TrueCyrix 0 9 декабря, 2013 Опубликовано 9 декабря, 2013 · Жалоба Здравствуйте! Имеется устройство на базе процессора Samsung S3C2410, к сожалению это не отладочная плата, а готовое рабочее устройство. Есть программатор. Так вот на плате с процессором (плата ядра) имеется 4-ре отладочных светодиода, согласно схеме они расположены на порте "F" (GPF4...GPF7). Как мне помигать этими диодами? Как настроить нужный пин на режим "выход" и вывести в него 0 или 1 ? Я в С/С++ очень слаб, по этому прошу сильно не пинать. Для компиляции пользуюсь CodeWarrior for ARM Developer Suite v1.2 . Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
esaulenka 7 9 декабря, 2013 Опубликовано 9 декабря, 2013 · Жалоба Хех, интересно, что это за железка?.. Пины несколько другие, но как адаптировать под нужные, думаю, понятно. Впрочем, если я не ошибаюсь в железке, там тоже есть светодиоды, только они к корпусу прикручены ;-) #include "Leds.h" #include "s3c2410.h" void Leds_Init (void) { // led primary - GPB6 GPBCON &= ~(0x03 << 12); GPBCON |= 0x01 << 12; // led battery - GPG6 GPGCON &= ~(0x03 << 12); GPGCON |= 0x01 << 12; // led storage - GPF1 GPFCON &= ~(0x03 << 2); GPFCON |= 0x01 << 2; Leds_TurnOff (LEDS_ALL); } void Leds_TurnOn (int aLed) { if (aLed & LED_POWER) GPBDAT |= BIT(6); if (aLed & LED_BATTERY) GPGDAT |= BIT(6); if (aLed & LED_STORAGE) GPFDAT |= BIT(1); } void Leds_TurnOff (int aLed) { if (aLed & LED_POWER) GPBDAT &=~ BIT(6); if (aLed & LED_BATTERY) GPGDAT &=~ BIT(6); if (aLed & LED_STORAGE) GPFDAT &=~ BIT(1); } Только маленький совет. Учиться программировать контроллеры лучше на каком-нибудь STM32. Самсунг этот - большой, сложный, так-себе-документированный. И примеров под него - полторы штуки, самый работоспособный из которых - загрузчик линукса (я находил его много лет назад, сейчас потерял). Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 9 декабря, 2013 Опубликовано 9 декабря, 2013 · Жалоба Спасибо за пример! Да, Вы правы, примеров для процессора S3C2410 ноль целых фиг десятых, но тем не менее мне придётся делать для него начальную инициализацию nboot с последующей загрузкой eboot.nb0 и его запуск. Вот к Вашему примеру бы ещё Leds.h и s3c2410.h которые именно для этого примера и было бы вобще супер! Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
esaulenka 7 9 декабря, 2013 Опубликовано 9 декабря, 2013 · Жалоба М-м... #ifndef LEDS_H #define LEDS_H #define LED_POWER 1 #define LED_BATTERY 2 #define LED_STORAGE 4 #define LEDS_ALL (LED_POWER|LED_BATTERY|LED_STORAGE) void Leds_Init (void); void Leds_TurnOn (int aLed); void Leds_TurnOff (int aLed); #endif //============================================================================= // File Name : s3c2410.h // Function : S3C2410 Define Address Register // Program : Shin, On Pil (SOP) // Date : May 06, 2002 // Version : 0.0 // History // 0.0 : Programming start (February 15,2002) -> SOP // INTERRUPT rPRIORITY 0x4a00000a -> 0x4a00000c (May 02, 2002 SOP) // RTC BCD DAY and DATE Register Name Correction (May 06, 2002 SOP) //============================================================================= #ifndef __2410ADDR_H__ #define __2410ADDR_H__ #ifdef __cplusplus extern "C" { #endif //#include "option.h" //!!! Interrupt table address. see also s3c2410a.s #define _ISR_STARTADDRESS 0x33FFFF00 // Memory control #define BWSCON (*(volatile unsigned *)0x48000000) //Bus width & wait status #define BANKCON0 (*(volatile unsigned *)0x48000004) //Boot ROM control #define BANKCON1 (*(volatile unsigned *)0x48000008) //BANK1 control #define BANKCON2 (*(volatile unsigned *)0x4800000c) //BANK2 cControl #define BANKCON3 (*(volatile unsigned *)0x48000010) //BANK3 control #define BANKCON4 (*(volatile unsigned *)0x48000014) //BANK4 control #define BANKCON5 (*(volatile unsigned *)0x48000018) //BANK5 control #define BANKCON6 (*(volatile unsigned *)0x4800001c) //BANK6 control #define BANKCON7 (*(volatile unsigned *)0x48000020) //BANK7 control #define REFRESH (*(volatile unsigned *)0x48000024) //DRAM/SDRAM refresh #define BANKSIZE (*(volatile unsigned *)0x48000028) //Flexible Bank Size #define MRSRB6 (*(volatile unsigned *)0x4800002c) //Mode register set for SDRAM #define MRSRB7 (*(volatile unsigned *)0x48000030) //Mode register set for SDRAM // USB Host #define HcRevision (*(volatile unsigned *)0x49000000) #define HcControl (*(volatile unsigned *)0x49000004) #define HcCommandStatus (*(volatile unsigned *)0x49000008) #define HcInterruptStatus (*(volatile unsigned *)0x4900000C) #define HcInterruptEnable (*(volatile unsigned *)0x49000010) #define HcInterruptDisable (*(volatile unsigned *)0x49000014) #define HcHCCA (*(volatile unsigned *)0x49000018) #define HcPeriodCurrentED (*(volatile unsigned *)0x4900001C) #define HcControlHeadED (*(volatile unsigned *)0x49000020) #define HcControlCurrentED (*(volatile unsigned *)0x49000024) #define HcBulkHeadED (*(volatile unsigned *)0x49000028) #define HcBulkCurrentED (*(volatile unsigned *)0x4900002C) #define HcDoneHead (*(volatile unsigned *)0x49000030) #define HcFmInterval (*(volatile unsigned *)0x49000034) #define HcFmRemaining (*(volatile unsigned *)0x49000038) #define HcFmNumber (*(volatile unsigned *)0x4900003C) #define HcPeriodicStart (*(volatile unsigned *)0x49000040) #define HcLSThreshold (*(volatile unsigned *)0x49000044) #define HcRhDescriptorA (*(volatile unsigned *)0x49000048) #define HcRhDescriptorB (*(volatile unsigned *)0x4900004C) #define HcRhStatus (*(volatile unsigned *)0x49000050) #define HcRhPortStatus1 (*(volatile