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gpio.c
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/* Copyright (C)
* 2015 - John Melton, G0ORX/N6LYT
*
* 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.
*
*/
#include <gtk/gtk.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include <stdint.h>
#include <fcntl.h>
#include <poll.h>
#include <sched.h>
#include <wiringPi.h>
#include <semaphore.h>
#include "band.h"
#include "channel.h"
#include "discovered.h"
#include "mode.h"
#include "filter.h"
#include "bandstack.h"
#include "toolbar.h"
#include "gpio.h"
#include "radio.h"
#include "toolbar.h"
#include "main.h"
#include "property.h"
#include "vfo.h"
#include "wdsp.h"
#include "new_menu.h"
#include "encoder_menu.h"
#include "diversity_menu.h"
#include "gpio.h"
#include "i2c.h"
#include "ext.h"
#include "sliders.h"
#include "new_protocol.h"
#ifdef LOCALCW
#include "iambic.h"
#endif
#include "zoompan.h"
// debounce settle time in ms
#define DEFAULT_SETTLE_TIME 50
int settle_time=DEFAULT_SETTLE_TIME;
static gint release_timer=-1;
int controller;
int I2C_INTERRUPT=16;
// uses wiringpi pin numbers
int ENABLE_VFO_ENCODER;
int ENABLE_VFO_PULLUP;
int VFO_ENCODER_A;
int VFO_ENCODER_B;
int ENABLE_E2_ENCODER;
int ENABLE_E2_PULLUP;
int E2_ENCODER_A;
int E2_ENCODER_B;
int ENABLE_E2_TOP_ENCODER;
int E2_TOP_ENCODER_A;
int E2_TOP_ENCODER_B;
int E2_FUNCTION;
int ENABLE_E3_ENCODER;
int ENABLE_E3_PULLUP;
int E3_ENCODER_A;
int E3_ENCODER_B;
int ENABLE_E3_TOP_ENCODER;
int E3_TOP_ENCODER_A;
int E3_TOP_ENCODER_B;
int E3_FUNCTION;
int ENABLE_E4_ENCODER;
int ENABLE_E4_PULLUP;
int E4_ENCODER_A;
int E4_ENCODER_B;
int ENABLE_E4_TOP_ENCODER;
int E4_TOP_ENCODER_A;
int E4_TOP_ENCODER_B;
int E4_FUNCTION;
int ENABLE_E5_ENCODER;
int ENABLE_E5_PULLUP;
int E5_ENCODER_A;
int E5_ENCODER_B;
int ENABLE_E5_TOP_ENCODER;
int E5_TOP_ENCODER_A;
int E5_TOP_ENCODER_B;
int E5_FUNCTION;
int ENABLE_S1_BUTTON;
int S1_BUTTON;
int ENABLE_S2_BUTTON;
int S2_BUTTON;
int ENABLE_S3_BUTTON;
int S3_BUTTON;
int ENABLE_S4_BUTTON;
int S4_BUTTON;
int ENABLE_S5_BUTTON;
int S5_BUTTON;
int ENABLE_S6_BUTTON;
int S6_BUTTON;
int ENABLE_MOX_BUTTON;
int MOX_BUTTON;
int ENABLE_FUNCTION_BUTTON;
int FUNCTION_BUTTON;
#ifdef LOCALCW
//
// WiringPi pins #12, 13, 14 are not used
// by Controller1 and Controller2_V1
// (and keep #8,9 reserved for I2C extensions)
//
int CWL_BUTTON=13;
int CWR_BUTTON=14;
int SIDETONE_GPIO=12;
int ENABLE_GPIO_SIDETONE=0;
int ENABLE_CW_BUTTONS=1;
int CW_ACTIVE_LOW=1;
#endif
#ifdef PTT
int ENABLE_PTT_GPIO=1;
int PTT_GPIO=15;
int PTT_ACTIVE_LOW=1;
#endif
int vfoEncoderPos;
int vfoFunction;
int e2EncoderPos;
int e2_sw_action;
int e2_encoder_action;
int e3EncoderPos;
