mirror
/
OpenRTX
kopia lustrzana https://github.com/OpenRTX/OpenRTX
1
0
Forkuj 0
Kod Zgłoszenia Packages Projekty Wydania Wiki Aktywność

Differentiate MDUV380G target from MDUV380

replace/54888c07418b9334739ea38e79683ff90810cbf3
Federico Amedeo Izzo 2021-01-02 12:08:58 +01:00
rodzic e4302545fc
commit b74dba7564
4 zmienionych plików z 670 dodań i 2 usunięć
Pokaż statystyki Ściągnij plik aktualizacji Ściągnij plik porównania Expand all files Collapse all files

38
meson.build
Wyświetl plik

@ -223,6 +223,19 @@ mduv380_inc = inc + stm32f405_inc + ['platform/targets/MD-UV380']
mduv380_def = def + stm32f405_def + {'PLATFORM_MDUV380': ''} mduv380_def = def + stm32f405_def + {'PLATFORM_MDUV380': ''}
## TYT MD-UV380G
mduv380g_src = src + stm32f405_src + ['platform/drivers/display/HX83XX_MDx.c',
'platform/drivers/keyboard/keyboard_MDx.c',
'platform/drivers/NVM/extFlash_MDx.c',
'platform/drivers/NVM/nvmem_MDUV3x0G.c',
'platform/drivers/ADC/ADC1_MDx.c',
'platform/drivers/baseband/rtx_UV3x0.c',
'platform/targets/MD-UV380G/platform.c']
mduv380g_inc = inc + stm32f405_inc + ['platform/targets/MD-UV380G']
mduv380g_def = def + stm32f405_def + {'PLATFORM_MDUV380G': ''}
## Radioddity GD77 ## Radioddity GD77
gd77_src = src + mk22fn512_src + ['platform/targets/GD77/platform.c', gd77_src = src + mk22fn512_src + ['platform/targets/GD77/platform.c',
'platform/drivers/display/UC1701_GD77.c', 'platform/drivers/display/UC1701_GD77.c',
@ -249,7 +262,7 @@ dm1801_def = def + mk22fn512_def + {'PLATFORM_DM1801': ''}
md9600_src = src + stm32f405_src + ['platform/targets/MD-9600/platform.c'] md9600_src = src + stm32f405_src + ['platform/targets/MD-9600/platform.c']
md9600_inc = inc + stm32f405_inc + ['platform/targets/MD-9600'] md9600_inc = inc + stm32f405_inc + ['platform/targets/MD-9600']
md9600_def = def + stm32f405_def + {'PLATFORM_MDUV380': ''} md9600_def = def + stm32f405_def + {'PLATFORM_MD9600': ''}
## ##
@ -299,6 +312,15 @@ foreach k, v : mduv380_def
endif endif
endforeach endforeach
mduv380g_args = []
foreach k, v : mduv380g_def
if v == ''
mduv380g_args += '-D@0@'.format(k)
else
mduv380g_args += '-D@0@=@1@'.format(k, v)
endif
endforeach
gd77_args = [] gd77_args = []
foreach k, v : gd77_def foreach k, v : gd77_def
if v == '' if v == ''
@ -350,6 +372,12 @@ mduv380_opts = {'sources': mduv380_src,
'-Wl,--print-memory-usage'], '-Wl,--print-memory-usage'],
'include_directories': mduv380_inc} 'include_directories': mduv380_inc}
mduv380g_opts = {'sources': mduv380g_src,
'c_args': mduv380g_args,
'link_args' : ['-Wl,-T../platform/mcu/STM32F4xx/linker_script.ld',
'-Wl,--print-memory-usage'],
'include_directories': mduv380g_inc}
gd77_opts = {'sources': gd77_src, gd77_opts = {'sources': gd77_src,
'c_args': gd77_args, 'c_args': gd77_args,
'link_args' : ['-Wl,-T../platform/mcu/MK22FN512xxx12/linker_script.ld', 'link_args' : ['-Wl,-T../platform/mcu/MK22FN512xxx12/linker_script.ld',
@ -389,11 +417,17 @@ targets = [
'wrap': 'MD390', 'wrap': 'MD390',
'load_addr': '0x0800C000'}, 'load_addr': '0x0800C000'},
{'name': 'mduv380g', {'name': 'mduv380',
'opts': mduv380_opts, 'opts': mduv380_opts,
'flashable': true, 'flashable': true,
'wrap': 'UV3X0', 'wrap': 'UV3X0',
'load_addr': '0x0800C000'}, 'load_addr': '0x0800C000'},
{'name': 'mduv380g',
'opts': mduv380g_opts,
'flashable': true,
'wrap': 'UV3X0',
'load_addr': '0x0800C000'},
{'name': 'gd77', {'name': 'gd77',
'opts': gd77_opts, 'opts': gd77_opts,

278
platform/drivers/NVM/nvmem_MDUV3x0G.c 100644
Wyświetl plik

@ -0,0 +1,278 @@
/***************************************************************************
* Copyright (C) 2020 by Federico Amedeo Izzo IU2NUO, *
* Niccolò Izzo IU2KIN *
* Frederik Saraci IU2NRO *
* Silvano Seva IU2KWO *
* *
* 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 3 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 <http://www.gnu.org/licenses/> *
***************************************************************************/
#include <interfaces/nvmem.h>
#include <interfaces/delays.h>
#include "calibInfo_MDx.h"
#include "extFlash_MDx.h"
/**
* \internal Data structure matching the one used by original MD3x0 firmware to
* manage channel data inside nonvolatile flash memory.