unsigned *)0x49000054) #define HcRhPortStatus2 (*(volatile unsigned *)0x49000058) // INTERRUPT #define SRCPND (*(volatile unsigned *)0x4a000000) //Interrupt request status #define INTMOD (*(volatile unsigned *)0x4a000004) //Interrupt mode control #define INTMSK (*(volatile unsigned *)0x4a000008) //Interrupt mask control #define PRIORITY (*(volatile unsigned *)0x4a00000c) //IRQ priority control #define INTPND (*(volatile unsigned *)0x4a000010) //Interrupt request status #define INTOFFSET (*(volatile unsigned *)0x4a000014) //Interruot request source offset #define SUBSRCPND (*(volatile unsigned *)0x4a000018) //Sub source pending #define INTSUBMSK (*(volatile unsigned *)0x4a00001c) //Interrupt sub mask // DMA #define DISRC0 (*(volatile unsigned *)0x4b000000) //DMA 0 Initial source #define DISRCC0 (*(volatile unsigned *)0x4b000004) //DMA 0 Initial source control #define DIDST0 (*(volatile unsigned *)0x4b000008) //DMA 0 Initial Destination #define DIDSTC0 (*(volatile unsigned *)0x4b00000c) //DMA 0 Initial Destination control #define DCON0 (*(volatile unsigned *)0x4b000010) //DMA 0 Control #define DSTAT0 (*(volatile unsigned *)0x4b000014) //DMA 0 Status #define DCSRC0 (*(volatile unsigned *)0x4b000018) //DMA 0 Current source #define DCDST0 (*(volatile unsigned *)0x4b00001c) //DMA 0 Current destination #define DMASKTRIG0 (*(volatile unsigned *)0x4b000020) //DMA 0 Mask trigger #define DISRC1 (*(volatile unsigned *)0x4b000040) //DMA 1 Initial source #define DISRCC1 (*(volatile unsigned *)0x4b000044) //DMA 1 Initial source control #define DIDST1 (*(volatile unsigned *)0x4b000048) //DMA 1 Initial Destination #define DIDSTC1 (*(volatile unsigned *)0x4b00004c) //DMA 1 Initial Destination control #define DCON1 (*(volatile unsigned *)0x4b000050) //DMA 1 Control #define DSTAT1 (*(volatile unsigned *)0x4b000054) //DMA 1 Status #define DCSRC1 (*(volatile unsigned *)0x4b000058) //DMA 1 Current source #define DCDST1 (*(volatile unsigned *)0x4b00005c) //DMA 1 Current destination #define DMASKTRIG1 (*(volatile unsigned *)0x4b000060) //DMA 1 Mask trigger #define DISRC2 (*(volatile unsigned *)0x4b000080) //DMA 2 Initial source #define DISRCC2 (*(volatile unsigned *)0x4b000084) //DMA 2 Initial source control #define DIDST2 (*(volatile unsigned *)0x4b000088) //DMA 2 Initial Destination #define DIDSTC2 (*(volatile unsigned *)0x4b00008c) //DMA 2 Initial Destination control #define DCON2 (*(volatile unsigned *)0x4b000090) //DMA 2 Control #define DSTAT2 (*(volatile unsigned *)0x4b000094) //DMA 2 Status #define DCSRC2 (*(volatile unsigned *)0x4b000098) //DMA 2 Current source #define DCDST2 (*(volatile unsigned *)0x4b00009c) //DMA 2 Current destination #define DMASKTRIG2 (*(volatile unsigned *)0x4b0000a0) //DMA 2 Mask trigger #define DISRC3 (*(volatile unsigned *)0x4b0000c0) //DMA 3 Initial source #define DISRCC3 (*(volatile unsigned *)0x4b0000c4) //DMA 3 Initial source control #define DIDST3 (*(volatile unsigned *)0x4b0000c8) //DMA 3 Initial Destination #define DIDSTC3 (*(volatile unsigned *)0x4b0000cc) //DMA 3 Initial Destination control #define DCON3 (*(volatile unsigned *)0x4b0000d0) //DMA 3 Control #define DSTAT3 (*(volatile unsigned *)0x4b0000d4) //DMA 3 Status #define DCSRC3 (*(volatile unsigned *)0x4b0000d8) //DMA 3 Current source #define DCDST3 (*(volatile unsigned *)0x4b0000dc) //DMA 3 Current destination #define DMASKTRIG3 (*(volatile unsigned *)0x4b0000e0) //DMA 3 Mask trigger // CLOCK & POWER MANAGEMENT #define LOCKTIME (*(volatile unsigned *)0x4c000000) //PLL lock time counter #define MPLLCON (*(volatile unsigned *)0x4c000004) //MPLL Control #define UPLLCON (*(volatile unsigned *)0x4c000008) //UPLL Control #define CLKCON (*(volatile unsigned *)0x4c00000c) //Clock generator control #define CLKSLOW (*(volatile unsigned *)0x4c000010) //Slow clock control #define CLKDIVN (*(volatile unsigned *)0x4c000014) //Clock divider control // LCD CONTROLLER #define LCDCON1 (*(volatile unsigned *)0x4d000000) //LCD control 1 #define LCDCON2 (*(volatile unsigned *)0x4d000004) //LCD control 2 #define LCDCON3 (*(volatile unsigned *)0x4d000008) //LCD control 3 #define LCDCON4 (*(volatile unsigned *)0x4d00000c) //LCD control 4 #define LCDCON5 (*(volatile unsigned *)0x4d000010) //LCD control 5 #define LCDSADDR1 (*(volatile unsigned *)0x4d000014) //STN/TFT Frame buffer start address 1 #define LCDSADDR2 (*(volatile unsigned *)0x4d000018) //STN/TFT Frame buffer start address 2 #define LCDSADDR3 (*(volatile unsigned *)0x4d00001c) //STN/TFT Virtual screen address set #define REDLUT (*(volatile unsigned *)0x4d000020) //STN Red lookup table #define GREENLUT (*(volatile unsigned *)0x4d000024) //STN Green lookup table #define BLUELUT (*(volatile unsigned *)0x4d000028) //STN Blue lookup table #define DITHMODE (*(volatile unsigned *)0x4d00004c) //STN Dithering mode #define TPAL (*(volatile unsigned *)0x4d000050) //TFT Temporary palette #define LCDINTPND (*(volatile unsigned *)0x4d000054) //LCD Interrupt pending #define LCDSRCPND (*(volatile unsigned *)0x4d000058) //LCD Interrupt source #define LCDINTMSK (*(volatile unsigned *)0x4d00005c) //LCD Interrupt mask #define LPCSEL (*(volatile unsigned *)0x4d000060) //LPC3600 Control #define PALETTE 0x4d000400 //Palette start address // NAND flash #define NFCONF (*(volatile unsigned *)0x4e000000) //NAND Flash configuration #define NFCMD (*(volatile U8 *)0x4e000004) //NADD Flash command #define NFADDR (*(volatile U8 *)0x4e000008) //NAND Flash address #define NFDATA (*(volatile U8 *)0x4e00000c) //NAND