Difference between revisions of "JuiceBox Cpu Regs"

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/* CPU register definitions for the Samsung S3C44B0X
 
/* CPU register definitions for the Samsung S3C44B0X
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[[Category:JuiceBox]]

Latest revision as of 02:01, 14 July 2007

/* CPU register definitions for the Samsung S3C44B0X
   Assumes little endian mode, with all but the UART TX/RX 
   holding registers as 32 bit words.  The RTC regs are probably
   supposed to be 8 bit, but they seem to work as 32.  
   Read-only registers are not defined as such. */

/****** CPU WRAPPER */

uint32_t volatile* const syscfg=(uint32_t*)0x01c00000; /* SYSCFG (System Configuration) */
uint32_t volatile* const ncachbe0=(uint32_t*)0x01c00004; /* NCACHBE0 (Non Cacheable Area 0) */
uint32_t volatile* const ncachbe1=(uint32_t*)0x01c00008; /* NCACHBE1 (Non Cacheable Area 1) */
uint32_t volatile* const sbuscon=(uint32_t*)0x01c40000; /* SBUSCON (System Bus Control) */

/****** MEMORY CONTROLLER */
uint32_t volatile* const bwscon=(uint32_t*)0x01c80000; /* BWSCON (Bus Width & Wait Status Control) */
uint32_t volatile* const bankcon0=(uint32_t*)0x01c80004; /* BANKCON0 (Boot ROM Control) */
uint32_t volatile* const bankcon1=(uint32_t*)0x01c80008; /* BANKCON1 (BANK1 Control) */
uint32_t volatile* const bankcon2=(uint32_t*)0x01c8000c; /* BANKCON2 (BANK2 Control) */
uint32_t volatile* const bankcon3=(uint32_t*)0x01c80010; /* BANKCON3 (BANK3 Control) */
uint32_t volatile* const bankcon4=(uint32_t*)0x01c80014; /* BANKCON4 (BANK4 Control) */
uint32_t volatile* const bankcon5=(uint32_t*)0x01c80018; /* BANKCON5 (BANK5 Control) */
uint32_t volatile* const bankcon6=(uint32_t*)0x01c8001c; /* BANKCON6 (BANK6 Control) */
uint32_t volatile* const bankcon7=(uint32_t*)0x01c80020; /* BANKCON7 (BANK7 Control) */
uint32_t volatile* const refresh=(uint32_t*)0x01c80024; /* REFRESH (DRAM/SDRAM Refresh Control) */
uint32_t volatile* const banksize=(uint32_t*)0x01c80028; /* BANKSIZE (Flexible Bank Size) */
uint32_t volatile* const mrsrb6=(uint32_t*)0x01c8002c; /* MRSRB6 (Mode register set for SDRAM) */
uint32_t volatile* const mrsrb7=(uint32_t*)0x01c80030; /* MRSRB7 (Mode register set for SDRAM) */

