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ChibiOS/os/hal/ports/SPC5/SPC564Axx/xpc564a.h

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Forked SPC5 drivers from SPC5-HAL project, not all of them, just the one needed for supporting the PPC port. git-svn-id: svn://svn.code.sf.net/p/chibios/svn/trunk@10679 35acf78f-673a-0410-8e92-d51de3d6d3f4
2017-09-22 05:43:39 -07:00
/**************************************************************************/
/* FILE NAME: MPC5644A.h COPYRIGHT(c) Freescale & STMicroelectronics */
/* VERSION: 0.5 2010 - All Rights Reserved */
/* */
/* DESCRIPTION: */
/* This file contains all of the register and bit field definitions for */
/* MPC5644A. */
/*========================================================================*/
/* UPDATE HISTORY */
/* REV AUTHOR DATE DESCRIPTION OF CHANGE */
/* --- ----------- --------- --------------------- */
/* 0.1 R. MORAN 10/Aug/09 Initial Alpha version. */
/* 0.2 R. Moran 09/Nov/09 Several Updates: */
/* - XBAR - MPR/SGPCR'3' changed to '2' */
/* - CFCR, IDCR, CFTCR array sizes altered*/
/* - IDIS,CASCD added to DEC_Filter MCR */
/* - WDM fields changed in eTPU_WDTR reg */
/* - Additional ECSM registers added */
/* 0.3 R. Moran 14/Jan/10 Several Updates: */
/* - Flash User Test Register implemented */
/* - MPU.EDR[3] register removed */
/* - Minor Loop TCD bits implemented */
/* - Temperature Sensor implemented */
/* - DSPI.MCR.B.PES implemented */
/* 0.4 R. Moran 30/Mar/10 - Added DTS Module Registers */
/* - Added Reaction Module */
/* - eQADC REDLCCR register */
/* - Temp Sensor TCCR0 corrected */
/* - CFTCR definition changed */
/* - EBI CAL_BR/OR updated */
/* - XBAR MPR0,1,3,7 fixed master fields */
/* - Decimation filter updated to support */
/* Integration filter and rev2 changes */
/* 0.5 I. Harris 25/May/10 - Updated ECSM_ESR with 1bit cor. fld */
/* - Updated ECSM_ECR with 1bit cor. ena */
/* - Corrected ECSM_MUDR endianness */
/* - Corrected ECSM_MWCR ENBWCR field name*/
/* - Updated SIU_IREEx fields */
/* - Added EBI_MCR DBM field */
/* - Added PBRIDGE Registers */
/* - Added SIU EMPCR0 Register */
/* - Included FlexCAN RXFIFO structure */
/**************************************************************************/
/**************************************************************************/
/* Example instantiation and use: */
/* */
/* <MODULE>.<REGISTER>.B.<BIT> = 1; */
/* <MODULE>.<REGISTER>.R = 0x10000000; */
/* */
/**************************************************************************/
#ifndef _MPC5644_H_
#define _MPC5644_H_
#include "typedefs.h"
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __MWERKS__
#pragma push
#pragma ANSI_strict off
#endif
/****************************************************************************/
/* DMA2 Transfer Control Descriptor */
/****************************************************************************/
struct EDMA_TCD_STD_tag { /* for "standard" format TCDs (when EDMA.TCD[x].CITER.E_LINK==BITER.E_LINK=0 && EDMA.EMLM=0 ) */
/* 00 */
vuint32_t SADDR; /* Source Address */
/* 04 */ /* Transfer Attributes */
vuint16_t SMOD:5; /* Source Address Modulo */
vuint16_t SSIZE:3; /* Source Data Transfer Size */
vuint16_t DMOD:5; /* Destination Address Modulo */
vuint16_t DSIZE:3; /* Destination Data Transfer Size */
/* 06 */
vint16_t SOFF; /* Signed Source Address Offset */
/* 08 */
vuint32_t NBYTES; /* Inner ("Minor") Byte Transfer Count */
/* 0C */
vint32_t SLAST; /* Last Source Address Adjustment */
/* 10 */
vuint32_t DADDR; /* Destination Address */
/* 14 */
vuint16_t CITERE_LINK:1; /* Enable Channel-to-Channel */
/* Linking on Minor Loop Completion */
vuint16_t CITER:15; /* Current Major Iteration Count */
/* 16 */
vint16_t DOFF; /* Signed Destination Address Offset */
/* 18 */
vint32_t DLAST_SGA; /* Last Destination Address Adjustment, or */
/* Scatter/Gather Address (if E_SG = 1) */
/* 1C */
vuint16_t BITERE_LINK:1; /* Enable Channel-to-Channel */