Flash data #define NFSTAT (*(volatile unsigned *)0x4e000010) //NAND Flash operation status #define NFECC (*(volatile unsigned *)0x4e000014) //NAND Flash ECC #define NFECC0 (*(volatile U8 *)0x4e000014) #define NFECC1 (*(volatile U8 *)0x4e000015) #define NFECC2 (*(volatile U8 *)0x4e000016) // UART #define ULCON0 (*(volatile unsigned *)0x50000000) //UART 0 Line control #define UCON0 (*(volatile unsigned *)0x50000004) //UART 0 Control #define UFCON0 (*(volatile unsigned *)0x50000008) //UART 0 FIFO control #define UMCON0 (*(volatile unsigned *)0x5000000c) //UART 0 Modem control #define UTRSTAT0 (*(volatile unsigned *)0x50000010) //UART 0 Tx/Rx status #define UERSTAT0 (*(volatile unsigned *)0x50000014) //UART 0 Rx error status #define UFSTAT0 (*(volatile unsigned *)0x50000018) //UART 0 FIFO status #define UMSTAT0 (*(volatile unsigned *)0x5000001c) //UART 0 Modem status #define UBRDIV0 (*(volatile unsigned *)0x50000028) //UART 0 Baud rate divisor #define ULCON1 (*(volatile unsigned *)0x50004000) //UART 1 Line control #define UCON1 (*(volatile unsigned *)0x50004004) //UART 1 Control #define UFCON1 (*(volatile unsigned *)0x50004008) //UART 1 FIFO control #define UMCON1 (*(volatile unsigned *)0x5000400c) //UART 1 Modem control #define UTRSTAT1 (*(volatile unsigned *)0x50004010) //UART 1 Tx/Rx status #define UERSTAT1 (*(volatile unsigned *)0x50004014) //UART 1 Rx error status #define UFSTAT1 (*(volatile unsigned *)0x50004018) //UART 1 FIFO status #define UMSTAT1 (*(volatile unsigned *)0x5000401c) //UART 1 Modem status #define UBRDIV1 (*(volatile unsigned *)0x50004028) //UART 1 Baud rate divisor #define ULCON2 (*(volatile unsigned *)0x50008000) //UART 2 Line control #define UCON2 (*(volatile unsigned *)0x50008004) //UART 2 Control #define UFCON2 (*(volatile unsigned *)0x50008008) //UART 2 FIFO control #define UMCON2 (*(volatile unsigned *)0x5000800c) //UART 2 Modem control #define UTRSTAT2 (*(volatile unsigned *)0x50008010) //UART 2 Tx/Rx status #define UERSTAT2 (*(volatile unsigned *)0x50008014) //UART 2 Rx error status #define UFSTAT2 (*(volatile unsigned *)0x50008018) //UART 2 FIFO status #define UMSTAT2 (*(volatile unsigned *)0x5000801c) //UART 2 Modem status #define UBRDIV2 (*(volatile unsigned *)0x50008028) //UART 2 Baud rate divisor #ifdef __BIG_ENDIAN #define UTXH0 (*(volatile unsigned char *)0x50000023) //UART 0 Transmission Hold #define URXH0 (*(volatile unsigned char *)0x50000027) //UART 0 Receive buffer #define UTXH1 (*(volatile unsigned char *)0x50004023) //UART 1 Transmission Hold #define URXH1 (*(volatile unsigned char *)0x50004027) //UART 1 Receive buffer #define UTXH2 (*(volatile unsigned char *)0x50008023) //UART 2 Transmission Hold #define URXH2 (*(volatile unsigned char *)0x50008027) //UART 2 Receive buffer #define WrUTXH0(ch) (*(volatile unsigned char *)0x50000023)=(unsigned char)(ch) #define dURXH0() (*(volatile unsigned char *)0x50000027) #define WrUTXH1(ch) (*(volatile unsigned char *)0x50004023)=(unsigned char)(ch) #define dURXH1() (*(volatile unsigned char *)0x50004027) #define WrUTXH2(ch) (*(volatile unsigned char *)0x50008023)=(unsigned char)(ch) #define dURXH2() (*(volatile unsigned char *)0x50008027) #define UTXH0 (0x50000020+3) //Byte_access address by DMA #define URXH0 (0x50000024+3) #define UTXH1 (0x50004020+3) #define URXH1 (0x50004024+3) #define UTXH2 (0x50008020+3) #define URXH2 (0x50008024+3) #else //Little Endian #define UTXH0 (*(volatile unsigned char *)0x50000020) //UART 0 Transmission Hold #define URXH0 (*(volatile unsigned char *)0x50000024) //UART 0 Receive buffer #define UTXH1 (*(volatile unsigned char *)0x50004020) //UART 1 Transmission Hold #define URXH1 (*(volatile unsigned char *)0x50004024) //UART 1 Receive buffer #define UTXH2 (*(volatile unsigned char *)0x50008020) //UART 2 Transmission Hold #define URXH2 (*(volatile unsigned char *)0x50008024) //UART 2 Receive buffer #define WrUTXH0(ch) (*(volatile unsigned char *)0x50000020)=(unsigned char)(ch) #define dURXH0() (*(volatile unsigned char *)0x50000024) #define WrUTXH1(ch) (*(volatile unsigned char *)0x50004020)=(unsigned char)(ch) #define dURXH1() (*(volatile unsigned char *)0x50004024) #define WrUTXH2(ch) (*(volatile unsigned char *)0x50008020)=(unsigned char)(ch) #define dURXH2() (*(volatile unsigned char *)0x50008024) #endif // PWM TIMER #define TCFG0 (*(volatile unsigned *)0x51000000) //Timer 0 configuration #define TCFG1 (*(volatile unsigned *)0x51000004) //Timer 1 configuration #define TCON (*(volatile unsigned *)0x51000008) //Timer control #define TCNTB0 (*(volatile unsigned *)0x5100000c) //Timer count buffer 0 #define TCMPB0 (*(volatile unsigned *)0x51000010) //Timer compare buffer 0 #define TCNTO0 (*(volatile unsigned *)0x51000014) //Timer count observation 0 #define TCNTB1 (*(volatile unsigned *)0x51000018) //Timer count buffer 1 #define TCMPB1 (*(volatile unsigned *)0x5100001c) //Timer compare buffer 1 #define TCNTO1 (*(volatile unsigned *)0x51000020) //Timer count observation 1 #define TCNTB2 (*(volatile unsigned *)0x51000024) //Timer count buffer 2 #define TCMPB2 (*(volatile unsigned *)0x51000028) //Timer compare buffer 2 #define TCNTO2 (*(volatile unsigned *)0x5100002c) //Timer count observation 2 #define TCNTB3 (*(volatile unsigned *)0x51000030) //Timer count buffer 3 #define TCMPB3 (*(volatile unsigned *)0x51000034) //Timer compare buffer 3 #define TCNTO3 (*(volatile unsigned *)0x51000038) //Timer count observation 3 #define TCNTB4 (*(volatile unsigned *)0x5100003c) //Timer