*
* Taken by dmrconfig repository: https://github.com/sergev/dmrconfig/blob/master/uv380.c
*/
typedef struct
{
// Byte 0
uint8_t channel_mode : 2,
bandwidth : 2,
autoscan : 1,
_unused1 : 2,
lone_worker : 1;
// Byte 1
uint8_t _unused2 : 1,
rx_only : 1,
repeater_slot : 2,
colorcode : 4;
// Byte 2
uint8_t privacy_no : 4,
privacy : 2,
private_call_conf : 1,
data_call_conf : 1;
// Byte 3
uint8_t rx_ref_frequency : 2,
_unused3 : 1,
emergency_alarm_ack : 1,
_unused4 : 3,
display_pttid_dis : 1;
// Byte 4
uint8_t tx_ref_frequency : 2,
_unused5 : 2,
vox : 1,
_unused6 : 1,
admit_criteria : 2;
// Byte 5
uint8_t _unused7 : 4,
in_call_criteria : 2,
turn_off_freq : 2;
// Bytes 6-7
uint16_t contact_name_index;
// Bytes 8-9
uint8_t tot : 6,
_unused13 : 2;
uint8_t tot_rekey_delay;
// Bytes 10-11
uint8_t emergency_system_index;
uint8_t scan_list_index;
// Bytes 12-13
uint8_t group_list_index;
uint8_t _unused8;
// Bytes 14-15
uint8_t _unused9;
uint8_t squelch;
// Bytes 16-23
uint32_t rx_frequency;
uint32_t tx_frequency;
// Bytes 24-27
uint16_t ctcss_dcs_receive;
uint16_t ctcss_dcs_transmit;
// Bytes 28-29
uint8_t rx_signaling_syst;
uint8_t tx_signaling_syst;
// Byte 30
uint8_t power : 2,
_unused10 : 6;
// Byte 31
uint8_t _unused11 : 3,
dcdm_switch_dis : 1,
leader_ms : 1,
_unused12 : 3;
// Bytes 32-63
uint16_t name[16];
}
mduv3x0Channel_t;
const uint32_t chDataBaseAddr = 0x110000; /**< Base address of channel data */
const uint32_t maxNumChannels = 3000; /**< Maximum number of channels in memory */
/**
* \internal Utility function to convert 4 byte BCD values into a 32-bit
* unsigned integer ones.