/* Linking on Minor Loop Complete */
vuint16_t BITER:15; /* Starting ("Major") Iteration Count */
/* 1E */ /* Channel Control/Status */
vuint16_t BWC:2; /* Bandwidth Control */
vuint16_t MAJORLINKCH:6; /* Link Channel Number */
vuint16_t DONE:1; /* Channel Done */
vuint16_t ACTIVE:1;
vuint16_t MAJORE_LINK:1; /* Enable Channel-to-Channel Link */
vuint16_t E_SG:1; /* Enable Scatter/Gather Descriptor */
vuint16_t D_REQ:1; /* Disable IPD_REQ When Done */
vuint16_t INT_HALF:1; /* Interrupt on CITER = (BITER >> 1) */
vuint16_t INT_MAJ:1; /* Interrupt on Major Loop Completion */
vuint16_t START:1; /* Explicit Channel Start */
};
struct EDMA_TCD_alt1_tag { /*for alternate format TCDs (when EDMA.TCD[x].CITER.E_LINK==BITER.E_LINK=1 ) */
/* 00 */
vuint32_t SADDR; /* Source Address */
/* 04 */ /* Transfer Attributes */
vuint16_t SMOD:5; /* Source Address Modulo */
vuint16_t SSIZE:3; /* Source Data Transfer Size */
vuint16_t DMOD:5; /* Destination Address Modulo */
vuint16_t DSIZE:3; /* Destination Data Transfer Size */
/* 06 */
vint16_t SOFF; /* Signed Source Address Offset */
/* 08 */
vuint32_t NBYTES; /* Inner ("Minor") Byte Transfer Count */
/* 0C */
vint32_t SLAST; /* Last Source Address Adjustment */
/* 10 */
vuint32_t DADDR; /* Destination Address */
/* 14 */
vuint16_t CITERE_LINK:1; /* Enable Channel-to-Channel */
/* Linking on Minor Loop Completion */
vuint16_t CITERLINKCH:6; /* Link Channel Number */
vuint16_t CITER:9; /* Current Major Iteration Count */
/* 16 */
vint16_t DOFF; /* Signed Destination Address Offset */
/* 18 */
vint32_t DLAST_SGA; /* Last Destination Address Adjustment, or */
/* Scatter/Gather Address (if E_SG = 1) */
/* 1C */
vuint16_t BITERE_LINK:1; /* Enable Channel-to-Channel */
/* Linking on Minor Loop Complete */
vuint16_t BITERLINKCH:6; /* Link Channel Number */
vuint16_t BITER:9; /* Starting ("Major") Iteration Count */
/* 1E */ /* Channel Control/Status */
vuint16_t BWC:2; /* Bandwidth Control */
vuint16_t MAJORLINKCH:6; /* Link Channel Number */
vuint16_t DONE:1; /* Channel Done */
vuint16_t ACTIVE:1; /* Channel Active */
vuint16_t MAJORE_LINK:1; /* Enable Channel-to-Channel Link */
vuint16_t E_SG:1; /* Enable Scatter/Gather Descriptor */
vuint16_t D_REQ:1; /* Disable IPD_REQ When Done */
vuint16_t INT_HALF:1; /* Interrupt on CITER = (BITER >> 1) */
vuint16_t INT_MAJ:1; /* Interrupt on Major Loop Completion */
vuint16_t START:1; /* Explicit Channel Start */
};
struct EDMA_TCD_alt2_tag { /* for alternate format TCDs (when EDMA.EMLM=1) */
vuint32_t SADDR; /* source address */
vuint16_t SMOD:5; /* source address modulo */
vuint16_t SSIZE:3; /* source transfer size */
vuint16_t DMOD:5; /* destination address modulo */
vuint16_t DSIZE:3; /* destination transfer size */
vint16_t SOFF; /* signed source address offset */
vuint16_t SMLOE:1; /* Source minor loop offset enable */
vuint16_t DMLOE:1; /* Destination minor loop offset enable */
vuint32_t MLOFF:20; /* Minor loop Offset */
vuint16_t NBYTES:10; /* inner (<28>minor<6F>) byte count */
vint32_t SLAST; /* last destination address adjustment, or
scatter/gather address (if e_sg = 1) */
vuint32_t DADDR; /* destination address */
vuint16_t CITERE_LINK:1;
vuint16_t CITER:15;
vint16_t DOFF; /* signed destination address offset */
vint32_t DLAST_SGA;
vuint16_t BITERE_LINK:1; /* beginning ("major") iteration count */
vuint16_t BITER:15;
vuint16_t BWC:2; /* bandwidth control */
vuint16_t MAJORLINKCH:6; /* enable channel-to-channel link */
vuint16_t DONE:1; /* channel done */
vuint16_t ACTIVE:1; /* channel active */
vuint16_t MAJORE_LINK:1; /* enable channel-to-channel link */
vuint16_t E_SG:1; /* enable scatter/gather descriptor */
vuint16_t D_REQ:1; /* disable ipd_req when done */
vuint16_t INT_HALF:1; /* interrupt on citer = (biter >> 1) */
vuint16_t INT_MAJ:1; /* interrupt on major loop completion */
vuint16_t START:1; /* explicit channel start */
};
/****************************************************************************/