count buffer 4 #define TCNTO4 (*(volatile unsigned *)0x51000040) //Timer count observation 4 // USB DEVICE #ifdef __BIG_ENDIAN <ERROR IF BIG_ENDIAN> #define FUNC_ADDR_REG (*(volatile unsigned char *)0x52000143) //Function address #define PWR_REG (*(volatile unsigned char *)0x52000147) //Power management #define EP_INT_REG (*(volatile unsigned char *)0x5200014b) //EP Interrupt pending and clear #define USB_INT_REG (*(volatile unsigned char *)0x5200015b) //USB Interrupt pending and clear #define EP_INT_EN_REG (*(volatile unsigned char *)0x5200015f) //Interrupt enable #define USB_INT_EN_REG (*(volatile unsigned char *)0x5200016f) #define FRAME_NUM1_REG (*(volatile unsigned char *)0x52000173) //Frame number lower byte #define FRAME_NUM2_REG (*(volatile unsigned char *)0x52000177) //Frame number higher byte #define INDEX_REG (*(volatile unsigned char *)0x5200017b) //Register index #define MAXP_REG (*(volatile unsigned char *)0x52000183) //Endpoint max packet #define EP0_CSR (*(volatile unsigned char *)0x52000187) //Endpoint 0 status #define IN_CSR1_REG (*(volatile unsigned char *)0x52000187) //In endpoint control status #define IN_CSR2_REG (*(volatile unsigned char *)0x5200018b) #define OUT_CSR1_REG (*(volatile unsigned char *)0x52000193) //Out endpoint control status #define OUT_CSR2_REG (*(volatile unsigned char *)0x52000197) #define OUT_FIFO_CNT1_REG (*(volatile unsigned char *)0x5200019b) //Endpoint out write count #define OUT_FIFO_CNT2_REG (*(volatile unsigned char *)0x5200019f) #define EP0_FIFO (*(volatile unsigned char *)0x520001c3) //Endpoint 0 FIFO #define EP1_FIFO (*(volatile unsigned char *)0x520001c7) //Endpoint 1 FIFO #define EP2_FIFO (*(volatile unsigned char *)0x520001cb) //Endpoint 2 FIFO #define EP3_FIFO (*(volatile unsigned char *)0x520001cf) //Endpoint 3 FIFO #define EP4_FIFO (*(volatile unsigned char *)0x520001d3) //Endpoint 4 FIFO #define EP1_DMA_CON (*(volatile unsigned char *)0x52000203) //EP1 DMA interface control #define EP1_DMA_UNIT (*(volatile unsigned char *)0x52000207) //EP1 DMA Tx unit counter #define EP1_DMA_FIFO (*(volatile unsigned char *)0x5200020b) //EP1 DMA Tx FIFO counter #define EP1_DMA_TTC_L (*(volatile unsigned char *)0x5200020f) //EP1 DMA total Tx counter #define EP1_DMA_TTC_M (*(volatile unsigned char *)0x52000213) #define EP1_DMA_TTC_H (*(volatile unsigned char *)0x52000217) #define EP2_DMA_CON (*(volatile unsigned char *)0x5200021b) //EP2 DMA interface control #define EP2_DMA_UNIT (*(volatile unsigned char *)0x5200021f) //EP2 DMA Tx unit counter #define EP2_DMA_FIFO (*(volatile unsigned char *)0x52000223) //EP2 DMA Tx FIFO counter #define EP2_DMA_TTC_L (*(volatile unsigned char *)0x52000227) //EP2 DMA total Tx counter #define EP2_DMA_TTC_M (*(volatile unsigned char *)0x5200022b) #define EP2_DMA_TTC_H (*(volatile unsigned char *)0x5200022f) #define EP3_DMA_CON (*(volatile unsigned char *)0x52000243) //EP3 DMA interface control #define EP3_DMA_UNIT (*(volatile unsigned char *)0x52000247) //EP3 DMA Tx unit counter #define EP3_DMA_FIFO (*(volatile unsigned char *)0x5200024b) //EP3 DMA Tx FIFO counter #define EP3_DMA_TTC_L (*(volatile unsigned char *)0x5200024f) //EP3 DMA total Tx counter #define EP3_DMA_TTC_M (*(volatile unsigned char *)0x52000253) #define EP3_DMA_TTC_H (*(volatile unsigned char *)0x52000257) #define EP4_DMA_CON (*(volatile unsigned char *)0x5200025b) //EP4 DMA interface control #define EP4_DMA_UNIT (*(volatile unsigned char *)0x5200025f) //EP4 DMA Tx unit counter #define EP4_DMA_FIFO (*(volatile unsigned char *)0x52000263) //EP4 DMA Tx FIFO counter #define EP4_DMA_TTC_L (*(volatile unsigned char *)0x52000267) //EP4 DMA total Tx counter #define EP4_DMA_TTC_M (*(volatile unsigned char *)0x5200026b) #define EP4_DMA_TTC_H (*(volatile unsigned char *)0x5200026f) #else // Little Endian #define FUNC_ADDR_REG (*(volatile unsigned char *)0x52000140) //Function address #define PWR_REG (*(volatile unsigned char *)0x52000144) //Power management #define EP_INT_REG (*(volatile unsigned char *)0x52000148) //EP Interrupt pending and clear #define USB_INT_REG (*(volatile unsigned char *)0x52000158) //USB Interrupt pending and clear #define EP_INT_EN_REG (*(volatile unsigned char *)0x5200015c) //Interrupt enable #define USB_INT_EN_REG (*(volatile unsigned char *)0x5200016c) #define FRAME_NUM1_REG (*(volatile unsigned char *)0x52000170) //Frame number lower byte #define FRAME_NUM2_REG (*(volatile unsigned char *)0x52000174) //Frame number higher byte #define INDEX_REG (*(volatile unsigned char *)0x52000178) //Register index #define MAXP_REG (*(volatile unsigned char *)0x52000180) //Endpoint max packet #define EP0_CSR (*(volatile unsigned char *)0x52000184) //Endpoint 0 status #define IN_CSR1_REG (*(volatile unsigned char *)0x52000184) //In endpoint control status #define IN_CSR2_REG (*(volatile unsigned char *)0x52000188) #define OUT_CSR1_REG (*(volatile unsigned char *)0x52000190) //Out endpoint control status #define OUT_CSR2_REG (*(volatile unsigned char *)0x52000194) #define OUT_FIFO_CNT1_REG (*(volatile unsigned char *)0x52000198) //Endpoint out write count #define OUT_FIFO_CNT2_REG (*(volatile unsigned char *)0x5200019c) #define EP0_FIFO (*(volatile unsigned char *)0x520001c0) //Endpoint 0 FIFO #define EP1_FIFO (*(volatile unsigned char *)0x520001c4) //Endpoint 1 FIFO #define EP2_FIFO (*(volatile unsigned char *)0x520001c8) //Endpoint 2 FIFO #define EP3_FIFO (*(volatile unsigned char *)0x520001cc) //Endpoint 3 FIFO #define EP4_FIFO (*(volatile unsigned