*/
uint32_t _bcd2bin(uint32_t bcd)
{
return ((bcd >> 28) & 0x0F) * 10000000 +
((bcd >> 24) & 0x0F) * 1000000 +
((bcd >> 20) & 0x0F) * 100000 +
((bcd >> 16) & 0x0F) * 10000 +
((bcd >> 12) & 0x0F) * 1000 +
((bcd >> 8) & 0x0F) * 100 +
((bcd >> 4) & 0x0F) * 10 +
(bcd & 0x0F);
}
void nvm_init()
{
extFlash_init();
}
void nvm_terminate()
{
extFlash_terminate();
}
void nvm_readCalibData(void *buf)
{
extFlash_wakeup();
delayUs(5);
mduv3x0Calib_t *calib = ((mduv3x0Calib_t *) buf);
/* Common calibration data */
(void) extFlash_readSecurityRegister(0x1000, (&calib->vox1), 6);
/* UHF-band calibration data */
(void) extFlash_readSecurityRegister(0x1009, (&calib->uhfCal.freqAdjustMid), 1);
(void) extFlash_readSecurityRegister(0x1010, calib->uhfCal.txHighPower, 9);
(void) extFlash_readSecurityRegister(0x2090, calib->uhfCal.txMidPower, 9);
(void) extFlash_readSecurityRegister(0x1020, calib->uhfCal.txLowPower, 9);
(void) extFlash_readSecurityRegister(0x1030, calib->uhfCal.rxSensitivity, 9);
(void) extFlash_readSecurityRegister(0x1040, calib->uhfCal.openSql9, 9);
(void) extFlash_readSecurityRegister(0x1050, calib->uhfCal.closeSql9, 9);
(void) extFlash_readSecurityRegister(0x1070, calib->uhfCal.closeSql1, 9);
(void) extFlash_readSecurityRegister(0x1060, calib->uhfCal.openSql1, 9);
(void) extFlash_readSecurityRegister(0x1090, calib->uhfCal.ctcss67Hz, 9);
(void) extFlash_readSecurityRegister(0x10a0, calib->uhfCal.ctcss151Hz, 9);
(void) extFlash_readSecurityRegister(0x10b0, calib->uhfCal.ctcss254Hz, 9);
(void) extFlash_readSecurityRegister(0x10d0, calib->uhfCal.dcsMod1, 9);
(void) extFlash_readSecurityRegister(0x2030, calib->uhfCal.sendIrange, 9);
(void) extFlash_readSecurityRegister(0x2040, calib->uhfCal.sendQrange, 9);
(void) extFlash_readSecurityRegister(0x2070, calib->uhfCal.analogSendIrange, 9);
(void) extFlash_readSecurityRegister(0x2080, calib->uhfCal.analogSendQrange, 9);
uint32_t freqs[18];
(void) extFlash_readSecurityRegister(0x20b0, ((uint8_t *) &freqs), 72);
for(uint8_t i = 0; i < 9; i++)
{
calib->uhfCal.rxFreq[i] = ((freq_t) _bcd2bin(freqs[2*i]));
calib->uhfCal.txFreq[i] = ((freq_t) _bcd2bin(freqs[2*i+1]));
}
/* VHF-band calibration data */
(void) extFlash_readSecurityRegister(0x100c, (&calib->vhfCal.freqAdjustMid), 1);
(void) extFlash_readSecurityRegister(0x1019, calib->vhfCal.txHighPower, 5);
(void) extFlash_readSecurityRegister(0x2099, calib->vhfCal.txMidPower, 5);
(void) extFlash_readSecurityRegister(0x1029, calib->vhfCal.txLowPower, 5);
(void) extFlash_readSecurityRegister(0x1039, calib->vhfCal.rxSensitivity, 5);
(void) extFlash_readSecurityRegister(0x109b, calib->vhfCal.ctcss67Hz, 5);
(void) extFlash_readSecurityRegister(0x10ab, calib->vhfCal.ctcss151Hz, 5);
(void) extFlash_readSecurityRegister(0x10bb, calib->vhfCal.ctcss254Hz, 5);
(void) extFlash_readSecurityRegister(0x10e0, calib->vhfCal.openSql9, 5);
(void) extFlash_readSecurityRegister(0x10e5, calib->vhfCal.closeSql9, 5);
(void) extFlash_readSecurityRegister(0x10ea, calib->vhfCal.closeSql1, 5);
(void) extFlash_readSecurityRegister(0x10ef, calib->vhfCal.openSql1, 5);
(void) extFlash_readSecurityRegister(0x10db, calib->vhfCal.dcsMod1, 5);
(void) extFlash_readSecurityRegister(0x2039, calib->vhfCal.sendIrange, 5);
(void) extFlash_readSecurityRegister(0x2049, calib->vhfCal.sendQrange, 5);
(void) extFlash_readSecurityRegister(0x2079, calib->uhfCal.analogSendIrange, 5);
(void) extFlash_readSecurityRegister(0x2089, calib->vhfCal.analogSendQrange, 5);
(void) extFlash_readSecurityRegister(0x2000, ((uint8_t *) &freqs), 40);
extFlash_sleep();
for(uint8_t i = 0; i < 5; i++)
{
calib->vhfCal.rxFreq[i] = ((freq_t) _bcd2bin(freqs[2*i]));
calib->vhfCal.txFreq[i] = ((freq_t) _bcd2bin(freqs[2*i+1]));