/* MODULE : eDMA */
/****************************************************************************/
struct EDMA_tag {
union {
vuint32_t R;
struct {
vuint32_t:14; /* Reserved */
vuint32_t CX:1; /* Cancel Transfer */
vuint32_t ECX:1; /* Error Cancel Transfer */
vuint32_t GRP3PRI:2; /* Channel Group 3 Priority */
vuint32_t GRP2PRI:2; /* Channel Group 2 Priority */
vuint32_t GRP1PRI:2; /* Channel Group 1 Priority */
vuint32_t GRP0PRI:2; /* Channel Group 0 Priority */
vuint32_t EMLM:1; /* Enable Minor Loop Mapping */
vuint32_t CLM:1; /* Continuous Link Mode */
vuint32_t HALT:1; /* Halt DMA Operations */
vuint32_t HOE:1; /* Halt On Error */
vuint32_t ERGA:1; /* Enable Round Robin Group Arbitration */
vuint32_t ERCA:1; /* Enable Round Robin Channel Arbitration */
vuint32_t EDBG:1; /* Enable Debug */
vuint32_t:1; /* Enable Buffered Writes */
} B;
} CR; /* DMA Control Register @baseaddress + 0x0 */
union {
vuint32_t R;
struct {
vuint32_t VLD:1; /* Logical OR of all DMAERRH */
vuint32_t:14; /* Reserved */
vuint32_t ECX:1; /* Transfer Canceled */
vuint32_t GPE:1; /* Group Priority Error */
vuint32_t CPE:1; /* Channel Priority Error */
vuint32_t ERRCHN:6; /* ERRCHN[5:0] Error Channel Number or The channel number of the last recorded error */
vuint32_t SAE:1; /* Source Address Error 0 */
vuint32_t SOE:1; /* Source Offset Error */
vuint32_t DAE:1; /* Destination Address Error */
vuint32_t DOE:1; /* Destination Offset Error */
vuint32_t NCE:1; /* Nbytes/Citer Configuration Error */
vuint32_t SGE:1; /* Scatter/Gather Configuration Error */
vuint32_t SBE:1; /* Source Bus Error */
vuint32_t DBE:1; /* Destination Bus Error */
} B;
} ESR; /* Error Status Register @baseaddress + 0x4 */
union {
vuint32_t R;
struct {
vuint32_t ERQ63:1;
vuint32_t ERQ62:1;
vuint32_t ERQ61:1;
vuint32_t ERQ60:1;
vuint32_t ERQ59:1;
vuint32_t ERQ58:1;
vuint32_t ERQ57:1;
vuint32_t ERQ56:1;
vuint32_t ERQ55:1;
vuint32_t ERQ54:1;
vuint32_t ERQ53:1;
vuint32_t ERQ52:1;
vuint32_t ERQ51:1;
vuint32_t ERQ50:1;
vuint32_t ERQ49:1;
vuint32_t ERQ48:1;
vuint32_t ERQ47:1;
vuint32_t ERQ46:1;
vuint32_t ERQ45:1;
vuint32_t ERQ44:1;
vuint32_t ERQ43:1;
vuint32_t ERQ42:1;
vuint32_t ERQ41:1;
vuint32_t ERQ40:1;
vuint32_t ERQ39:1;
vuint32_t ERQ38:1;
vuint32_t ERQ37:1;
vuint32_t ERQ36:1;
vuint32_t ERQ35:1;
vuint32_t ERQ34:1;
vuint32_t ERQ33:1;
vuint32_t ERQ32:1;
} B;
} ERQRH; /* DMA Enable Request Register High @baseaddress + 0x8*/
union {
vuint32_t R;
struct {
vuint32_t ERQ31:1;
vuint32_t ERQ30:1;
vuint32_t ERQ29:1;
vuint32_t ERQ28:1;
vuint32_t ERQ27:1;
vuint32_t ERQ26:1;
vuint32_t ERQ25:1;
vuint32_t ERQ24:1;
vuint32_t ERQ23:1;
vuint32_t ERQ22:1;
vuint32_t ERQ21:1;
vuint32_t ERQ20:1;
vuint32_t ERQ19:1;
vuint32_t ERQ18:1;
vuint32_t ERQ17:1;
vuint32_t ERQ16:1;
vuint32_t ERQ15:1;
vuint32_t ERQ14:1;
vuint32_t ERQ13:1;
vuint32_t ERQ12:1;
vuint32_t ERQ11:1;
vuint32_t ERQ10:1;
vuint32_t ERQ09:1;
vuint32_t ERQ08:1;
vuint32_t ERQ07:1;
vuint32_t ERQ06:1;
vuint32_t ERQ05:1;
vuint32_t ERQ04:1;
vuint32_t ERQ03:1;
vuint32_t ERQ02:1;
vuint32_t ERQ01:1;
vuint32_t ERQ00:1;
} B;
} ERQRL; /* DMA Enable Request Register Low @baseaddress + 0xC*/
union {
vuint32_t R;
struct {
vuint32_t EEI63:1;
vuint32_t EEI62:1;
vuint32_t EEI61:1;
vuint32_t EEI60:1;
vuint32_t EEI59:1;
vuint32_t EEI58:1;
vuint32_t EEI57:1;
vuint32_t EEI56:1;
vuint32_t EEI55:1;
vuint32_t EEI54:1;
vuint32_t EEI53:1;
vuint32_t EEI52:1;
vuint32_t EEI51:1;
vuint32_t EEI50:1;
vuint32_t EEI49:1;
vuint32_t EEI48:1;
vuint32_t EEI47:1;
vuint32_t EEI46:1;
vuint32_t EEI45:1;
vuint32_t EEI44:1;
vuint32_t EEI43:1;
vuint32_t EEI42:1;
vuint32_t EEI41:1;
vuint32_t EEI40:1;
vuint32_t EEI39:1;
vuint32_t EEI38:1;
vuint32_t EEI37:1;
vuint32_t EEI36:1;
vuint32_t EEI35:1;
vuint32_t EEI34:1;
vuint32_t EEI33:1;
vuint32_t EEI32:1;
} B;
} EEIRH; /* DMA Enable Error Interrupt Register High @baseaddress + 0x10*/
union {
vuint32_t R;
struct {
vuint32_t EEI31:1;
vuint32_t EEI30:1;
vuint32_t EEI29:1;
vuint32_t EEI28:1;
vuint32_t EEI27:1;
vuint32_t EEI26:1;