/****** UART */
uint32_t volatile* const ulcon0=(uint32_t*)0x01d00000; /* ULCON0 (UART 0 Line Control) */
uint32_t volatile* const ulcon1=(uint32_t*)0x01d04000; /* ULCON1 (UART 1 Line Control) */
uint32_t volatile* const ucon0=(uint32_t*)0x01d00004; /* UCON0 (UART 0 Control) */
uint32_t volatile* const ucon1=(uint32_t*)0x01d04004; /* UCON1 (UART 1 Control) */
uint32_t volatile* const ufcon0=(uint32_t*)0x01d00008; /* UFCON0 (UART 0 FIFO Control) */
uint32_t volatile* const ufcon1=(uint32_t*)0x01d04008; /* UFCON1 (UART 1 FIFO Control) */
uint32_t volatile* const umcon0=(uint32_t*)0x01d0000c; /* UMCON0 (UART 0 Modem Control) */
uint32_t volatile* const umcon1=(uint32_t*)0x01d0400c; /* UMCON1 (UART 1 Modem Control) */
uint32_t volatile* const utrstat0=(uint32_t*)0x01d00010; /* UTRSTAT0 (UART 0 Tx/Rx Status) */
uint32_t volatile* const utrstat1=(uint32_t*)0x01d04010; /* UTRSTAT1 (UART 1 Tx/Rx Status) */
uint32_t volatile* const uerstat0=(uint32_t*)0x01d00014; /* UERSTAT0 (UART 0 Rx Error Status) */
uint32_t volatile* const uerstat1=(uint32_t*)0x01d04014; /* UERSTAT1 (UART 1 Rx Error Status) */
uint32_t volatile* const ufstat0=(uint32_t*)0x01d00018; /* UFSTAT0 (UART 0 FIFO Status) */
uint32_t volatile* const ufstat1=(uint32_t*)0x01d04018; /* UFSTAT1 (UART 1 FIFO Status) */
uint32_t volatile* const umstat0=(uint32_t*)0x01d0001c; /* UMSTAT0 (UART 0 Modem Status) */
uint32_t volatile* const umstat1=(uint32_t*)0x01d0401c; /* UMSTAT1 (UART 1 Modem Status) */
uint8_t volatile* const utxh0=(uint8_t*)0x01d00020; /* UTXH0 (UART 0 Transmission Hold) */
uint8_t volatile* const utxh1=(uint8_t*)0x01d04020; /* UTXH1 (UART 1 Transmission Hold) */
uint8_t volatile* const urxh0=(uint8_t*)0x01d00024; /* URXH0 (UART 0 Receive Buffer) */
uint8_t volatile* const urxh1=(uint8_t*)0x01d04024; /* URXH1 (UART 1 Receive Buffer) */
uint32_t volatile* const ubrdiv0=(uint32_t*)0x01d00028; /* UBRDIV0 (UART 0 Baud Rate Divisor) */
uint32_t volatile* const ubrdiv1=(uint32_t*)0x01d04028; /* UBRDIV1 (UART 1 Baud Rate Divisor) */

/****** SIO */
uint32_t volatile* const siocon=(uint32_t*)0x01d14000; /* SIOCON (SIO Control) */
uint32_t volatile* const siodat=(uint32_t*)0x01d14004; /* SIODAT (SIO Data) */
uint32_t volatile* const sbrdr=(uint32_t*)0x01d14008; /* SBRDR (SIO Baud Rate Prescaler) */
uint32_t volatile* const itvcnt=(uint32_t*)0x01d1400c; /* ITVCNT (SIO Interval Counter) */
uint32_t volatile* const dcntz=(uint32_t*)0x01d14010; /* DCNTZ (SIO DMA Count Zero) */

/****** IIS */
uint32_t volatile* const iiscon=(uint32_t*)0x01d18000; /* IISCON (IIS Control) */
uint32_t volatile* const iismod=(uint32_t*)0x01d18004; /* IISMOD (IIS Mode) */
uint32_t volatile* const iispsr=(uint32_t*)0x01d18008; /* IISPSR (IIS Prescaler) */
uint32_t volatile* const iisfifcon=(uint32_t*)0x01d1800c; /* IISFIFCON (IIS FIFO Control) */
uint32_t volatile* const iisfif=(uint32_t*)0x01d18010; /* IISFIF (IIS FIFO Entry) */