int e3_sw_action;
int e3_encoder_action;
int e4EncoderPos;
int e4_sw_action;
int e4_encoder_action;
int e5EncoderPos;
int e5_sw_action;
int e5_encoder_action;
int e2TopEncoderPos;
int e2_top_encoder_action;
int e3TopEncoderPos;
int e3_top_encoder_action;
int e4TopEncoderPos;
int e4_top_encoder_action;
int e5TopEncoderPos;
int e5_top_encoder_action;
static volatile int function_state;
static volatile int band_state;
static volatile int bandstack_state;
static volatile int mode_state;
static volatile int filter_state;
static volatile int noise_state;
static volatile int agc_state;
static volatile int mox_state;
static volatile int lock_state;
static gpointer rotary_encoder_thread(gpointer data);
static GThread *rotary_encoder_thread_id;
static int previous_function_button=0;
static int band_button=0;
static int previous_band_button=0;
static int bandstack_button=0;
static int previous_bandstack_button=0;
static int mode_button=0;
static int previous_mode_button=0;
static int filter_button=0;
static int previous_filter_button=0;
static int noise_button=0;
static int previous_noise_button=0;
static int agc_button=0;
static int previous_agc_button=0;
static int mox_button=0;
static int previous_mox_button=0;
static int running=0;
char *encoder_string[ENCODER_ACTIONS] = {
"NO ACTION",
"AF GAIN",
"AF GAIN RX1",
"AF GAIN RX2",
"AGC GAIN",
"AGC GAIN RX1",
"AGC GAIN RX2",
"ATTENUATION/RX GAIN",
"COMP",
"CW FREQUENCY",
"CW SPEED",
"DIVERSITY GAIN",
"DIVERSITY GAIN (coarse)",
"DIVERSITY GAIN (fine)",
"DIVERSITY PHASE",
"DIVERSITY PHASE (coarse)",
"DIVERSITY PHASE (fine)",
"DRIVE",
"IF SHIFT",
"IF SHIFT RX1",
"IF SHIFT RX2",
"IF WIDTH",
"IF WIDTH RX1",
"IF WIDTH RX2",
"MIC GAIN",
"PAN",
"PANADAPTER HIGH",
"PANADAPTER LOW",
"PANADAPTER STEP",
"RF GAIN",
"RF GAIN RX1",
"RF GAIN RX2",
"RIT",
"RIT RX1",
"RIT RX2",
"SQUELCH",
"SQUELCH RX1",
"SQUELCH RX2",
"TUNE DRIVE",
"WATERFALL HIGH",
"WATERFALL LOW",
"XIT",
"ZOOM",
};
char *sw_string[SWITCH_ACTIONS] = {
"",
"A TO B",
"A SWAP B",
"AGC",
"ANF",
"B TO A",
"BAND -",
"BAND +",
"BSTACK -",
"BSTACK +",
"CTUN",
"DIV",
"FILTER -",
"FILTER +",
"FUNCTION",
"LOCK",
"MENU BAND",
"MENU BSTACK",
"MENU DIV",
"MENU FILTER",
"MENU FREQUENCY",
"MENU MEMORY",
"MENU MODE",
"MENU PS",
"MODE -",
"MODE +",
"MOX",
"MUTE",
"NB",
"NR",
"PAN -",
"PAN +",
"PS",
"RIT",
"RIT CL",
"SAT",
"SNB",
"SPLIT",
"TUNE",
"TWO TONE",
"XIT",
"XIT CL",
"ZOOM -",
"ZOOM +",
};
int *sw_action=NULL;
static int mox_pressed(void *data) {
if(running) sim_mox_cb(NULL,NULL);
return 0;
}
static int s1_pressed(void *data) {
if(running) sim_s1_pressed_cb(NULL,NULL);
return 0;
}
static int s1_released(void *data) {
if(running) sim_s1_released_cb(NULL,NULL);
return 0;