vuint32_t EEI25:1;
vuint32_t EEI24:1;
vuint32_t EEI23:1;
vuint32_t EEI22:1;
vuint32_t EEI21:1;
vuint32_t EEI20:1;
vuint32_t EEI19:1;
vuint32_t EEI18:1;
vuint32_t EEI17:1;
vuint32_t EEI16:1;
vuint32_t EEI15:1;
vuint32_t EEI14:1;
vuint32_t EEI13:1;
vuint32_t EEI12:1;
vuint32_t EEI11:1;
vuint32_t EEI10:1;
vuint32_t EEI09:1;
vuint32_t EEI08:1;
vuint32_t EEI07:1;
vuint32_t EEI06:1;
vuint32_t EEI05:1;
vuint32_t EEI04:1;
vuint32_t EEI03:1;
vuint32_t EEI02:1;
vuint32_t EEI01:1;
vuint32_t EEI00:1;
} B;
} EEIRL; /* DMA Enable Error Interrupt Register Low @baseaddress + 0x14*/
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t SERQ:7;
} B;
} SERQR; /* DMA Set Enable Request Register @baseaddress + 0x18*/
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t CERQ:7;
} B;
} CERQR; /* DMA Clear Enable Request Register @baseaddress + 0x19*/
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t SEEI:7;
} B;
} SEEIR; /* DMA Set Enable Error Interrupt Register @baseaddress + 0x1A*/
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t CEEI:7;
} B;
} CEEIR; /* DMA Clear Enable Error Interrupt Register @baseaddress + 0x1B*/
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t CINT:7;
} B;
} CIRQR; /* DMA Clear Interrupt Request Register @baseaddress + 0x1C */
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t CERR:7;
} B;
} CER; /* DMA Clear error Register @baseaddress + 0x1D */
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t SSB:7;
} B;
} SSBR; /* Set Start Bit Register @baseaddress + 0x1E */
union {
vuint8_t R;
struct {
vuint8_t NOP:1;
vuint8_t CDSB:7;
} B;
} CDSBR; /* Clear Done Status Bit Register @baseaddress + 0x1F */
union {
vuint32_t R;
struct {
vuint32_t INT63:1;
vuint32_t INT62:1;
vuint32_t INT61:1;
vuint32_t INT60:1;
vuint32_t INT59:1;
vuint32_t INT58:1;
vuint32_t INT57:1;
vuint32_t INT56:1;
vuint32_t INT55:1;
vuint32_t INT54:1;
vuint32_t INT53:1;
vuint32_t INT52:1;
vuint32_t INT51:1;
vuint32_t INT50:1;
vuint32_t INT49:1;
vuint32_t INT48:1;
vuint32_t INT47:1;
vuint32_t INT46:1;
vuint32_t INT45:1;
vuint32_t INT44:1;
vuint32_t INT43:1;
vuint32_t INT42:1;
vuint32_t INT41:1;
vuint32_t INT40:1;
vuint32_t INT39:1;
vuint32_t INT38:1;
vuint32_t INT37:1;
vuint32_t INT36:1;
vuint32_t INT35:1;
vuint32_t INT34:1;
vuint32_t INT33:1;
vuint32_t INT32:1;
} B;
} IRQRH; /* DMA Interrupt Request High @baseaddress + 0x20 */
union {
vuint32_t R;
struct {
vuint32_t INT31:1;
vuint32_t INT30:1;
vuint32_t INT29:1;
vuint32_t INT28:1;
vuint32_t INT27:1;
vuint32_t INT26:1;
vuint32_t INT25:1;
vuint32_t INT24:1;
vuint32_t INT23:1;
vuint32_t INT22:1;
vuint32_t INT21:1;
vuint32_t INT20:1;
vuint32_t INT19:1;
vuint32_t INT18:1;
vuint32_t INT17:1;
vuint32_t INT16:1;
vuint32_t INT15:1;
vuint32_t INT14:1;
vuint32_t INT13:1;
vuint32_t INT12:1;
vuint32_t INT11:1;
vuint32_t INT10:1;
vuint32_t INT09:1;
vuint32_t INT08:1;
vuint32_t INT07:1;
vuint32_t INT06:1;
vuint32_t INT05:1;
vuint32_t INT04:1;
vuint32_t INT03:1;
vuint32_t INT02:1;
vuint32_t INT01:1;
vuint32_t INT00:1;
} B;
} IRQRL; /* DMA Interrupt Request Low @baseaddress + 0x24 */
union {
vuint32_t R;
struct {
vuint32_t ERR63:1;
vuint32_t ERR62:1;
vuint32_t ERR61:1;
vuint32_t ERR60:1;
vuint32_t ERR59:1;
vuint32_t ERR58:1;
vuint32_t ERR57:1;
vuint32_t ERR56:1;
vuint32_t ERR55:1;
vuint32_t ERR54:1;
vuint32_t ERR53:1;
vuint32_t ERR52:1;
vuint32_t ERR51:1;
vuint32_t ERR50:1;
vuint32_t ERR49:1;
vuint32_t ERR48:1;
vuint32_t ERR47:1;
vuint32_t ERR46:1;
vuint32_t ERR45:1;
vuint32_t ERR44:1;
vuint32_t ERR43:1;
vuint32_t ERR42:1;
vuint32_t ERR41:1;
vuint32_t ERR40:1;
vuint32_t ERR39:1;
vuint32_t ERR38:1;
vuint32_t ERR37:1;
vuint32_t ERR36:1;
vuint32_t ERR35:1;
vuint32_t ERR34:1;
vuint32_t ERR33:1;
vuint32_t ERR32:1;
} B;
} ERH; /* DMA Error High @baseaddress + 0x28 */
union {
vuint32_t R;
struct {
vuint32_t ERR31:1;
vuint32_t ERR30:1;
vuint32_t ERR29:1;
vuint32_t ERR28:1;
vuint32_t ERR27:1;
vuint32_t ERR26:1;
vuint32_t ERR25:1;
vuint32_t ERR24:1;
vuint32_t ERR23:1;