/****** I/O PORT */
uint32_t volatile* const pcona=(uint32_t*)0x01d20000; /* PCONA (Port A Control) */
uint32_t volatile* const pdata=(uint32_t*)0x01d20004; /* PDATA (Port A Data) */
uint32_t volatile* const pconb=(uint32_t*)0x01d20008; /* PCONB (Port B Control) */
uint32_t volatile* const pdatb=(uint32_t*)0x01d2000c; /* PDATB (Port B Data) */
uint32_t volatile* const pconc=(uint32_t*)0x01d20010; /* PCONC (Port C Control) */
uint32_t volatile* const pdatc=(uint32_t*)0x01d20014; /* PDATC (Port C Data) */
uint32_t volatile* const pupc=(uint32_t*)0x01d20018; /* PUPC (Pull-up Control C) */
uint32_t volatile* const pcond=(uint32_t*)0x01d2001c; /* PCOND (Port D Control) */
uint32_t volatile* const pdatd=(uint32_t*)0x01d20020; /* PDATD (Port D Data) */
uint32_t volatile* const pupd=(uint32_t*)0x01d20024; /* PUPD (Pull-up Control D) */
uint32_t volatile* const pcone=(uint32_t*)0x01d20028; /* PCONE (Port E Control) */
uint32_t volatile* const pdate=(uint32_t*)0x01d2002c; /* PDATE (Port E Data) */
uint32_t volatile* const pupe=(uint32_t*)0x01d20030; /* PUPE (Pull-up Control E) */
uint32_t volatile* const pconf=(uint32_t*)0x01d20034; /* PCONF (Port F Control) */
uint32_t volatile* const pdatf=(uint32_t*)0x01d20038; /* PDATF (Port F Data) */
uint32_t volatile* const pupf=(uint32_t*)0x01d2003c; /* PUPF (Pull-up Control F) */
uint32_t volatile* const pcong=(uint32_t*)0x01d20040; /* PCONG (Port G Control) */
uint32_t volatile* const pdatg=(uint32_t*)0x01d20044; /* PDATG (Port G Data) */
uint32_t volatile* const pupg=(uint32_t*)0x01d20048; /* PUPG (Pull-up Control G) */
uint32_t volatile* const spucr=(uint32_t*)0x01d2004c; /* SPUCR (Special Pull-up) */
uint32_t volatile* const extint=(uint32_t*)0x01d20050; /* EXTINT (External Interrupt Control) */
uint32_t volatile* const extinpnd=(uint32_t*)0x01d20054; /* EXTINPND (External Interrupt Pending) */

/****** WATCHDOG TIMER */
uint32_t volatile* const wtcon=(uint32_t*)0x01d30000; /* WTCON (Watchdog Timer Mode) */
uint32_t volatile* const wtdat=(uint32_t*)0x01d30004; /* WTDAT (Watchdog Timer Data) */
uint32_t volatile* const wtcnt=(uint32_t*)0x01d30008; /* WTCNT (Watchdog Timer Count) */

/****** A/D CONVERTER */
uint32_t volatile* const adccon=(uint32_t*)0x01d40000; /* ADCCON (ADC Control) */
uint32_t volatile* const adcpsr=(uint32_t*)0x01d40004; /* ADCPSR (ADC Prescaler) */
uint32_t volatile* const adcdat=(uint32_t*)0x01d40008; /* ADCDAT (Digitized 10 bit Data) */

/****** PWM TIMER */
uint32_t volatile* const tcfg0=(uint32_t*)0x01d50000; /* TCFG0 (Timer Configuration) */
uint32_t volatile* const tcfg1=(uint32_t*)0x01d50004; /* TCFG1 (Timer Configuration) */
uint32_t volatile* const tcon=(uint32_t*)0x01d50008; /* TCON (Timer Control) */
uint32_t volatile* const tcntb0=(uint32_t*)0x01d5000c; /* TCNTB0 (Timer Count Buffer 0) */
uint32_t volatile* const tcmpb0=(uint32_t*)0x01d50010; /* TCMPB0 (Timer Compare Buffer 0) */
uint32_t volatile* const tcnto0=(uint32_t*)0x01d50014; /* TCNTO0 (Timer Count Observation 0) */
uint32_t volatile* const tcntb1=(uint32_t*)0x01d50018; /* TCNTB1 (Timer Count Buffer 1) */
uint32_t volatile* const tcmpb1=(uint32_t*)0x01d5001c; /* TCMPB1 (Timer Compare Buffer 1) */
uint32_t volatile* const tcnto1=(uint32_t*)0x01d50020; /* TCNTO1 (Timer Count Observation 1) */
uint32_t volatile* const tcntb2=(uint32_t*)0x01d50024; /* TCNTB2 (Timer Count Buffer 2) */
uint32_t volatile* const tcmpb2=(uint32_t*)0x01d50028; /* TCMPB2 (Timer Compare Buffer 2) */
uint32_t volatile* const tcnto2=(uint32_t*)0x01d5002c; /* TCNTO2 (Timer Count Observation 2) */
uint32_t volatile* const tcntb3=(uint32_t*)0x01d50030; /* TCNTB3 (Timer Count Buffer 3) */
uint32_t volatile* const tcmpb3=(uint32_t*)0x01d50034; /* TCMPB3 (Timer Compare Buffer 3) */
uint32_t volatile* const tcnto3=(uint32_t*)0x01d50038; /* TCNTO3 (Timer Count Observation 3) */
uint32_t volatile* const tcntb4=(uint32_t*)0x01d5003c; /* TCNTB4 (Timer Count Buffer 4) */
uint32_t volatile* const tcmpb4=(uint32_t*)0x01d50040; /* TCMPB4 (Timer Compare Buffer 4) */
uint32_t volatile* const tcnto4=(uint32_t*)0x01d50044; /* TCNTO4 (Timer Count Observation 4) */
uint32_t volatile* const tcntb5=(uint32_t*)0x01d50048; /* TCNTB5 (Timer Count Buffer 5) */
uint32_t volatile* const tcnto5=(uint32_t*)0x01d5004c; /* TCNTO5 (Timer Count Observation 5) */