char *)0x520001d0) //Endpoint 4 FIFO #define EP1_DMA_CON (*(volatile unsigned char *)0x52000200) //EP1 DMA interface control #define EP1_DMA_UNIT (*(volatile unsigned char *)0x52000204) //EP1 DMA Tx unit counter #define EP1_DMA_FIFO (*(volatile unsigned char *)0x52000208) //EP1 DMA Tx FIFO counter #define EP1_DMA_TTC_L (*(volatile unsigned char *)0x5200020c) //EP1 DMA total Tx counter #define EP1_DMA_TTC_M (*(volatile unsigned char *)0x52000210) #define EP1_DMA_TTC_H (*(volatile unsigned char *)0x52000214) #define EP2_DMA_CON (*(volatile unsigned char *)0x52000218) //EP2 DMA interface control #define EP2_DMA_UNIT (*(volatile unsigned char *)0x5200021c) //EP2 DMA Tx unit counter #define EP2_DMA_FIFO (*(volatile unsigned char *)0x52000220) //EP2 DMA Tx FIFO counter #define EP2_DMA_TTC_L (*(volatile unsigned char *)0x52000224) //EP2 DMA total Tx counter #define EP2_DMA_TTC_M (*(volatile unsigned char *)0x52000228) #define EP2_DMA_TTC_H (*(volatile unsigned char *)0x5200022c) #define EP3_DMA_CON (*(volatile unsigned char *)0x52000240) //EP3 DMA interface control #define EP3_DMA_UNIT (*(volatile unsigned char *)0x52000244) //EP3 DMA Tx unit counter #define EP3_DMA_FIFO (*(volatile unsigned char *)0x52000248) //EP3 DMA Tx FIFO counter #define EP3_DMA_TTC_L (*(volatile unsigned char *)0x5200024c) //EP3 DMA total Tx counter #define EP3_DMA_TTC_M (*(volatile unsigned char *)0x52000250) #define EP3_DMA_TTC_H (*(volatile unsigned char *)0x52000254) #define EP4_DMA_CON (*(volatile unsigned char *)0x52000258) //EP4 DMA interface control #define EP4_DMA_UNIT (*(volatile unsigned char *)0x5200025c) //EP4 DMA Tx unit counter #define EP4_DMA_FIFO (*(volatile unsigned char *)0x52000260) //EP4 DMA Tx FIFO counter #define EP4_DMA_TTC_L (*(volatile unsigned char *)0x52000264) //EP4 DMA total Tx counter #define EP4_DMA_TTC_M (*(volatile unsigned char *)0x52000268) #define EP4_DMA_TTC_H (*(volatile unsigned char *)0x5200026c) #endif // __BIG_ENDIAN // WATCH DOG TIMER #define WTCON (*(volatile unsigned *)0x53000000) //Watch-dog timer mode #define WTDAT (*(volatile unsigned *)0x53000004) //Watch-dog timer data #define WTCNT (*(volatile unsigned *)0x53000008) //Eatch-dog timer count // IIC #define IICCON (*(volatile unsigned *)0x54000000) //IIC control #define IICSTAT (*(volatile unsigned *)0x54000004) //IIC status #define IICADD (*(volatile unsigned *)0x54000008) //IIC address #define IICDS (*(volatile unsigned *)0x5400000c) //IIC data shift // IIS #define IISCON (*(volatile unsigned *)0x55000000) //IIS Control #define IISMOD (*(volatile unsigned *)0x55000004) //IIS Mode #define IISPSR (*(volatile unsigned *)0x55000008) //IIS Prescaler #define IISFCON (*(volatile unsigned *)0x5500000c) //IIS FIFO control #ifdef __BIG_ENDIAN #define IISFIFO ((volatile unsigned short *)0x55000012) //IIS FIFO entry #else //Little Endian #define IISFIFO ((volatile unsigned short *)0x55000010) //IIS FIFO entry #endif // I/O PORT #define GPACON (*(volatile unsigned *)0x56000000) //Port A control #define GPADAT (*(volatile unsigned *)0x56000004) //Port A data #define GPBCON (*(volatile unsigned *)0x56000010) //Port B control #define GPBDAT (*(volatile unsigned *)0x56000014) //Port B data #define GPBUP (*(volatile unsigned *)0x56000018) //Pull-up control B #define GPCCON (*(volatile unsigned *)0x56000020) //Port C control #define GPCDAT (*(volatile unsigned *)0x56000024) //Port C data #define GPCUP (*(volatile unsigned *)0x56000028) //Pull-up control C #define GPDCON (*(volatile unsigned *)0x56000030) //Port D control #define GPDDAT (*(volatile unsigned *)0x56000034) //Port D data #define GPDUP (*(volatile unsigned *)0x56000038) //Pull-up control D #define GPECON (*(volatile unsigned *)0x56000040) //Port E control #define GPEDAT (*(volatile unsigned *)0x56000044) //Port E data #define GPEUP (*(volatile unsigned *)0x56000048) //Pull-up control E #define GPFCON (*(volatile unsigned *)0x56000050) //Port F control #define GPFDAT (*(volatile unsigned *)0x56000054) //Port F data #define GPFUP (*(volatile unsigned *)0x56000058) //Pull-up control F #define GPGCON (*(volatile unsigned *)0x56000060) //Port G control #define GPGDAT (*(volatile unsigned *)0x56000064) //Port G data #define GPGUP (*(volatile unsigned *)0x56000068) //Pull-up control G #define GPHCON (*(volatile unsigned *)0x56000070) //Port H control #define GPHDAT (*(volatile unsigned *)0x56000074) //Port H data #define GPHUP (*(volatile unsigned *)0x56000078) //Pull-up control H #define MISCCR (*(volatile unsigned *)0x56000080) //Miscellaneous control #define DCLKCON (*(volatile unsigned *)0x56000084) //DCLK0/1 control #define EXTINT0 (*(volatile unsigned *)0x56000088) //External interrupt control register 0 #define EXTINT1 (*(volatile unsigned *)0x5600008c) //External interrupt control register 1 #define EXTINT2 (*(volatile unsigned *)0x56000090) //External interrupt control register 2 #define EINTFLT0 (*(volatile unsigned *)0x56000094) //Reserved #define EINTFLT1 (*(volatile unsigned *)0x56000098) //Reserved #define EINTFLT2 (*(volatile unsigned *)0x5600009c) //External interrupt filter control register 2 #define EINTFLT3 (*(volatile unsigned *)0x560000a0) //External interrupt filter control register 3 #define EINTMASK (*(volatile unsigned *)0x560000a4) //External interrupt mask #define EINTPEND (*(volatile unsigned *)0x560000a8) //External interrupt pending #define GSTATUS0 (*(volatile unsigned *)0x560000ac) //External pin status #define GSTATUS1 (*(volatile unsigned *)0x560000b0) //Chip ID(0x32410000) #define GSTATUS2 (*(volatile unsigned *)0x560000b4) //Reset type #define GSTATUS3 (*(volatile unsigned *)0x560000b8) //Saved data0(32-bit) before entering POWER_OFF mode #define GSTATUS4 (*(volatile unsigned *)0x560000bc) //Saved data0(32-bit) before entering POWER_OFF mode // RTC #ifdef __BIG_ENDIAN #define RTCCON (*(volatile unsigned char *)0x57000043) //RTC control #define TICNT (*(volatile unsigned char *)0x57000047) //Tick time count #define RTCALM (*(volatile unsigned char *)0x57000053) //RTC alarm control #define ALMSEC (*(volatile unsigned char *)0x57000057) //Alarm second #define ALMMIN (*(volatile unsigned char *)0x5700005b) //Alarm minute #define ALMHOUR (*(volatile unsigned char *)0x5700005f) //Alarm Hour #define ALMDATE (*(volatile unsigned char *)0x57000063) //Alarm day <-- May 06, 2002 SOP #define ALMMON (*(volatile unsigned char *)0x57000067) //Alarm month #define ALMYEAR (*(volatile unsigned char *)0x5700006b) //Alarm year #define RTCRST (*(volatile unsigned char *)0x5700006f) //RTC round reset #define BCDSEC (*(volatile unsigned char *)0x57000073) //BCD second #define BCDMIN (*(volatile unsigned char *)0x57000077) //BCD minute #define BCDHOUR (*(volatile unsigned char *)0x5700007b) //BCD hour #define BCDDATE (*(volatile unsigned char *)0x5700007f) //BCD day <-- May 06, 2002 SOP #define BCDDAY (*(volatile unsigned char *)0x57000083) //BCD date <-- May 06, 2002 SOP #define BCDMON (*(volatile unsigned char *)0x57000087) //BCD month #define BCDYEAR (*(volatile unsigned char *)0x5700008b) //BCD year #else //Little Endian #define RTCCON (*(volatile unsigned char *)0x57000040) //RTC control #define TICNT (*(volatile unsigned char *)0x57000044) //Tick time count #define RTCALM (*(volatile unsigned char *)0x57000050) //RTC alarm control #define ALMSEC (*(volatile unsigned char *)0x57000054) //Alarm second #define ALMMIN (*(volatile unsigned char *)0x57000058) //Alarm minute #define ALMHOUR (*(volatile unsigned char *)0x5700005c) //Alarm Hour #define ALMDATE (*(volatile unsigned char *)0x57000060) //Alarm day <-- May 06, 2002 SOP #define ALMMON (*(volatile unsigned char *)0x57000064) //Alarm month #define ALMYEAR (*(volatile unsigned char *)0x57000068) //Alarm year #define RTCRST (*(volatile unsigned char *)0x5700006c) //RTC round reset #define BCDSEC (*(volatile unsigned char *)0x57000070) //BCD second #define BCDMIN (*(volatile unsigned char *)0x57000074) //BCD minute #define BCDHOUR (*(volatile unsigned char *)0x57000078) //BCD hour #define BCDDATE (*(volatile unsigned char *)0x5700007c) //BCD day <-- May 06, 2002 SOP #define BCDDAY (*(volatile unsigned char *)0x57000080) //BCD date <-- May 06, 2002 SOP #define BCDMON (*(volatile unsigned char *)0x57000084) //BCD month #define BCDYEAR (*(volatile unsigned char *)0x57000088) //BCD year #endif //RTC // ADC #define ADCCON (*(volatile unsigned *)0x58000000) //ADC control #define ADCTSC (*(volatile unsigned *)0x58000004) //ADC touch screen control #define ADCDLY (*(volatile unsigned *)0x58000008) //ADC start or Interval Delay #define ADCDAT0 (*(volatile unsigned *)0x5800000c) //ADC conversion data 0 #define ADCDAT1 (*(volatile unsigned *)0x58000010) //ADC conversion data 1 // SPI #define SPCON0 (*(volatile unsigned *)0x59000000) //SPI0 control #define SPSTA0 (*(volatile unsigned *)0x59000004) //SPI0 status #define SPPIN0 (*(volatile unsigned *)0x59000008) //SPI0 pin control #define SPPRE0 (*(volatile unsigned *)0x5900000c) //SPI0 baud rate prescaler #define SPTDAT0 (*(volatile unsigned *)0x59000010) //SPI0 Tx data #define SPRDAT0 (*(volatile unsigned *)0x59000014) //SPI0 Rx data #define SPCON1 (*(volatile unsigned *)0x59000020) //SPI1 control #define SPSTA1 (*(volatile unsigned *)0x59000024) //SPI1 status #define SPPIN1 (*(volatile unsigned *)0x59000028) //SPI1 pin control #define SPPRE1 (*(volatile unsigned *)0x5900002c) //SPI1 baud rate prescaler #define SPTDAT1 (*(volatile unsigned *)0x59000030) //SPI1 Tx data #define SPRDAT1 (*(volatile unsigned *)0x59000034) //SPI1 Rx data // SD Interface #define SDICON (*(volatile unsigned *)0x5a000000) //SDI control #define SDIPRE (*(volatile unsigned *)0x5a000004) //SDI baud rate prescaler #define SDICARG (*(volatile unsigned *)0x5a000008) //SDI command argument #define SDICCON (*(volatile unsigned *)0x5a00000c) //SDI command control #define SDICSTA (*(volatile unsigned *)0x5a000010) //SDI command status #define SDIRSP0 (*(volatile unsigned *)0x5a000014) //SDI response 0 #define SDIRSP1 (*(volatile unsigned *)0x5a000018) //SDI response 1 #define SDIRSP2 (*(volatile unsigned *)0x5a00001c) //SDI response 2 #define SDIRSP3 (*(volatile unsigned *)0x5a000020) //SDI response 3 #define SDIDTIMER (*(volatile unsigned *)0x5a000024) //SDI data/busy timer #define SDIBSIZE (*(volatile unsigned *)0x5a000028) //SDI block size #define SDIDCON (*(volatile unsigned *)0x5a00002c) //SDI data control #define SDIDCNT (*(volatile unsigned *)0x5a000030) //SDI data remain counter #define SDIDSTA (*(volatile unsigned *)0x5a000034) //SDI data status #define SDIFSTA (*(volatile unsigned *)0x5a000038) //SDI FIFO status #define SDIIMSK (*(volatile unsigned *)0x5a000040) //SDI interrupt mask #ifdef __BIG_ENDIAN #define SDIDAT (*(volatile unsigned *)0x5a00003f) //SDI data #else // Little Endian #define SDIDAT (*(volatile unsigned *)0x5a00003c) //SDI data #endif //SD Interface // ISR /* Есауленко. зачем нужны первые 8 строк, я не понял #define pISR_RESET (*(unsigned *)(_ISR_STARTADDRESS+0x0)) #define