vuint32_t ERR22:1;
vuint32_t ERR21:1;
vuint32_t ERR20:1;
vuint32_t ERR19:1;
vuint32_t ERR18:1;
vuint32_t ERR17:1;
vuint32_t ERR16:1;
vuint32_t ERR15:1;
vuint32_t ERR14:1;
vuint32_t ERR13:1;
vuint32_t ERR12:1;
vuint32_t ERR11:1;
vuint32_t ERR10:1;
vuint32_t ERR09:1;
vuint32_t ERR08:1;
vuint32_t ERR07:1;
vuint32_t ERR06:1;
vuint32_t ERR05:1;
vuint32_t ERR04:1;
vuint32_t ERR03:1;
vuint32_t ERR02:1;
vuint32_t ERR01:1;
vuint32_t ERR00:1;
} B;
} ERL; /* DMA Error Low @baseaddress + 0x2C */
union {
vuint32_t R;
struct {
vuint32_t HRS63:1;
vuint32_t HRS62:1;
vuint32_t HRS61:1;
vuint32_t HRS60:1;
vuint32_t HRS59:1;
vuint32_t HRS58:1;
vuint32_t HRS57:1;
vuint32_t HRS56:1;
vuint32_t HRS55:1;
vuint32_t HRS54:1;
vuint32_t HRS53:1;
vuint32_t HRS52:1;
vuint32_t HRS51:1;
vuint32_t HRS50:1;
vuint32_t HRS49:1;
vuint32_t HRS48:1;
vuint32_t HRS47:1;
vuint32_t HRS46:1;
vuint32_t HRS45:1;
vuint32_t HRS44:1;
vuint32_t HRS43:1;
vuint32_t HRS42:1;
vuint32_t HRS41:1;
vuint32_t HRS40:1;
vuint32_t HRS39:1;
vuint32_t HRS38:1;
vuint32_t HRS37:1;
vuint32_t HRS36:1;
vuint32_t HRS35:1;
vuint32_t HRS34:1;
vuint32_t HRS33:1;
vuint32_t HRS32:1;
} B;
} HRSH; /* hardware request status high @baseaddress + 0x30 */
union {
vuint32_t R;
struct {
vuint32_t HRS31:1;
vuint32_t HRS30:1;
vuint32_t HRS29:1;
vuint32_t HRS28:1;
vuint32_t HRS27:1;
vuint32_t HRS26:1;
vuint32_t HRS25:1;
vuint32_t HRS24:1;
vuint32_t HRS23:1;
vuint32_t HRS22:1;
vuint32_t HRS21:1;
vuint32_t HRS20:1;
vuint32_t HRS19:1;
vuint32_t HRS18:1;
vuint32_t HRS17:1;
vuint32_t HRS16:1;
vuint32_t HRS15:1;
vuint32_t HRS14:1;
vuint32_t HRS13:1;
vuint32_t HRS12:1;
vuint32_t HRS11:1;
vuint32_t HRS10:1;
vuint32_t HRS09:1;
vuint32_t HRS08:1;
vuint32_t HRS07:1;
vuint32_t HRS06:1;
vuint32_t HRS05:1;
vuint32_t HRS04:1;
vuint32_t HRS03:1;
vuint32_t HRS02:1;
vuint32_t HRS01:1;
vuint32_t HRS00:1;
} B;
} HRSL; /* hardware request status low @baseaddress + 0x34 */
uint32_t eDMA_reserved0038[50]; /* 0x0038-0x00FF */
union {
vuint8_t R;
struct {
vuint8_t ECP:1;
vuint8_t DPA:1;
vuint8_t GRPPRI:2;
vuint8_t CHPRI:4;
} B;
} CPR[64]; /* Channel n Priority @baseaddress + 0x100 */
uint32_t eDMA_reserved0140[944]; /* 0x0140-0x0FFF */
/* Select one of the following declarations depending on the DMA mode chosen */
struct EDMA_TCD_STD_tag TCD[64]; /* Standard Format */
/* struct EDMA_TCD_alt1_tag TCD[64]; */ /* CITER/BITER Link */
/* struct EDMA_TCD_alt2_tag TCD[64]; */ /* Minor Loop Offset */
};
/****************************************************************************/
/* MODULE : XBAR */
/****************************************************************************/
struct XBAR_tag {
union {
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t MSTR7:3; /* Master 7 Priority - Reserved */
vuint32_t:1;
vuint32_t MSTR6:3; /* Master 6 Priority - FlexRay */
vuint32_t:4; /* Master 5 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR4:3; /* Master 4 Priority - eDMA */
vuint32_t:4; /* Master 3 Priority - Not implemented */
vuint32_t:4; /* Master 2 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR1:3; /* Master 1 Priority - e200z4 Core load/store & Nexus port */
vuint32_t:1;
vuint32_t MSTR0:3; /* Master 0 Priority - e200z4 core Instruction */
} B;
} MPR0; /* Master Priority Register for Slave port 0 (Flash) @baseaddress + 0x00 */
int32_t XBAR_reserved_0004[3]; /* 0x0004 - 0x000F */
union {
vuint32_t R;
struct {
vuint32_t RO:1;
vuint32_t HLP:1; /* Halt Low Priority */
vuint32_t:6;
vuint32_t HPE7:1; /* High Priority Enable */
vuint32_t HPE6:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t HPE4:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t:1;
vuint32_t HPE1:1; /* High Priority Enable */
vuint32_t HPE0:1; /* High Priority Enable */
vuint32_t:6;
vuint32_t ARB:2;
vuint32_t:2;
vuint32_t PCTL:2;
vuint32_t:1;
vuint32_t PARK:3;
} B;
} SGPCR0; /* Slave General Purpose Control Register 0 (Flash) @baseaddress + 0x10 */
int32_t XBAR_reserved_0014[59]; /* 0x0014 - 0x01FF */
union {