}
static int s2_pressed(void *data) {
if(running) sim_s2_pressed_cb(NULL,NULL);
return 0;
}
static int s2_released(void *data) {
if(running) sim_s2_released_cb(NULL,NULL);
return 0;
}
static int s3_pressed(void *data) {
if(running) sim_s3_pressed_cb(NULL,NULL);
return 0;
}
static int s3_released(void *data) {
if(running) sim_s3_released_cb(NULL,NULL);
return 0;
}
static int s4_pressed(void *data) {
if(running) sim_s4_pressed_cb(NULL,NULL);
return 0;
}
static int s4_released(void *data) {
if(running) sim_s4_released_cb(NULL,NULL);
return 0;
}
static int s5_pressed(void *data) {
if(running) sim_s5_pressed_cb(NULL,NULL);
return 0;
}
static int s5_released(void *data) {
if(running) sim_s5_released_cb(NULL,NULL);
return 0;
}
static int s6_pressed(void *data) {
if(running) sim_s6_pressed_cb(NULL,NULL);
return 0;
}
static int s6_released(void *data) {
if(running) sim_s6_released_cb(NULL,NULL);
return 0;
}
static int function_pressed(void *data) {
if(running) sim_function_cb(NULL,NULL);
return 0;
}
static int vfo_function_pressed(void *data) {
RECEIVER *rx;
if(receivers==2) {
if(active_receiver==receiver[0]) {
rx=receiver[1];
} else {
rx=receiver[0];
}
active_receiver=rx;
g_idle_add(menu_active_receiver_changed,NULL);
g_idle_add(ext_vfo_update,NULL);
g_idle_add(sliders_active_receiver_changed,NULL);
}
return 0;
}
static int vfo_function_released(void *data) {
return 0;
}
#ifdef PTT
static int ptt_pressed(void *data) {
g_print("ptt_pressed\n");
if(can_transmit) g_idle_add(ext_mox_update,GINT_TO_POINTER(1));
return 0;
}
static int ptt_released(void *data) {
g_print("ptt_released\n");
if(can_transmit) g_idle_add(ext_mox_update,GINT_TO_POINTER(0));
return 0;
}
#endif
static int e_function_pressed(void *data) {
int action=(int)data;
g_print("e_function_pressed: %d\n",action);
switch(action) {
case TUNE:
if(can_transmit) g_idle_add(ext_tune_update,NULL);
break;
case MOX:
if(can_transmit) g_idle_add(ext_mox_update,NULL);
break;
case PS:
#ifdef PURESIGNAL
if(can_transmit) g_idle_add(ext_ps_update,NULL);
#endif
break;
case TWO_TONE:
if(can_transmit) g_idle_add(ext_two_tone,NULL);
break;
case NR:
g_idle_add(ext_nr_update,NULL);
break;
case NB:
g_idle_add(ext_nb_update,NULL);
break;
case SNB:
g_idle_add(ext_snb_update,NULL);
break;
case RIT:
g_idle_add(ext_rit_update,NULL);
break;
case RIT_CLEAR:
g_idle_add(ext_rit_clear,NULL);
break;
case XIT:
if(can_transmit) g_idle_add(ext_xit_update,NULL);
break;
case XIT_CLEAR:
if(can_transmit) g_idle_add(ext_xit_clear,NULL);
break;
case BAND_PLUS:
g_idle_add(ext_band_plus,NULL);
break;
case BAND_MINUS:
g_idle_add(ext_band_minus,NULL);
break;
case BANDSTACK_PLUS:
g_idle_add(ext_bandstack_plus,NULL);
break;