pISR_UNDEF (*(unsigned *)(_ISR_STARTADDRESS+0x4)) #define pISR_SWI (*(unsigned *)(_ISR_STARTADDRESS+0x8)) #define pISR_PABORT (*(unsigned *)(_ISR_STARTADDRESS+0xc)) #define pISR_DABORT (*(unsigned *)(_ISR_STARTADDRESS+0x10)) #define pISR_RESERVED (*(unsigned *)(_ISR_STARTADDRESS+0x14)) #define pISR_IRQ (*(unsigned *)(_ISR_STARTADDRESS+0x18)) #define pISR_FIQ (*(unsigned *)(_ISR_STARTADDRESS+0x1c)) #define pISR_EINT0 (*(unsigned *)(_ISR_STARTADDRESS+0x20)) #define pISR_EINT1 (*(unsigned *)(_ISR_STARTADDRESS+0x24)) #define pISR_EINT2 (*(unsigned *)(_ISR_STARTADDRESS+0x28)) #define pISR_EINT3 (*(unsigned *)(_ISR_STARTADDRESS+0x2c)) #define pISR_EINT4_7 (*(unsigned *)(_ISR_STARTADDRESS+0x30)) #define pISR_EINT8_23 (*(unsigned *)(_ISR_STARTADDRESS+0x34)) #define pISR_NOTUSED6 (*(unsigned *)(_ISR_STARTADDRESS+0x38)) #define pISR_BAT_FLT (*(unsigned *)(_ISR_STARTADDRESS+0x3c)) #define pISR_TICK (*(unsigned *)(_ISR_STARTADDRESS+0x40)) #define pISR_WDT (*(unsigned *)(_ISR_STARTADDRESS+0x44)) #define pISR_TIMER0 (*(unsigned *)(_ISR_STARTADDRESS+0x48)) #define pISR_TIMER1 (*(unsigned *)(_ISR_STARTADDRESS+0x4c)) #define pISR_TIMER2 (*(unsigned *)(_ISR_STARTADDRESS+0x50)) #define pISR_TIMER3 (*(unsigned *)(_ISR_STARTADDRESS+0x54)) #define pISR_TIMER4 (*(unsigned *)(_ISR_STARTADDRESS+0x58)) #define pISR_UART2 (*(unsigned *)(_ISR_STARTADDRESS+0x5c)) #define pISR_LCD (*(unsigned *)(_ISR_STARTADDRESS+0x60)) #define pISR_DMA0 (*(unsigned *)(_ISR_STARTADDRESS+0x64)) #define pISR_DMA1 (*(unsigned *)(_ISR_STARTADDRESS+0x68)) #define pISR_DMA2 (*(unsigned *)(_ISR_STARTADDRESS+0x6c)) #define pISR_DMA3 (*(unsigned *)(_ISR_STARTADDRESS+0x70)) #define pISR_SDI (*(unsigned *)(_ISR_STARTADDRESS+0x74)) #define pISR_SPI0 (*(unsigned *)(_ISR_STARTADDRESS+0x78)) #define pISR_UART1 (*(unsigned *)(_ISR_STARTADDRESS+0x7c)) #define pISR_NOTUSED24 (*(unsigned *)(_ISR_STARTADDRESS+0x80)) #define pISR_USBD (*(unsigned *)(_ISR_STARTADDRESS+0x84)) #define pISR_USBH (*(unsigned *)(_ISR_STARTADDRESS+0x88)) #define pISR_IIC (*(unsigned *)(_ISR_STARTADDRESS+0x8c)) #define pISR_UART0 (*(unsigned *)(_ISR_STARTADDRESS+0x90)) #define pISR_SPI1 (*(unsigned *)(_ISR_STARTADDRESS+0x94)) #define pISR_RTC (*(unsigned *)(_ISR_STARTADDRESS+0x98)) #define pISR_ADC (*(unsigned *)(_ISR_STARTADDRESS+0x9c)) */ #define pISR_EINT0 (*(unsigned *)(_ISR_STARTADDRESS+0x00)) #define pISR_EINT1 (*(unsigned *)(_ISR_STARTADDRESS+0x04)) #define pISR_EINT2 (*(unsigned *)(_ISR_STARTADDRESS+0x08)) #define pISR_EINT3 (*(unsigned *)(_ISR_STARTADDRESS+0x0c)) #define pISR_EINT4_7 (*(unsigned *)(_ISR_STARTADDRESS+0x10)) #define pISR_EINT8_23 (*(unsigned *)(_ISR_STARTADDRESS+0x14)) #define pISR_NOTUSED6 (*(unsigned *)(_ISR_STARTADDRESS+0x18)) #define pISR_BAT_FLT (*(unsigned *)(_ISR_STARTADDRESS+0x1c)) #define pISR_TICK (*(unsigned *)(_ISR_STARTADDRESS+0x20)) #define pISR_WDT (*(unsigned *)(_ISR_STARTADDRESS+0x24)) #define pISR_TIMER0 (*(unsigned *)(_ISR_STARTADDRESS+0x28)) #define pISR_TIMER1 (*(unsigned *)(_ISR_STARTADDRESS+0x2c)) #define pISR_TIMER2 (*(unsigned *)(_ISR_STARTADDRESS+0x30)) #define pISR_TIMER3 (*(unsigned *)(_ISR_STARTADDRESS+0x34)) #define pISR_TIMER4 (*(unsigned *)(_ISR_STARTADDRESS+0x38)) #define pISR_UART2 (*(unsigned *)(_ISR_STARTADDRESS+0x3c)) #define pISR_LCD (*(unsigned *)(_ISR_STARTADDRESS+0x40)) #define pISR_DMA0 (*(unsigned *)(_ISR_STARTADDRESS+0x44)) #define pISR_DMA1 (*(unsigned *)(_ISR_STARTADDRESS+0x48)) #define pISR_DMA2 (*(unsigned *)(_ISR_STARTADDRESS+0x4c)) #define pISR_DMA3 (*(unsigned *)(_ISR_STARTADDRESS+0x50)) #define pISR_SDI (*(unsigned *)(_ISR_STARTADDRESS+0x54)) #define pISR_SPI0 (*(unsigned *)(_ISR_STARTADDRESS+0x58)) #define pISR_UART1 (*(unsigned *)(_ISR_STARTADDRESS+0x5c)) #define pISR_NOTUSED24 (*(unsigned *)(_ISR_STARTADDRESS+0x60)) #define pISR_USBD (*(unsigned *)(_ISR_STARTADDRESS+0x64)) #define pISR_USBH (*(unsigned *)(_ISR_STARTADDRESS+0x68)) #define pISR_IIC (*(unsigned *)(_ISR_STARTADDRESS+0x6c)) #define pISR_UART0 (*(unsigned *)(_ISR_STARTADDRESS+0x70)) #define pISR_SPI1 (*(unsigned *)(_ISR_STARTADDRESS+0x74)) #define pISR_RTC (*(unsigned *)(_ISR_STARTADDRESS+0x78)) #define pISR_ADC (*(unsigned *)(_ISR_STARTADDRESS+0x7c)) // PENDING BIT #define BIT_EINT0 (1<<0) #define BIT_EINT1 (1<<1) #define BIT_EINT2 (1<<2) #define BIT_EINT3 (1<<3) #define BIT_EINT4_7 (1<<4) #define BIT_EINT8_23 (1<<5) #define BIT_NOTUSED6 (1<<6) #define BIT_BAT_FLT (1<<7) #define BIT_TICK (1<<8) #define BIT_WDT (1<<9) #define BIT_TIMER0 (1<<10) #define BIT_TIMER1 (1<<11) #define BIT_TIMER2 (1<<12) #define BIT_TIMER3 (1<<13) #define BIT_TIMER4 (1<<14) #define BIT_UART2 (1<<15) #define BIT_LCD (1<<16) #define BIT_DMA0 (1<<17) #define BIT_DMA1 (1<<18) #define BIT_DMA2 (1<<19) #define BIT_DMA3 (1<<20) #define BIT_SDI (1<<21) #define BIT_SPI0 (1<<22) #define BIT_UART1 (1<<23) #define BIT_NOTUSED24 (1<<24) #define BIT_USBD (1<<25) #define BIT_USBH (1<<26) #define BIT_IIC (1<<27) #define BIT_UART0 (1<<28) #define BIT_SPI1 (1<<29) #define BIT_RTC (1<<30) #define BIT_ADC (1<<31) #define BIT_ALLMSK (0xffffffff) #define BIT_SUB_ALLMSK (0x7ff) #define BIT_SUB_ADC (1<<10) #define BIT_SUB_TC (1<<9) #define BIT_SUB_ERR2 (1<<8) #define BIT_SUB_TXD2 (1<<7) #define BIT_SUB_RXD2 (1<<6) #define BIT_SUB_ERR1 (1<<5) #define BIT_SUB_TXD1 (1<<4) #define BIT_SUB_RXD1 (1<<3) #define BIT_SUB_ERR0 (1<<2) #define BIT_SUB_TXD0 (1<<1) #define BIT_SUB_RXD0 (1<<0) #define ClearPending(bit) {\ SRCPND = bit;\ INTPND = bit;\ INTPND;\ } //Wait until rINTPND is changed for the case that the ISR is very short. #ifdef __cplusplus } #endif #endif //__2410ADDR_H___ Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 9 декабря, 2013 Опубликовано 9 декабря, 2013 · Жалоба Огромное спасибо! Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 10 декабря, 2013 Опубликовано 10 декабря, 2013 (изменено) · Жалоба почему то при сборке пишет Error : L6218E: Undefined symbol BIT (referred from main.o). :05: хотя в линке всё подцеплено. Изменено 10 декабря, 2013 пользователем TrueCyrix Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
