg->setting);
if (RIG_LEVEL_IS_FLOAT(setting))
val.f = arg->val.f;
else
val.i = arg->val.i;
res.rigstatus = rig_get_level(the_rpc_rig, arg->vfo, setting, &val);
if (RIG_LEVEL_IS_FLOAT(setting))
res.val_res_u.val.f = val.f;
else
res.val_res_u.val.i = val.i;
return &res;
}
int *setparm_1_svc(setting_arg *arg, struct svc_req *svc)
{
static int res;
setting_t setting;
value_t val;
setting = setting_x2t(&arg->setting);
if (RIG_LEVEL_IS_FLOAT(setting))
val.f = arg->val.f;
else
val.i = arg->val.i;
res = rig_set_parm(the_rpc_rig, setting, val);
return &res;
}
val_res *getparm_1_svc(setting_arg *arg, struct svc_req *svc)
{
static val_res res;
setting_t setting;
value_t val;
setting = setting_x2t(&arg->setting);
if (RIG_LEVEL_IS_FLOAT(setting))
val.f = arg->val.f;
else
val.i = arg->val.i;
res.rigstatus = rig_get_parm(the_rpc_rig, setting, &val);
if (RIG_LEVEL_IS_FLOAT(setting))
res.val_res_u.val.f = val.f;
else
res.val_res_u.val.i = val.i;
return &res;
}
int *setfunc_1_svc(setting_arg *arg, struct svc_req *svc)
{
static int res;
setting_t setting;
setting = setting_x2t(&arg->setting);
res = rig_set_func(the_rpc_rig, arg->vfo, setting, arg->val.i);
return &res;
}
val_res *getfunc_1_svc(setting_arg *arg, struct svc_req *svc)
{
static val_res res;
setting_t setting;
value_t val;
setting = setting_x2t(&arg->setting);
if (RIG_LEVEL_IS_FLOAT(setting))
val.f = arg->val.f;
else
val.i = arg->val.i;
res.rigstatus = rig_get_func(the_rpc_rig, arg->vfo, setting,
&res.val_res_u.val.i);
return &res;
}
int *vfoop_1_svc(vfo_op_arg *arg, struct svc_req *svc)
{
static int res;
res = rig_vfo_op(the_rpc_rig, arg->vfo, arg->op);
return &res;
}
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