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t MSTR7:3; /* Master 7 Priority - Reserved */
vuint32_t:1;
vuint32_t MSTR6:3; /* Master 6 Priority - FlexRay */
vuint32_t:4; /* Master 5 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR4:3; /* Master 4 Priority - eDMA */
vuint32_t:4; /* Master 3 Priority - Not implemented */
vuint32_t:4; /* Master 2 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR1:3; /* Master 1 Priority - e200z4 Core load/store & Nexus port */
vuint32_t:1;
vuint32_t MSTR0:3; /* Master 0 Priority - e200z4 core Instruction */
} B;
} MPR1; /* Master Priority Register for Slave port 1 (EBI) @baseaddress + 0x100 */
int32_t XBAR_reserved_0100[3]; /* 0x0100 - 0x010F */
union {
vuint32_t R;
struct {
vuint32_t RO:1;
vuint32_t HLP:1; /* Halt Low Priority */
vuint32_t:6;
vuint32_t HPE7:1; /* High Priority Enable */
vuint32_t HPE6:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t HPE4:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t:1;
vuint32_t HPE1:1; /* High Priority Enable */
vuint32_t HPE0:1; /* High Priority Enable */
vuint32_t:6;
vuint32_t ARB:2;
vuint32_t:2;
vuint32_t PCTL:2;
vuint32_t:1;
vuint32_t PARK:3;
} B;
} SGPCR1; /* Slave General Purpose Control Register 1 (EBI) @baseaddress + 0x110 */
int32_t XBAR_reserved_0114[59]; /* 0x0114 - 0x01FF */
union {
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t MSTR7:3; /* Master 7 Priority - Reserved */
vuint32_t:1;
vuint32_t MSTR6:3; /* Master 6 Priority - FlexRay */
vuint32_t:4; /* Master 5 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR4:3; /* Master 4 Priority - eDMA */
vuint32_t:4; /* Master 3 Priority - Not implemented */
vuint32_t:4; /* Master 2 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR1:3; /* Master 1 Priority - e200z4 Core load/store & Nexus port */
vuint32_t:1;
vuint32_t MSTR0:3; /* Master 0 Priority - e200z4 core Instruction */
} B;
} MPR2; /* Master Priority Register for Slave port 2 (RAM) @baseaddress + 0x200 */
int32_t XBAR_reserved_0204[3]; /* 0x0204 - 0x020F */
union {
vuint32_t R;
struct {
vuint32_t RO:1;
vuint32_t HLP:1; /* Halt Low Priority */
vuint32_t:6;
vuint32_t HPE7:1; /* High Priority Enable */
vuint32_t HPE6:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t HPE4:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t:1;
vuint32_t HPE1:1; /* High Priority Enable */
vuint32_t HPE0:1; /* High Priority Enable */
vuint32_t:6;
vuint32_t ARB:2;
vuint32_t:2;
vuint32_t PCTL:2;
vuint32_t:1;
vuint32_t PARK:3;
} B;
} SGPCR2; /* Slave General Purpose Control Register 2 (RAM)@baseaddress + 0x210 */
int32_t XBAR_reserved_0214[59]; /* 0x0214 - 0x02FF */
/* Slave General Purpose Control Register 3 @baseaddress + 0x310 - not implemented */
int32_t XBAR_reserved_0300[64]; /* 0x0300 - 0x03FF */
/* Slave General Purpose Control Register 4 @baseaddress + 0x410 - not implemented */
int32_t XBAR_reserved_0400[64]; /* 0x0400 - 0x04FF */
/* Slave XBAR Port 5 Not implemented @baseaddress + 0x510 */
int32_t XBAR_reserved_0500[64]; /* 0x0500 - 0x05FF */
/* Slave Port 6 not implemented @baseaddress + 0x610 */
int32_t XBAR_reserved_0600[64]; /* 0x0600 - 0x06FF */
union {
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t MSTR7:3; /* Master 7 Priority - Reserved */
vuint32_t:1;
vuint32_t MSTR6:3; /* Master 6 Priority - FlexRay */
vuint32_t:4; /* Master 5 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR4:3; /* Master 4 Priority - eDMA */
vuint32_t:4; /* Master 3 Priority - Not implemented */
vuint32_t:4; /* Master 2 Priority - Not implemented */
vuint32_t:1;
vuint32_t MSTR1:3; /* Master 1 Priority - e200z4 Core load/store & Nexus port */
vuint32_t:1;
vuint32_t MSTR0:3; /* Master 0 Priority - e200z4 core Instruction */
} B;
} MPR7; /* Master Priority Register for Slave port 7 @baseaddress + 0x700 */
int32_t XBAR_reserved_0704[3]; /* 0x0704 - 0x070F */
union {
vuint32_t R;
struct {
vuint32_t RO:1;
vuint32_t HLP:1; /* Halt Low Priority */
vuint32_t:6;
vuint32_t HPE7:1; /* High Priority Enable */