case BANDSTACK_MINUS:
g_idle_add(ext_bandstack_minus,NULL);
break;
case MODE_PLUS:
g_idle_add(ext_mode_plus,NULL);
break;
case MODE_MINUS:
g_idle_add(ext_mode_minus,NULL);
break;
case FILTER_PLUS:
g_idle_add(ext_filter_plus,NULL);
break;
case FILTER_MINUS:
g_idle_add(ext_filter_minus,NULL);
break;
case A_TO_B:
g_idle_add(ext_vfo_a_to_b,NULL);
break;
case B_TO_A:
g_idle_add(ext_vfo_b_to_a,NULL);
break;
case A_SWAP_B:
g_idle_add(ext_vfo_a_swap_b,NULL);
break;
case LOCK:
g_idle_add(ext_lock_update,NULL);
break;
case CTUN:
g_idle_add(ext_ctun_update,NULL);
break;
case AGC:
g_idle_add(ext_agc_update,NULL);
break;
case SPLIT:
if(can_transmit) g_idle_add(ext_split_toggle,NULL);
break;
case DIVERSITY:
g_idle_add(ext_diversity_update,GINT_TO_POINTER(0));
break;
case SAT:
if(can_transmit) g_idle_add(ext_sat_update,NULL);
break;
case MENU_BAND:
g_idle_add(ext_band_update,NULL);
break;
case MENU_BANDSTACK:
g_idle_add(ext_bandstack_update,NULL);
break;
case MENU_MODE:
g_idle_add(ext_mode_update,NULL);
break;
case MENU_FILTER:
g_idle_add(ext_filter_update,NULL);
break;
case MENU_FREQUENCY:
g_idle_add(ext_frequency_update,NULL);
break;
case MENU_MEMORY:
g_idle_add(ext_memory_update,NULL);
break;
case MENU_DIVERSITY:
g_idle_add(ext_diversity_update,GINT_TO_POINTER(1));
break;
#ifdef PURESIGNAL
case MENU_PS:
g_idle_add(ext_start_ps,NULL);
break;
#endif
case FUNCTION:
g_idle_add(ext_function_update,NULL);
break;
case MUTE:
g_idle_add(ext_mute_update,NULL);
break;
case PAN_MINUS:
g_idle_add(ext_pan_update,GINT_TO_POINTER(-100));
break;
case PAN_PLUS:
g_idle_add(ext_pan_update,GINT_TO_POINTER(100));
break;
case ZOOM_MINUS:
g_idle_add(ext_zoom_update,GINT_TO_POINTER(-1));
break;
case ZOOM_PLUS:
g_idle_add(ext_zoom_update,GINT_TO_POINTER(1));
break;
}
return 0;
}
static unsigned long e2debounce=0;
static void e2FunctionAlert() {
int level=digitalRead(E2_FUNCTION);
if(level==0) {
if(running) g_idle_add(e_function_pressed,(gpointer)e2_sw_action);
}
}
static unsigned long e3debounce=0;
static void e3FunctionAlert() {
int level=digitalRead(E3_FUNCTION);
if(level==0) {
if(running) g_idle_add(e_function_pressed,(gpointer)e3_sw_action);
}
}
static unsigned long e4debounce=0;
static void e4FunctionAlert() {
int level=digitalRead(E4_FUNCTION);
if(level==0) {
if(running) g_idle_add(e_function_pressed,(gpointer)e4_sw_action);
}
}
static unsigned long e5debounce=0;
static void e5FunctionAlert() {
int level=digitalRead(E5_FUNCTION);
if(level==0) {
if(running) g_idle_add(e_function_pressed,(gpointer)e5_sw_action);
}
}
static int function_level=1;
static unsigned long function_debounce=0;
static void functionAlert() {
int t=millis();
if(millis()<function_debounce) {
return;
}