}
}
int nvm_readChannelData(channel_t *channel, uint16_t pos)
{
if(pos > maxNumChannels) return -1;
extFlash_wakeup();
delayUs(5);
mduv3x0Channel_t chData;
uint32_t readAddr = chDataBaseAddr + pos * sizeof(mduv3x0Channel_t);
extFlash_readData(readAddr, ((uint8_t *) &chData), sizeof(mduv3x0Channel_t));
extFlash_sleep();
channel->mode = chData.channel_mode - 1;
channel->bandwidth = chData.bandwidth;
channel->admit_criteria = chData.admit_criteria;
channel->squelch = chData.squelch;
channel->rx_only = chData.rx_only;
channel->vox = chData.vox;
channel->rx_frequency = _bcd2bin(chData.rx_frequency);
channel->tx_frequency = _bcd2bin(chData.tx_frequency);
channel->tot = chData.tot;
channel->tot_rekey_delay = chData.tot_rekey_delay;
channel->emSys_index = chData.emergency_system_index;
channel->scanList_index = chData.scan_list_index;
channel->groupList_index = chData.group_list_index;
if(chData.power == 3)
{
channel->power = 5.0f; /* High power -> 5W */
}
else if(chData.power == 2)
{
channel->power = 2.5f; /* Mid power -> 2.5W */
}
else
{
channel->power = 1.0f; /* Low power -> 1W */
}
/*
* Brutally convert channel name from unicode to char by truncating the most
* significant byte
*/
for(uint16_t i = 0; i < 16; i++)
{
channel->name[i] = ((char) (chData.name[i] & 0x00FF));
}
/* Load mode-specific parameters */
if(channel->mode == FM)
{
channel->fm.ctcDcs_rx = chData.ctcss_dcs_receive;
channel->fm.ctcDcs_tx = chData.ctcss_dcs_transmit;
}
else if(channel->mode == DMR)
{
channel->dmr.contactName_index = chData.contact_name_index;
channel->dmr.dmr_timeslot = chData.repeater_slot;
channel->dmr.rxColorCode = chData.colorcode;
channel->dmr.txColorCode = chData.colorcode;
}
return 0;
}

120
platform/targets/MD-UV380G/hwconfig.h 100644
Wyświetl plik

@ -0,0 +1,120 @@
/***************************************************************************
* Copyright (C) 2020 by Federico Amedeo Izzo IU2NUO, *
* Niccolò Izzo IU2KIN, *
* Silvano Seva IU2KWO *
* *
* 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 3 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 <http://www.gnu.org/licenses/> *
***************************************************************************/
#ifndef HWCONFIG_H
#define HWCONFIG_H
#include <stm32f4xx.h>
/* Device has a working real time clock */
#define HAS_RTC
/* Supported radio bands */
#define BAND_VHF
#define BAND_UHF
/* Band limits in Hz */
#define FREQ_LIMIT_VHF_LO 136000000
#define FREQ_LIMIT_VHF_HI 174000000
#define FREQ_LIMIT_UHF_LO 400000000
#define FREQ_LIMIT_UHF_HI 480000000
/* Screen dimensions */
#define SCREEN_WIDTH 160
#define SCREEN_HEIGHT 128
/* Screen pixel format */
#define PIX_FMT_RGB565
/* Battery type */
#define BAT_LIPO_2S
/* Display */
#define LCD_D0 GPIOD,14
#define LCD_D1 GPIOD,15
#define LCD_D2 GPIOD,0
#define LCD_D3 GPIOD,1
#define LCD_D4 GPIOE,7
#define LCD_D5 GPIOE,8
#define LCD_D6 GPIOE,9
#define LCD_D7 GPIOE,10
#define LCD_WR GPIOD,5
#define LCD_RD GPIOD,4
#define LCD_CS GPIOD,6
#define LCD_RS GPIOD,12
#define LCD_RST GPIOD,13
#define LCD_BKLIGHT GPIOD,8
/* Signalling LEDs */
#define GREEN_LED GPIOE,0
#define RED_LED GPIOE,1
/* Analog inputs */
#define AIN_VBAT GPIOA,1
/* Channel selection rotary encoder */
#define CH_SELECTOR_0 GPIOE,14
#define CH_SELECTOR_1 GPIOB,11
/* Push-to-talk switch */
#define PTT_SW GPIOE,11
/*
* Keyboard. Here we define only rows, since coloumn lines are the same as
* LCD_Dx. See also: https://www.qsl.net/dl4yhf/RT3/md380_hw.html#keyboard
*
* "Monitor" and "Function" buttons, on the other hand, are connected to
* keyboard row 3 and on LCD_D6 and LCD_D7. They are SWAPPED with respect to
* connections made on MD-380.