/****** IIC */
uint32_t volatile* const iiccon=(uint32_t*)0x01d60000; /* IICCON (IIC Control) */
uint32_t volatile* const iicstat=(uint32_t*)0x01d60004; /* IICSTAT (IIC Status) */
uint32_t volatile* const iicadd=(uint32_t*)0x01d60008; /* IICADD (IIC Address) */
uint32_t volatile* const iicds=(uint32_t*)0x01d6000c; /* IICDS (IIC Data Shift) */

/****** RTC */
/* The book shows these as 8 bit registers, not 32.  Double-check? */
uint32_t volatile* const rtccon=(uint32_t*)0x01d70040; /* RTCCON (RTC Control) */
uint32_t volatile* const rtcalm=(uint32_t*)0x01d70050; /* RTCALM (RTC Alarm) */
uint32_t volatile* const almsec=(uint32_t*)0x01d70054; /* ALMSEC (Alarm Second) */
uint32_t volatile* const almmin=(uint32_t*)0x01d70058; /* ALMMIN (Alarm Minute) */
uint32_t volatile* const almhour=(uint32_t*)0x01d7005c; /* ALMHOUR (Alarm Hour) */
uint32_t volatile* const almday=(uint32_t*)0x01d70060; /* ALMDAY (Alarm Day) */
uint32_t volatile* const almmon=(uint32_t*)0x01d70064; /* ALMMON (Alarm Month) */
uint32_t volatile* const almyear=(uint32_t*)0x01d70068; /* ALMYEAR (Alarm Year) */
uint32_t volatile* const rtcrst=(uint32_t*)0x01d7006c; /* RTCRST (RTC Round Reset) */
uint32_t volatile* const bcdsec=(uint32_t*)0x01d70070; /* BCDSEC (BCD Second) */
uint32_t volatile* const bcdmin=(uint32_t*)0x01d70074; /* BCDMIN (BCD Minute) */
uint32_t volatile* const bcdhour=(uint32_t*)0x01d70078; /* BCDHOUR (BCD Hour) */
uint32_t volatile* const bcdday=(uint32_t*)0x01d7007c; /* BCDDAY (BCD Day) */
uint32_t volatile* const bcddate=(uint32_t*)0x01d70080; /* BCDDATE (BCD Date) */
uint32_t volatile* const bcdmon=(uint32_t*)0x01d70084; /* BCDMON (BCD Month) */
uint32_t volatile* const bcdyear=(uint32_t*)0x01d70088; /* BCDYEAR (BCD Year) */
uint32_t volatile* const ticint=(uint32_t*)0x01D7008C; /* TICINT (Tick time count) */

/****** CLOCK & POWER MANAGEMENT */
uint32_t volatile* const pllcon=(uint32_t*)0x01d80000; /* PLLCON (PLL Control) */
uint32_t volatile* const clkcon=(uint32_t*)0x01d80004; /* CLKCON (Clock Control) */
uint32_t volatile* const clkslow=(uint32_t*)0x01d80008; /* CLKSLOW (Slow clock Control) */
uint32_t volatile* const locktime=(uint32_t*)0x01d8000c; /* LOCKTIME (PLL lock time Counter) */