int level=digitalRead(FUNCTION_BUTTON);
if(level!=function_level) {
if(level==0) {
if(running) g_idle_add(function_pressed,NULL);
}
function_level=level;
function_debounce=t+settle_time;
}
}
static int s1_level=1;
static unsigned long s1_debounce=0;
static void s1Alert() {
int t=millis();
if(millis()<s1_debounce) {
return;
}
int level=digitalRead(S1_BUTTON);
if(level!=s1_level) {
if(level==0) {
if(running) g_idle_add(s1_pressed,NULL);
} else {
if(running) g_idle_add(s1_released,NULL);
}
s1_level=level;
s1_debounce=t+settle_time;
}
}
static int s2_level=1;
static unsigned long s2_debounce=0;
static void s2Alert() {
int t=millis();
if(millis()<s2_debounce) {
return;
}
int level=digitalRead(S2_BUTTON);
if(level!=s2_level) {
if(level==0) {
if(running) g_idle_add(s2_pressed,NULL);
} else {
if(running) g_idle_add(s2_released,NULL);
}
s2_level=level;
s2_debounce=t+settle_time;
}
}
static int s3_level=1;
static unsigned long s3_debounce=0;
static void s3Alert() {
int t=millis();
if(millis()<s3_debounce) {
return;
}
int level=digitalRead(S3_BUTTON);
if(level!=s3_level) {
if(level==0) {
if(running) g_idle_add(s3_pressed,NULL);
} else {
if(running) g_idle_add(s3_released,NULL);
}
s3_level=level;
s3_debounce=t+settle_time;
}
}
static int s4_level=1;
static unsigned long s4_debounce=0;
static void s4Alert() {
int t=millis();
if(millis()<s4_debounce) {
return;
}
int level=digitalRead(S4_BUTTON);
if(level!=s4_level) {
if(level==0) {
if(running) g_idle_add(s4_pressed,NULL);
} else {
if(running) g_idle_add(s4_released,NULL);
}
s4_level=level;
s4_debounce=t+settle_time;
}
}
static int s5_level=1;
static unsigned long s5_debounce=0;
static void s5Alert() {
int t=millis();
if(millis()<s5_debounce) {
return;
}
int level=digitalRead(S5_BUTTON);
if(level!=s5_level) {
if(level==0) {
if(running) g_idle_add(s5_pressed,NULL);
} else {
if(running) g_idle_add(s5_released,NULL);
}
s5_level=level;
s5_debounce=t+settle_time;
}
}
static int s6_level=1;
static unsigned long s6_debounce=0;
static void s6Alert() {
int t=millis();
if(millis()<s6_debounce) {
return;
}
int level=digitalRead(S6_BUTTON);
if(level!=s6_level) {
if(level==0) {
if(running) g_idle_add(s6_pressed,NULL);
} else {
if(running) g_idle_add(s6_released,NULL);
}
s6_level=level;
s6_debounce=t+settle_time;
}
}
static int mox_level=1;
static unsigned long mox_debounce=0;
static void moxAlert() {
int t=millis();
if(millis()<mox_debounce) {
return;
}
int level=digitalRead(MOX_BUTTON);
if(level!=mox_level) {
if(level==0) {
if(running) g_idle_add(mox_pressed,NULL);
}
mox_level=level;
mox_debounce=t+settle_time;
}
}
#ifdef VFO_HAS_FUNCTION
static unsigned long vfo_debounce=0;
static void vfoFunctionAlert() {