*/
#define KB_ROW1 GPIOA,6 /* K1 */
#define KB_ROW2 GPIOD,2 /* K2 */
#define KB_ROW3 GPIOD,3 /* K3 */
#define MONI_SW LCD_D6
#define FUNC_SW LCD_D7
/* External flash */
#define FLASH_CS GPIOD,7
#define FLASH_CLK GPIOB,3
#define FLASH_SDO GPIOB,4
#define FLASH_SDI GPIOB,5
/*
* To enable pwm for display backlight dimming uncomment this directive.
*
* WARNING: backlight pwm is disabled by default because it generates a
* continuous tone in the speaker and headphones.
*
* This issue cannot be solved in any way because it derives from how the
* MD-UV380 mcu pins are used: to have a noiseless backlight pwm, the control
* pin has to be connected to a mcu pin having between its alternate functions
* an output compare channel of one of the timers. With this configuration, the
* pwm signal can completely generated in hardware and its frequency can be well
* above 22kHz, which is the upper limit for human ears.
*
* In the MD-UV380 radio, display backlight is connected to PD8, which is not
* connected to any of the available output compare channels. Thus, the pwm
* signal generation is managed inside the TIM11 ISR by toggling the backlight
* pin and its frequency has to be low (~250Hz) to not put too much overehad on
* the processor due to timer ISR triggering at an high rate.
*
* #define ENABLE_BKLIGHT_DIMMING
*/
#endif

236
platform/targets/MD-UV380G/platform.c 100644
Wyświetl plik

@ -0,0 +1,236 @@
/***************************************************************************
* Copyright (C) 2020 by Federico Amedeo Izzo IU2NUO, *
* Niccolò Izzo IU2KIN, *
* Silvano Seva IU2KWO *
* *
* 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 3 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 <http://www.gnu.org/licenses/> *
***************************************************************************/
#include <interfaces/platform.h>
#include <interfaces/gpio.h>
#include <os.h>
#include <hwconfig.h>
#include <ADC1_MDx.h>
#include <calibInfo_MDx.h>
#include <interfaces/nvmem.h>
#include <interfaces/rtc.h>
mduv3x0Calib_t calibration;
#ifdef ENABLE_BKLIGHT_DIMMING
void TIM1_TRG_COM_TIM11_IRQHandler()
{
OSIntEnter();
if(TIM11->SR & TIM_SR_CC1IF)
{
gpio_clearPin(LCD_BKLIGHT); /* Clear pin on compare match */
}
if(TIM11->SR & TIM_SR_UIF)
{
gpio_setPin(LCD_BKLIGHT); /* Set pin on counter reload */
}
TIM11->SR = 0;
OSIntExit();
}
#endif
void platform_init()
{
/* Configure GPIOs */
gpio_setMode(GREEN_LED, OUTPUT);
gpio_setMode(RED_LED, OUTPUT);
gpio_setMode(LCD_BKLIGHT, OUTPUT);
gpio_clearPin(LCD_BKLIGHT);
gpio_setMode(CH_SELECTOR_0, INPUT);
gpio_setMode(CH_SELECTOR_1, INPUT);
gpio_setMode(PTT_SW, INPUT);
/*
* Initialise ADC1, for vbat, RSSI, ...
* Configuration of corresponding GPIOs in analog input mode is done inside
* the driver.
