#include "core/pmu/pmu.h"
#include "core/wdt/wdt.h"
#include "core/gpio/gpio.h"
+#include "core/ssp/ssp.h"
#include "core/systick/systick.h"
#include "core/usbhid-rom/usbmsc.h"
#include "core/cmd/cmd.h"
#endif
+#include "init.h"
#include "ui/display.h"
#include "ui/sprite.h"
#include "ui/event.h"
+#include "ui/font.h"
+#include "util/util.h"
#include "jumpnrun/jumpnrun.h"
-#include "r0ketports.h"
-#include "drivers/fatfs/ff.h"
-
-#define ARRAY_SIZE(arr) (sizeof(arr) / sizeof*(arr))
-
-void backlightInit(void) {
-#if HW_IS_PROTOTYPE
- // prototype uses WDT CLKOUT to drive the LCD backlight
- // init without a reset
- wdtInit(false);
+#include "dataflash/at45db041d.h"
- // use the WDT clock as the default WDT frequency is best frequency
- // XXX this register value is missing in lpc1343.h
-#define SCB_CLKOUTCLKSEL_SOURCE_WDTCLOCK ((unsigned int) 0x00000002) // Use the WDT clock
+#include "drivers/fatfs/ff.h"
- SCB_CLKOUTCLKSEL = SCB_CLKOUTCLKSEL_SOURCE_WDTCLOCK;
+#include "badge/pinconfig.h"
+#include <funk/nrf24l01p.h>
- // toggle from LOW to HIGH to update source
- SCB_CLKOUTCLKUEN = SCB_CLKOUTCLKUEN_DISABLE;
- SCB_CLKOUTCLKUEN = SCB_CLKOUTCLKUEN_UPDATE;
+#ifdef R0KET
- // divide by 30, to get almost 10 kHz
- SCB_CLKOUTCLKDIV = 30;
-#else
+#include "r0ketports.h"
+void rbBacklightInit(void) {
/* Enable the clock for CT16B1 */
SCB_SYSAHBCLKCTRL |= (SCB_SYSAHBCLKCTRL_CT16B1);
/* Configure PIO1.9 as Timer1_16 MAT0 Output */
IOCON_PIO1_9 &= ~IOCON_PIO1_9_FUNC_MASK;
- IOCON_PIO1_9 |= IOCON_PIO1_9_FUNC_CT16B1_MAT0;
+ IOCON_PIO1_9 |= IOCON_PIO1_9_FUNC_CT16B1_MAT0;
/* Set default duty cycle (MR1) */
TMR_TMR16B1MR0 = 0; //(0xFFFF * (100 - brightness)) / 100;
// Enable Step-UP
gpioSetDir(RB_PWR_LCDBL, gpioDirection_Output);
gpioSetValue(RB_PWR_LCDBL, 0);
-#endif
}
void rbInit() {
-#if !HW_IS_PROTOTYPE
RB_HB0_IO &= ~IOCON_SWDIO_PIO1_3_FUNC_MASK;
RB_HB0_IO |= IOCON_SWDIO_PIO1_3_FUNC_GPIO;
RB_HB1_IO &= ~IOCON_JTAG_TCK_PIO0_10_FUNC_MASK;
RB_HB1_IO |= IOCON_JTAG_TCK_PIO0_10_FUNC_GPIO;
-#endif
struct {
int port;
int pin;
uint32_t volatile *reg;
+ gpioPullupMode_t mode;
} const input_pins[] = {
- { RB_BTN0 , &RB_BTN0_IO },
- { RB_BTN1 , &RB_BTN1_IO },
- { RB_BTN2 , &RB_BTN2_IO },
- { RB_BTN3 , &RB_BTN3_IO },
- { RB_BTN4 , &RB_BTN4_IO },
-#if HW_IS_PROTOTYPE
- { RB_BTN_A , &RB_BTN_A_IO },
- { RB_BTN_B , &RB_BTN_B_IO },
+#ifdef HOB_REV2
+ { RB_BTN0 , &RB_BTN0_IO , gpioPullupMode_PullDown },
+ { RB_BTN1 , &RB_BTN1_IO , gpioPullupMode_PullDown },
+ { RB_BTN2 , &RB_BTN2_IO , gpioPullupMode_PullDown },