if(t-vfo_debounce > settle_time) {
int level=digitalRead(VFO_FUNCTION);
if(level==0) {
if(running) g_idle_add(vfo_function_pressed,NULL);
} else {
if(running) g_idle_add(vfo_function_released,NULL);
}
vfo_debounce=t;
}
}
#endif
static void vfoEncoderInt() {
static int vfoA=1;
int levelA=digitalRead(VFO_ENCODER_A);
int levelB=digitalRead(VFO_ENCODER_B);
if(levelA!=vfoA) {
if(levelA==levelB) ++vfoEncoderPos;
if(levelA!=levelB) --vfoEncoderPos;
vfoA=levelA;
}
}
static void e2EncoderInt() {
static int e2CurrentA=1;
int levelA=digitalRead(E2_ENCODER_A);
int levelB=digitalRead(E2_ENCODER_B);
if(levelA!=e2CurrentA) {
if(levelA==levelB) ++e2EncoderPos;
if(levelA!=levelB) --e2EncoderPos;
e2CurrentA=levelA;
}
}
static void e2TopEncoderInt() {
static int e2TopCurrentA=1;
int levelA=digitalRead(E2_TOP_ENCODER_A);
int levelB=digitalRead(E2_TOP_ENCODER_B);
if(levelA!=e2TopCurrentA) {
if(levelA==levelB) ++e2TopEncoderPos;
if(levelA!=levelB) --e2TopEncoderPos;
e2TopCurrentA=levelA;
}
}
static void e3EncoderInt() {
static int e3CurrentA=1;
int levelA=digitalRead(E3_ENCODER_A);
int levelB=digitalRead(E3_ENCODER_B);
if(levelA!=e3CurrentA) {
if(levelA==levelB) ++e3EncoderPos;
if(levelA!=levelB) --e3EncoderPos;
e3CurrentA=levelA;
}
}
static void e3TopEncoderInt() {
static int e3TopCurrentA=1;
int levelA=digitalRead(E3_TOP_ENCODER_A);
int levelB=digitalRead(E3_TOP_ENCODER_B);
if(levelA!=e3TopCurrentA) {
if(levelA==levelB) ++e3TopEncoderPos;
if(levelA!=levelB) --e3TopEncoderPos;
e3TopCurrentA=levelA;
}
}
static void e4EncoderInt() {
static int e4CurrentA=1;
int levelA=digitalRead(E4_ENCODER_A);
int levelB=digitalRead(E4_ENCODER_B);
if(levelA!=e4CurrentA) {
if(levelA==levelB) ++e4EncoderPos;
if(levelA!=levelB) --e4EncoderPos;
e4CurrentA=levelA;
}
}
static void e4TopEncoderInt() {
static int e4TopCurrentA=1;
int levelA=digitalRead(E4_TOP_ENCODER_A);
int levelB=digitalRead(E4_TOP_ENCODER_B);
if(levelA!=e4TopCurrentA) {
if(levelA==levelB) ++e4TopEncoderPos;
if(levelA!=levelB) --e4TopEncoderPos;
e4TopCurrentA=levelA;
}
}
static void e5EncoderInt() {
static int e5CurrentA=1;
int levelA=digitalRead(E5_ENCODER_A);
int levelB=digitalRead(E5_ENCODER_B);
if(levelA!=e5CurrentA) {
if(levelA==levelB) ++e5EncoderPos;
if(levelA!=levelB) --e5EncoderPos;
e5CurrentA=levelA;
}
}
static void e5TopEncoderInt() {
static int e5TopCurrentA=1;
int levelA=digitalRead(E5_TOP_ENCODER_A);
int levelB=digitalRead(E5_TOP_ENCODER_B);
if(levelA!=e5TopCurrentA) {
if(levelA==levelB) ++e5TopEncoderPos;
if(levelA!=levelB) --e5TopEncoderPos;
e5TopCurrentA=levelA;
}
}
static void pI2CInterrupt() {
int level=digitalRead(I2C_INTERRUPT);
if(level==0) {
i2c_interrupt();
}
}
#ifdef PTT
static int ptt_level=1;