*/
adc1_init();
nvm_init(); /* Initialise non volatile memory manager */
nvm_readCalibData(&calibration); /* Load calibration data */
rtc_init(); /* Initialise RTC */
#ifdef ENABLE_BKLIGHT_DIMMING
/*
* Configure TIM11 for backlight PWM: Fpwm = 256Hz, 8 bit of resolution.
* APB2 freq. is 84MHz but timer runs at twice this frequency, then:
* PSC = 2564 to have Ftick = 65.52kHz
* With ARR = 256, Fpwm is 256Hz;
*/
RCC->APB2ENR |= RCC_APB2ENR_TIM11EN;
__DSB();
TIM11->ARR = 255;
TIM11->PSC = 2563;
TIM11->CNT = 0;
TIM11->CR1 |= TIM_CR1_ARPE;
TIM11->CCMR1 |= TIM_CCMR1_OC1M_2
| TIM_CCMR1_OC1M_1
| TIM_CCMR1_OC1PE;
TIM11->CCER |= TIM_CCER_CC1E;
TIM11->CCR1 = 0;
TIM11->EGR = TIM_EGR_UG; /* Update registers */
TIM11->SR = 0; /* Clear interrupt flags */
TIM11->DIER = TIM_DIER_CC1IE /* Interrupt on compare match */
| TIM_DIER_UIE; /* Interrupt on counter reload */
TIM11->CR1 |= TIM_CR1_CEN; /* Start timer */
NVIC_ClearPendingIRQ(TIM1_TRG_COM_TIM11_IRQn);
NVIC_SetPriority(TIM1_TRG_COM_TIM11_IRQn,15);
NVIC_EnableIRQ(TIM1_TRG_COM_TIM11_IRQn);
#endif
}
void platform_terminate()
{
/* Shut down backlight */
gpio_clearPin(LCD_BKLIGHT);
#ifdef ENABLE_BKLIGHT_DIMMING
RCC->APB2ENR &= ~RCC_APB2ENR_TIM11EN;
__DSB();
#endif
/* Shut down LEDs */
gpio_clearPin(GREEN_LED);
gpio_clearPin(RED_LED);
/* Shut down all the modules */
adc1_terminate();
nvm_terminate();
rtc_terminate();
}
float platform_getVbat()
{
/*
* Battery voltage is measured through an 1:3 voltage divider and
* adc1_getMeasurement returns a value in mV. Thus, to have effective
* battery voltage multiply by three and divide by 1000
*/
return adc1_getMeasurement(0)*3.0f/1000.0f;
}
float platform_getMicLevel()
{
return 0.0f;
}
float platform_getVolumeLevel()
{
return 0.0f;
}
uint8_t platform_getChSelector()
{
static const uint8_t rsPositions[] = { 1, 4, 2, 3};
int pos = gpio_readPin(CH_SELECTOR_0)
| (gpio_readPin(CH_SELECTOR_1) << 1);
return rsPositions[pos];
}
bool platform_getPttStatus()
{
/* PTT line has a pullup resistor with PTT switch closing to ground */
return (gpio_readPin(PTT_SW) == 0) ? true : false;
}
void platform_ledOn(led_t led)
{
switch(led)
{
case GREEN:
gpio_setPin(GREEN_LED);
break;
case RED:
gpio_setPin(RED_LED);
break;
default:
break;
}
}
void platform_ledOff(led_t led)
{
switch(led)
{
case GREEN:
gpio_clearPin(GREEN_LED);
break;
case RED:
gpio_clearPin(RED_LED);
break;
default:
break;
}
}
void platform_beepStart(uint16_t freq)
{
/* TODO */
(void) freq;
}
void platform_beepStop()
{
/* TODO */
}
void platform_setBacklightLevel(uint8_t level)
{
/*
* Little workaround for the following nasty behaviour: if CCR1 value is
* zero, a waveform with 99% duty cycle is generated. This is because we are
* emulating pwm with interrupts.
*/
if(level > 1)
{
#ifdef ENABLE_BKLIGHT_DIMMING
TIM11->CCR1 = level;
TIM11->CR1 |= TIM_CR1_CEN;
#else
gpio_setPin(LCD_BKLIGHT);
#endif
}
else
{
#ifdef ENABLE_BKLIGHT_DIMMING
TIM11->CR1 &= ~TIM_CR1_CEN;
#endif
gpio_clearPin(LCD_BKLIGHT);
}
}
const void *platform_getCalibrationData()
{
return ((const void *) &calibration);
}