/****** INTERRUPT CONTROLLER */
uint32_t volatile* const intcon=(uint32_t*)0x01e00000; /* INTCON (Interrupt Control) */
uint32_t volatile* const intpnd=(uint32_t*)0x01e00004; /* INTPND (Interrupt Request Status) */
uint32_t volatile* const intmod=(uint32_t*)0x01e00008; /* INTMOD (Interrupt Mode Control) */
uint32_t volatile* const intmsk=(uint32_t*)0x01e0000c; /* INTMSK (Interrupt Mask Control) */
uint32_t volatile* const i_pslv=(uint32_t*)0x01e00010; /* I_PSLV (IRQ Interrupt Previous Slave) */
uint32_t volatile* const i_pmst=(uint32_t*)0x01e00014; /* I_PMST (IRQ Interrupt Priority Master) */
uint32_t volatile* const i_cslv=(uint32_t*)0x01e00018; /* I_CSLV (IRQ Interrupt Current Slave) */
uint32_t volatile* const i_cmst=(uint32_t*)0x01e0001c; /* I_CMST (IRQ Interrupt Current Master) */
uint32_t volatile* const i_ispr=(uint32_t*)0x01e00020; /* I_ISPR (IRQ Interrupt Pending Status) */
uint32_t volatile* const i_ispc=(uint32_t*)0x01e00024; /* I_ISPC (IRQ Interrupt Pending Clear) */
uint32_t volatile* const f_ispr=(uint32_t*)0x01e00038; /* F_ISPR (FIQ Interrupt Pending) */
uint32_t volatile* const f_ispc=(uint32_t*)0x01e0003c; /* F_ISPC (FIQ Interrupt Pending Clear) */

/****** LCD CONTROLLER */
uint32_t volatile* const lcdcon1=(uint32_t*)0x01f00000; /* LCDCON1 (LCD Control 1) */
uint32_t volatile* const lcdcon2=(uint32_t*)0x01f00004; /* LCDCON2 (LCD Control 2) */
uint32_t volatile* const lcdcon3=(uint32_t*)0x01f00040; /* LCDCON3 (LCD Control 3) */
uint32_t volatile* const lcdsaddr1=(uint32_t*)0x01f00008; /* LCDSADDR1 (Frame Upper Buffer Start Address 1) */
uint32_t volatile* const lcdsaddr2=(uint32_t*)0x01f0000c; /* LCDSADDR2 (Frame Lower Buffer Start Address 2) */
uint32_t volatile* const lcdsaddr3=(uint32_t*)0x01f00010; /* LCDSADDR3 (Virtual Screen Address) */
uint32_t volatile* const redlut=(uint32_t*)0x01f00014; /* REDLUT (RED Lookup Table) */
uint32_t volatile* const greenlut=(uint32_t*)0x01f00018; /* GREENLUT (GREEN Lookup Table) */
uint32_t volatile* const bluelut=(uint32_t*)0x01f0001c; /* BLUELUT (BLUE Lookup Table) */
uint32_t volatile* const dp1_2=(uint32_t*)0x01f00020; /* DP1_2 (Dithering Pattern duty 1/2) */
uint32_t volatile* const dp4_7=(uint32_t*)0x01f00024; /* DP4_7 (Dithering Pattern duty 4/7) */
uint32_t volatile* const dp3_5=(uint32_t*)0x01f00028; /* DP3_5 (Dithering Pattern duty 3/5) */
uint32_t volatile* const dp2_3=(uint32_t*)0x01f0002c; /* DP2_3 (Dithering Pattern duty 2/3) */
uint32_t volatile* const dp5_7=(uint32_t*)0x01f00030; /* DP5_7 (Dithering Pattern duty 5/7) */
uint32_t volatile* const dp3_4=(uint32_t*)0x01f00034; /* DP3_4 (Dithering Pattern duty 3/4) */
uint32_t volatile* const dp4_5=(uint32_t*)0x01f00038; /* DP4_5 (Dithering Pattern duty 4/5) */
uint32_t volatile* const dp6_7=(uint32_t*)0x01f0003c; /* DP6_7 (Dithering Pattern duty 6/7) */
uint32_t volatile* const dithmode=(uint32_t*)0x01f00044; /* DITHMODE (Dithering Mode) */