static unsigned long ptt_debounce=0;
static void pttAlert() {
int t=millis();
if(millis()<ptt_debounce) {
return;
}
int level=digitalRead(PTT_GPIO);
if(level!=ptt_level) {
if(level==0) {
if(running) g_idle_add(ptt_pressed,NULL);
} else {
if(running) g_idle_add(ptt_released,NULL);
}
ptt_level=level;
ptt_debounce=t+settle_time;
}
}
#endif
void gpio_set_defaults(int ctrlr) {
g_print("gpio_set_defaults: %d\n",ctrlr);
if(sw_action!=NULL) {
g_free(sw_action);
sw_action=NULL;
}
switch(ctrlr) {
case NO_CONTROLLER:
ENABLE_VFO_ENCODER=0;
ENABLE_E2_ENCODER=0;
ENABLE_E3_ENCODER=0;
ENABLE_E4_ENCODER=0;
ENABLE_S1_BUTTON=0;
ENABLE_S2_BUTTON=0;
ENABLE_S3_BUTTON=0;
ENABLE_S4_BUTTON=0;
ENABLE_S5_BUTTON=0;
ENABLE_S6_BUTTON=0;
ENABLE_MOX_BUTTON=0;
ENABLE_FUNCTION_BUTTON=0;
ENABLE_E5_ENCODER=0;
ENABLE_E2_TOP_ENCODER=0;
ENABLE_E3_TOP_ENCODER=0;
ENABLE_E4_TOP_ENCODER=0;
ENABLE_E5_TOP_ENCODER=0;
break;
case CONTROLLER1:
sw_action=g_new(int,CONTROLLER1_SWITCHES);
ENABLE_VFO_ENCODER=1;
ENABLE_VFO_PULLUP=1;
VFO_ENCODER_A=1;
VFO_ENCODER_B=0;
ENABLE_E2_ENCODER=1;
ENABLE_E2_PULLUP=0;
E2_ENCODER_A=28;
E2_ENCODER_B=25;
E2_FUNCTION=6;
ENABLE_E3_ENCODER=1;
ENABLE_E3_PULLUP=0;
E3_ENCODER_A=27;
E3_ENCODER_B=24;
E3_FUNCTION=10;
ENABLE_E4_ENCODER=1;
ENABLE_E4_PULLUP=0;
E4_ENCODER_A=7;
E4_ENCODER_B=29;
E4_FUNCTION=11;
ENABLE_S1_BUTTON=1;
S1_BUTTON=23;
ENABLE_S2_BUTTON=1;
S2_BUTTON=26;
ENABLE_S3_BUTTON=1;
S3_BUTTON=22;
ENABLE_S4_BUTTON=1;
S4_BUTTON=21;
ENABLE_S5_BUTTON=1;
S5_BUTTON=5;
ENABLE_S6_BUTTON=1;
S6_BUTTON=4;
ENABLE_MOX_BUTTON=1;
MOX_BUTTON=2;
ENABLE_FUNCTION_BUTTON=1;
FUNCTION_BUTTON=3;
ENABLE_E5_ENCODER=0;
ENABLE_E2_TOP_ENCODER=0;
ENABLE_E3_TOP_ENCODER=0;
ENABLE_E4_TOP_ENCODER=0;
ENABLE_E5_TOP_ENCODER=0;
e2_sw_action=MENU_BAND;
e2_encoder_action=ENCODER_AF_GAIN;
e3_sw_action=MENU_BANDSTACK;
e3_encoder_action=ENCODER_AGC_GAIN;
e4_sw_action=MENU_MODE;
e4_encoder_action=ENCODER_DRIVE;
e2_top_encoder_action=ENCODER_NO_ACTION;
e3_top_encoder_action=ENCODER_NO_ACTION;
e4_top_encoder_action=ENCODER_NO_ACTION;
e5_encoder_action=ENCODER_NO_ACTION;
e5_top_encoder_action=ENCODER_NO_ACTION;
break;
case CONTROLLER2_V1:
// uses wiringpi pin numbers
ENABLE_VFO_ENCODER=1;
ENABLE_VFO_PULLUP=1;
VFO_ENCODER_A=1;
VFO_ENCODER_B=0;
ENABLE_E2_ENCODER=1;
ENABLE_E2_PULLUP=1;
E2_ENCODER_A=28;
E2_ENCODER_B=25;
E2_FUNCTION=3;
ENABLE_E3_ENCODER=1;
ENABLE_E3_PULLUP=1;
E3_ENCODER_A=7;
E3_ENCODER_B=29;
E3_FUNCTION=2;
ENABLE_E4_ENCODER=1;
ENABLE_E4_PULLUP=1;
E4_ENCODER_A=27;
E4_ENCODER_B=24;
E4_FUNCTION=4;
ENABLE_E5_ENCODER=1;
ENABLE_E5_PULLUP=1;
E5_ENCODER_A=6;
E5_ENCODER_B=10;
E5_FUNCTION=5;
ENABLE_S1_BUTTON=0;
ENABLE_S2_BUTTON=0;
ENABLE_S3_BUTTON=0;
ENABLE_S4_BUTTON=0;
ENABLE_S5_BUTTON=0;
ENABLE_S6_BUTTON=0;