+ { RB_BTN3 , &RB_BTN3_IO , gpioPullupMode_PullDown },
+ { RB_BTN4 , &RB_BTN4_IO , gpioPullupMode_PullDown },
+ { RB_HB0 , &RB_HB0_IO , gpioPullupMode_PullDown },
+ { RB_HB1 , &RB_HB1_IO , gpioPullupMode_PullDown },
+ { RB_PWR_CHRG, &RB_PWR_CHRG_IO, gpioPullupMode_PullDown }
#else
- { RB_HB0 , &RB_HB0_IO },
- { RB_HB1 , &RB_HB1_IO },
- { RB_PWR_CHRG, &RB_PWR_CHRG_IO }
+ { RB_BTN0 , &RB_BTN0_IO , gpioPullupMode_PullUp },
+ { RB_BTN1 , &RB_BTN1_IO , gpioPullupMode_PullUp },
+ { RB_BTN2 , &RB_BTN2_IO , gpioPullupMode_PullUp },
+ { RB_BTN3 , &RB_BTN3_IO , gpioPullupMode_PullUp },
+ { RB_BTN4 , &RB_BTN4_IO , gpioPullupMode_PullUp },
+ { RB_HB0 , &RB_HB0_IO , gpioPullupMode_PullUp },
+ { RB_HB1 , &RB_HB1_IO , gpioPullupMode_PullUp },
+ { RB_PWR_CHRG, &RB_PWR_CHRG_IO, gpioPullupMode_PullUp }
#endif
};
-
+
for(int i = 0; i < ARRAY_SIZE(input_pins); ++i) {
gpioSetDir(input_pins[i].port, input_pins[i].pin, gpioDirection_Input);
- gpioSetPullup(input_pins[i].reg, gpioPullupMode_PullUp);
+ gpioSetPullup(input_pins[i].reg, input_pins[i].mode);
}
-#if HW_IS_PROTOTYPE
- IOCON_PIO0_1 &= ~(IOCON_PIO0_1_FUNC_MASK);
- IOCON_PIO0_1 |= IOCON_PIO0_1_FUNC_CLKOUT;
-
- IOCON_JTAG_TMS_PIO1_0 &= ~(IOCON_JTAG_TMS_PIO1_0_FUNC_MASK);
- IOCON_JTAG_TMS_PIO1_0 |= IOCON_JTAG_TMS_PIO1_0_FUNC_GPIO;
-#else
// LED3 zur Bestimmung der Umgebungshelligkeit.
gpioSetDir(RB_LED3, gpioDirection_Input);
RB_LED3_IO = (RB_LED3_IO & IOCON_PIO1_11_FUNC_MASK) | IOCON_PIO1_11_FUNC_AD7;
// prepare LEDs
IOCON_JTAG_TDI_PIO0_11 &= ~IOCON_JTAG_TDI_PIO0_11_FUNC_MASK;
IOCON_JTAG_TDI_PIO0_11 |= IOCON_JTAG_TDI_PIO0_11_FUNC_GPIO;
-#endif
struct {
int port;
int pin;
int value;
} const output_pins[] = {
- { RB_PWR_GOOD, 0 },
- { USB_CONNECT, 1 },
+ { RB_PWR_GOOD , 0 },
+ { USB_CONNECT , 1 },
+ { RB_LCD_CS , 1 },
+ { RB_SPI_CS_DF, 1 },
{ RB_SPI_SS2 , 1 },
{ RB_SPI_SS3 , 1 },
{ RB_SPI_SS4 , 1 },
{ RB_SPI_SS5 , 1 },
- { RB_LCD_CS , 1 },
-#if !HW_IS_PROTOTYPE
{ RB_LED0 , 0 },
{ RB_LED1 , 0 },
{ RB_LED2 , 0 },
{ RB_HB3 , 1 },
{ RB_HB4 , 1 },
{ RB_HB5 , 1 }
-#endif
};
for(int i = 0; i < ARRAY_SIZE(output_pins); ++i) {
gpioSetValue(output_pins[i].port, output_pins[i].pin, output_pins[i].value);
}
-#if !HW_IS_PROTOTYPE
// Set P0.0 to GPIO
RB_PWR_LCDBL_IO &= ~RB_PWR_LCDBL_IO_FUNC_MASK;
RB_PWR_LCDBL_IO |= RB_PWR_LCDBL_IO_FUNC_GPIO;
gpioSetDir ( RB_PWR_LCDBL , gpioDirection_Input);
gpioSetPullup(&RB_PWR_LCDBL_IO, gpioPullupMode_Inactive);
-#endif
- backlightInit();
+ rbBacklightInit();
+ badge_display_init();
}
+#endif
/**************************************************************************/
/*!