vuint32_t HPE6:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t HPE4:1; /* High Priority Enable */
vuint32_t:1;
vuint32_t:1;
vuint32_t HPE1:1; /* High Priority Enable */
vuint32_t HPE0:1; /* High Priority Enable */
vuint32_t:6;
vuint32_t ARB:2;
vuint32_t:2;
vuint32_t PCTL:2;
vuint32_t:1;
vuint32_t PARK:3;
} B;
} SGPCR7; /* Slave General Purpose Control Register 7 @baseaddress + 0x710 */
int32_t XBAR_reserved_0714[59]; /* 0x0714 - 0x07FF */
int32_t XBAR_reserved_0800[3584]; /* 0x0800-0x3FFF */
};
/****************************************************************************/
/* MODULE : PBRIDGE Peripheral Bridge */
/****************************************************************************/
struct PBRIDGE_tag {
union { /* Master Privilege Registers 0-7 @baseaddress + 0x00*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t MTR0:1; /* z4 core: Master 0 Trusted for Reads */
vuint32_t MTW0:1; /* z4 core: Master 0 Trusted for Writes */
vuint32_t MPL0:1; /* z4 core: Master 0 Priviledge Level */
vuint32_t:13;
vuint32_t MTR4:1; /* DMA: Master 4 Trusted for Reads */
vuint32_t MTW4:1; /* DMA: Master 4 Trusted for Writes */
vuint32_t MPL4:1; /* DMA: Master 4 Priviledge Level */
vuint32_t:5;
vuint32_t MTR6:1; /* FlexRay: Master 6 Trusted for Reads */
vuint32_t MTW6:1; /* FlexRay: Master 6 Trusted for Writes */
vuint32_t MPL6:1; /* FlexRay: Master 6 Priviledge Level */
vuint32_t:1;
vuint32_t MTR7:1; /* EBI: Master 7 Trusted for Reads */
vuint32_t MTW7:1; /* EBI: Master 7 Trusted for Writes */
vuint32_t MPL7:1; /* EBI: Master 7 Priviledge Level */
} B;
} MPCR;
union { /* Master Privilege Registers 8-15 @baseaddress + 0x04*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t MTR0:1; /* Nexus: Master 8 Trusted for Reads */
vuint32_t MTW0:1; /* Nexus: Master 8 Trusted for Writes */
vuint32_t MPL0:1; /* Nexus: Master 8 Priviledge Level */
vuint32_t:28;
} B;
} MPCR1;
uint32_t PRIDGE_reserved0008[6]; /* 0x0008-0x001F */
union { /* Peripheral Access Conrol Registers 0-7 @baseaddress + 0x20*/
vuint32_t R;
struct {
vuint32_t:5;
vuint32_t SP1:1; /* Crossbar: Supervisor Protect */
vuint32_t WP1:1; /* Crossbar: Write Protect */
vuint32_t TP1:1; /* Crossbar: Trusted Protect */
vuint32_t:9;
vuint32_t SP4:1; /* MPU: Supervisor Protect */
vuint32_t WP4:1; /* MPU: Write Protect */
vuint32_t TP4:1; /* MPU: Trusted Protect */
vuint32_t:12;
} B;
} PACR0;
union { /* Peripheral Access Conrol Registers 8-15 @baseaddress + 0x24*/
vuint32_t R;
struct {
vuint32_t:25;
vuint32_t SP6:1; /* SWT: Supervisor Protect */
vuint32_t WP6:1; /* SWT: Write Protect */
vuint32_t TP6:1; /* SWT: Trusted Protect */
vuint32_t:1;
vuint32_t SP7:1; /* STM: Supervisor Protect */
vuint32_t WP7:1; /* STM: Write Protect */
vuint32_t TP7:1; /* STM: Trusted Protect */
} B;
} PACR1;
union { /* Peripheral Access Conrol Registers 16-23 @baseaddress + 0x28*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* ECSM: Supervisor Protect */
vuint32_t WP0:1; /* ECSM: Write Protect */
vuint32_t TP0:1; /* ECSM: Trusted Protect */
vuint32_t:1;
vuint32_t SP1:1; /* DMA: Supervisor Protect */
vuint32_t WP1:1; /* DMA: Write Protect */
vuint32_t TP1:1; /* DMA: Trusted Protect */
vuint32_t:1;
vuint32_t SP2:1; /* INTC: Supervisor Protect */
vuint32_t WP2:1; /* INTC: Write Protect */
vuint32_t TP2:1; /* INTC: Trusted Protect */
vuint32_t:20;
} B;
} PACR2;
union { /* Peripheral Access Conrol Registers 24-31 @baseaddress + 0x2C*/
vuint32_t R;
struct {
vuint32_t:32;
} B;
} PACR3;
uint32_t PRIDGE_reserved0030[4]; /* 0x0030-0x003C */
union { /* Off-Platform Access Control Registers 0-7 @baseaddress + 0x40*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* eQADC: Supervisor Protect */
vuint32_t WP0:1; /* eQADC: Write Protect */
vuint32_t TP0:1; /* eQADC: Trusted Protect */
vuint32_t:5;
vuint32_t SP2:1; /* Dec Filter A: Supervisor Protect */
vuint32_t WP2:1; /* Dec Filter A: Write Protect */
vuint32_t TP2:1; /* Dec Filter A: Trusted Protect */
vuint32_t:1;