/****** DMA */
uint32_t volatile* const zdcon0=(uint32_t*)0x01e80000; /* ZDCON0 (ZDMA0 Control) */
uint32_t volatile* const zdisrc0=(uint32_t*)0x01e80004; /* ZDISRC0 (ZDMA 0 Initial Source Address) */
uint32_t volatile* const zdides0=(uint32_t*)0x01e80008; /* ZDIDES0 (ZDMA 0 Initial Destination Address) */
uint32_t volatile* const zdicnt0=(uint32_t*)0x01e8000c; /* ZDICNT0 (ZDMA 0 Initial Transfer Count) */
uint32_t volatile* const zdcsrc0=(uint32_t*)0x01e80010; /* ZDCSRC0 (ZDMA 0 Current Source Address) */
uint32_t volatile* const zdcdes0=(uint32_t*)0x01e80014; /* ZDCDES0 (ZDMA 0 Current Destination Address) */
uint32_t volatile* const zdccnt0=(uint32_t*)0x01e80018; /* ZDCCNT0 (ZDMA 0 Current Transfer Count) */
uint32_t volatile* const zdcon1=(uint32_t*)0x01e80020; /* ZDCON1 (ZDMA 1 Control) */
uint32_t volatile* const zdisrc1=(uint32_t*)0x01e80024; /* ZDISRC1 (ZDMA 1 Initial Source Address) */
uint32_t volatile* const zdides1=(uint32_t*)0x01e80028; /* ZDIDES1 (ZDMA 1 Initial Destination Address) */
uint32_t volatile* const zdicnt1=(uint32_t*)0x01e8002c; /* ZDICNT1 (ZDMA 1 Initial Transfer Count) */
uint32_t volatile* const zdcsrc1=(uint32_t*)0x01e80030; /* ZDCSRC1 (ZDMA 1 Current Source Address) */
uint32_t volatile* const zdcdes1=(uint32_t*)0x01e80034; /* ZDCDES1 (ZDMA 1 Current Destination Address) */
uint32_t volatile* const zdccnt1=(uint32_t*)0x01e80038; /* ZDCCNT1 (ZDMA 1 Current Transfer Count) */
uint32_t volatile* const bdcon0=(uint32_t*)0x01f80000; /* BDCON0 (BDMA 0 Control) */
uint32_t volatile* const bdisrc0=(uint32_t*)0x01f80004; /* BDISRC0 (BDMA 0 Initial Source Address) */
uint32_t volatile* const bdides0=(uint32_t*)0x01f80008; /* BDIDES0 (BDMA 0 Initial Destination Address) */
uint32_t volatile* const bdicnt0=(uint32_t*)0x01f8000c; /* BDICNT0 (BDMA 0 Initial Transfer Count) */
uint32_t volatile* const bdcsrc0=(uint32_t*)0x01f80010; /* BDCSRC0 (BDMA 0 Current Source Address) */
uint32_t volatile* const bdcdes0=(uint32_t*)0x01f80014; /* BDCDES0 (BDMA 0 Current Destination Address) */
uint32_t volatile* const bdccnt0=(uint32_t*)0x01f80018; /* BDCCNT0 (BDMA 0 Current Transfer Count) */
uint32_t volatile* const bdcon1=(uint32_t*)0x01f80020; /* BDCON1 (BDMA 1 Control) */
uint32_t volatile* const bdisrc1=(uint32_t*)0x01f80024; /* BDISRC1 (BDMA 1 Initial Source Address) */
uint32_t volatile* const bdides1=(uint32_t*)0x01f80028; /* BDIDES1 (BDMA 1 Initial Destination Address) */
uint32_t volatile* const bdicnt1=(uint32_t*)0x01f8002c; /* BDICNT1 (BDMA 1 Initial Transfer Count) */
uint32_t volatile* const bdcsrc1=(uint32_t*)0x01f80030; /* BDCSRC1 (BDMA 1 Current Source Address) */
uint32_t volatile* const bdcdes1=(uint32_t*)0x01f80034; /* BDCDES1 (BDMA 1 Current Destination Address) */
uint32_t volatile* const bdccnt1=(uint32_t*)0x01f80038; /* BDCCNT1 (BDMA 1 Current Transfer Count) */