esaulenka 7 10 декабря, 2013 Опубликовано 10 декабря, 2013 · Жалоба А-а, ну да, пропустил. #define BIT(n) (1UL<<(n)) Но... гм... собрать свой собственный образ CE с такими вопросами точно не получится, извиняйте за прямоту. Подозреваю, что в исходном была не только зебра добавлена :-) И да, я ошибся в железе. Просто мы некоторое время назад тоже делали железку на этом процессоре. По странному совпадению, отладочные диодики висят на тех же ногах, вероятно, копировали с одного и того же демо-кита. Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 10 декабря, 2013 Опубликовано 10 декабря, 2013 · Жалоба ... Но... гм... собрать свой собственный образ CE с такими вопросами точно не получится, извиняйте за прямоту. ... дело в том, что познания растут, как грибы после дождя, вот только дожди случаются не часто. В силу своей не образованности я вынужден искать помощи у людей, которые в этом разбираются, так что извините, но я добавил Вас в друзья :rolleyes: . Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 11 декабря, 2013 Опубликовано 11 декабря, 2013 (изменено) · Жалоба что-то я начинаю слегка подтупливать. хочу погасить и на всегда зажечь светодиод на порте GPF4 пишу: #include "Leds.h" #include "s3c2410.h" void Leds_Init (void) { // led 1 - GPF4 GPFCON &= ~(0x03 << 8); GPFCON |= 0x01 << 8; Leds_TurnOff (1); } void Leds_TurnOn (int aLed) { GPFDAT |= BIT(4); } void Leds_TurnOff (int aLed) { GPFDAT &=~ BIT(4); } void Main(void) { Leds_Init(); Leds_TurnOn(1); while(1); } Leds.h #ifndef LEDS_H #define LEDS_H #define LED_1 1 #define LED_2 2 #define LED_3 4 #define LED_4 8 #define LEDS_ALL (LED_1|LED_2|LED_3|LED_4) void Leds_Init (void); void Leds_TurnOn (int aLed); void Leds_TurnOff (int aLed); #endif не работает. :05: Компилируется без ошибок и предупреждений, заливаю в устройство, включаю и ничего не загорается. Изменено 11 декабря, 2013 пользователем TrueCyrix Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
esaulenka 7 11 декабря, 2013 Опубликовано 11 декабря, 2013 · Жалоба Пожалуй, самое время выяснить, что такое отладчик. Заодно разобраться, где находится стек у программы - во внутреннем ОЗУ или во внешнем. В случае внешнего надо ПЕРЕД запуском main() ассемблерной вставкой проинициализировать контроллер внешней памяти. Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 11 декабря, 2013 Опубликовано 11 декабря, 2013 · Жалоба Пожалуй, самое время выяснить, что такое отладчик. Заодно разобраться, где находится стек у программы - во внутреннем ОЗУ или во внешнем. В случае внешнего надо ПЕРЕД запуском main() ассемблерной вставкой проинициализировать контроллер внешней памяти. Во внутреннем, а существуют ли отладчики (программные разумеется) которые показывали бы состояние портов, а не только регистров? Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
TrueCyrix 0 12 декабря, 2013 Опубликовано 12 декабря, 2013 · Жалоба // LCD CONTROLLER #define rLCDCON1 (*(volatile unsigned *)0x4d000000) //LCD control 1 #define rLCDCON2 (*(volatile unsigned *)0x4d000004) //LCD control 2 #define rLCDCON3 (*(volatile unsigned *)0x4d000008) //LCD control 3 #define rLCDCON4 (*(volatile unsigned *)0x4d00000c) //LCD control 4 #define rLCDCON5 (*(volatile unsigned *)0x4d000010) //LCD control 5 #define rLCDSADDR1 (*(volatile unsigned *)0x4d000014) //STN/TFT Frame buffer start address 1 #define rLCDSADDR2 (*(volatile unsigned *)0x4d000018) //STN/TFT Frame buffer start address 2 #define rLCDSADDR3 (*(volatile unsigned *)0x4d00001c) //STN/TFT Virtual screen address set #define rREDLUT (*(volatile unsigned *)0x4d000020) //STN Red lookup table #define rGREENLUT (*(volatile unsigned *)0x4d000024) //STN Green lookup table #define rBLUELUT (*(volatile unsigned *)0x4d000028) //STN Blue lookup table #define rDITHMODE (*(volatile unsigned *)0x4d00004c) //STN Dithering mode #define rTPAL (*(volatile unsigned *)0x4d000050) //TFT Temporary palette #define rLCDINTPND (*(volatile unsigned *)0x4d000054) //LCD Interrupt pending #define rLCDSRCPND (*(volatile unsigned *)0x4d000058) //LCD Interrupt source #define rLCDINTMSK (*(volatile unsigned *)0x4d00005c) //LCD Interrupt mask #define rLPCSEL (*(volatile unsigned *)0x4d000060) //LPC3600 Control #define PALETTE 0x4d000400 //Palette start address Кто знает как включить подсветку LCD дисплея? Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться
esaulenka 7 12 декабря, 2013 Опубликовано 12 декабря, 2013 · Жалоба 1. практически любой отладчик умеет показывать память. Области памяти, в которых располагаются нужные Вам регистры, можно подсмотреть в описании регистров. Умеет ли кодеварриор какие-то более удобные способы, надо смотреть. 2. чтобы включить подсветку дисплея, надо ЧТО-ТО сделать с микросхемой, которая управляет этой подсветкой. Схему и описание этой микросхемы в зубы... К контроллеру LCD подсветка имеет весьма косвенное отношение. Цитата Поделиться сообщением Ссылка на сообщение Поделиться на другие сайты Поделиться