// pmuInit();
// adcInit();
+#ifdef R0KET
rbInit();
+#else
+ badge_init();
+#endif
- // usbMSCInit();
-
- badge_display_init();
+ FATFS fs;
+ f_mount(0, &fs);
- gpioSetDir(0, 11, gpioDirection_Output);
- gpioSetValue(0, 11, 0);
-
- {
- badge_framebuffer fb;
- int res = 0;
- FATFS fatvol;
-
- if(FR_OK == f_mount(0, &fatvol)) {
- FIL fil;
- if(FR_OK == (res = f_open(&fil, "sshot.dat", FA_OPEN_EXISTING | FA_READ))) {
- UINT readbytes;
-
- if(FR_OK != f_read(&fil, &fb, sizeof(fb), &readbytes)) {
- gpioSetDir(RB_LED3, gpioDirection_Output);
- gpioSetValue(RB_LED3, 1);
- }
-
- f_close(&fil);
- } else {
- fb.data[0][0] = res;
- gpioSetDir(RB_LED1, gpioDirection_Output);
- gpioSetValue(RB_LED1, 1);
- }
- } else {
- gpioSetDir(RB_LED2, gpioDirection_Output);
- gpioSetValue(RB_LED2, 1);
- }
+ if(badge_input_raw() & BADGE_EVENT_KEY_DOWN) {
+ badge_framebuffer fb = { { { 0 } } };
+ fb.data[0][0] = badge_framebuffer_render_text(&fb, 23, 30, "USB-Modus");
badge_framebuffer_flush(&fb);
+ usbMSCInit();
+ for(;;);
}
- for(;;);
-
- /*
badge_event_start();
-
- for(;;) {
- if(JUMPNRUN_ERROR == jumpnrun_play("smb.lvl")) {
- break;
- }
- }
-
-/*
- uint8_t buttons = 0;
-
- for(uint8_t i = 0; ; ++i) {
- badge_event_t event = badge_event_wait();
-
- switch(badge_event_type(event)) {
- case BADGE_EVENT_USER_INPUT: {
- buttons = badge_event_current_input_state();
- break;
- }
- case BADGE_EVENT_GAME_TICK: {
- badge_sprite const sp = { 4, 4, (uint8_t const *) "\xff\xff" };
- badge_framebuffer fb = { { { 0 } } };
-
- if(buttons & BADGE_EVENT_KEY_UP) { badge_framebuffer_blt(&fb, 30, 10, &sp, 0); }
- if(buttons & BADGE_EVENT_KEY_DOWN) { badge_framebuffer_blt(&fb, 30, 50, &sp, 0); }
- if(buttons & BADGE_EVENT_KEY_LEFT) { badge_framebuffer_blt(&fb, 10, 30, &sp, 0); }
- if(buttons & BADGE_EVENT_KEY_RIGHT) { badge_framebuffer_blt(&fb, 50, 30, &sp, 0); }
- if(buttons & BADGE_EVENT_KEY_CENTER){ badge_framebuffer_blt(&fb, 30, 30, &sp, 0); }
- if(buttons & BADGE_EVENT_KEY_BTN_A) { badge_framebuffer_blt(&fb, 70, 10, &sp, 0); }
- if(buttons & BADGE_EVENT_KEY_BTN_B) { badge_framebuffer_blt(&fb, 70, 50, &sp, 0); }
-
- badge_framebuffer_flush(&fb);
- break;
- }
- }
- }
-*/
+ jumpnrun_play();
return 0;
}