vuint32_t SP3:1; /* Dec Filter B: Supervisor Protect */
vuint32_t WP3:1; /* Dec Filter B: Write Protect */
vuint32_t TP3:1; /* Dec Filter B: Trusted Protect */
vuint32_t:5;
vuint32_t SP5:1; /* DSPIB: Supervisor Protect */
vuint32_t WP5:1; /* DSPIB: Write Protect */
vuint32_t TP5:1; /* DSPIB: Trusted Protect */
vuint32_t:1;
vuint32_t SP6:1; /* DSPIC: Supervisor Protect */
vuint32_t WP6:1; /* DSPIC: Write Protect */
vuint32_t TP6:1; /* DSPIC: Trusted Protect */
vuint32_t:1;
vuint32_t SP7:1; /* DSPID: Supervisor Protect */
vuint32_t WP7:1; /* DSPID: Write Protect */
vuint32_t TP7:1; /* DSPID: Trusted Protect */
} B;
} OPACR0;
union { /* Off-Platform Access Control Registers 8-15 @baseaddress + 0x44*/
vuint32_t R;
struct {
vuint32_t:17;
vuint32_t SP4:1; /* eSCIA: Supervisor Protect */
vuint32_t WP4:1; /* eSCIA: Write Protect */
vuint32_t TP4:1; /* eSCIA: Trusted Protect */
vuint32_t:1;
vuint32_t SP5:1; /* eSCIB: Supervisor Protect */
vuint32_t WP5:1; /* eSCIB: Write Protect */
vuint32_t TP5:1; /* eSCIB: Trusted Protect */
vuint32_t:1;
vuint32_t SP6:1; /* eSCIC: Supervisor Protect */
vuint32_t WP6:1; /* eSCIC: Write Protect */
vuint32_t TP6:1; /* eSCIC: Trusted Protect */
vuint32_t:4;
} B;
} OPACR1;
union { /* Off-Platform Access Control Registers 16-23 @baseaddress + 0x48*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* FlexCANA: Supervisor Protect */
vuint32_t WP0:1; /* FlexCANA: Write Protect */
vuint32_t TP0:1; /* FlexCANA: Trusted Protect */
vuint32_t:1;
vuint32_t SP1:1; /* FlexCANB: Supervisor Protect */
vuint32_t WP1:1; /* FlexCANB: Write Protect */
vuint32_t TP1:1; /* FlexCANB: Trusted Protect */
vuint32_t:1;
vuint32_t SP2:1; /* FlexCANC: Supervisor Protect */
vuint32_t WP2:1; /* FlexCANC: Write Protect */
vuint32_t TP2:1; /* FlexCANC: Trusted Protect */
vuint32_t:20;
} B;
} OPACR2;
union { /* Off-Platform Access Control Registers 24-31 @baseaddress + 0x4C*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* FlexRay: Supervisor Protect */
vuint32_t WP0:1; /* FlexRay: Write Protect */
vuint32_t TP0:1; /* FlexRay: Trusted Protect */
vuint32_t:9;
vuint32_t SP3:1; /* SIM: Supervisor Protect */
vuint32_t WP3:1; /* SIM: Write Protect */
vuint32_t TP3:1; /* SIM: Trusted Protect */
vuint32_t:13;
vuint32_t SP7:1; /* BAM: Supervisor Protect */
vuint32_t WP7:1; /* BAM: Write Protect */
vuint32_t TP7:1; /* BAM: Trusted Protect */
} B;
} OPACR3;
union { /* Off-Platform Access Control Registers 32-39 @baseaddress + 0x50*/
vuint32_t R;
struct {
vuint32_t:32;
} B;
} OPACR4;
union { /* Off-Platform Access Control Registers 40-47 @baseaddress + 0x54*/
vuint32_t R;
struct {
vuint32_t:32;
} B;
} OPACR5;
union { /* Off-Platform Access Control Registers 48-55 @baseaddress + 0x58*/
vuint32_t R;
struct {
vuint32_t:32;
} B;
} OPACR6;
union { /* Off-Platform Access Control Registers 56-63 @baseaddress + 0x5C*/
vuint32_t R;
struct {
vuint32_t:9;
vuint32_t SP2:1; /* CRC: Supervisor Protect */
vuint32_t WP2:1; /* CRC: Write Protect */
vuint32_t TP2:1; /* CRC: Trusted Protect */
vuint32_t:20;
} B;
} OPACR7;
union { /* Off-Platform Access Control Registers 64-71 @baseaddress + 0x60*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* FMPLL: Supervisor Protect */
vuint32_t WP0:1; /* FMPLL: Write Protect */
vuint32_t TP0:1; /* FMPLL: Trusted Protect */
vuint32_t:1;
vuint32_t SP1:1; /* EBI: Supervisor Protect */
vuint32_t WP1:1; /* EBI: Write Protect */
vuint32_t TP1:1; /* EBI: Trusted Protect */
vuint32_t:1;
vuint32_t SP2:1; /* FlashA: Supervisor Protect */
vuint32_t WP2:1; /* FlashA: Write Protect */
vuint32_t TP2:1; /* FlashA: Trusted Protect */
vuint32_t:1;
vuint32_t SP3:1; /* FlashB: Supervisor Protect */
vuint32_t WP3:1; /* FlashB: Write Protect */
vuint32_t TP3:1; /* FlashB: Trusted Protect */
vuint32_t:1;
vuint32_t SP4:1; /* SIU: Supervisor Protect */
vuint32_t WP4:1; /* SIU: Write Protect */
vuint32_t TP4:1; /* SIU: Trusted Protect */
vuint32_t:9;
vuint32_t SP7:1; /* DTS: Supervisor Protect */
vuint32_t WP7:1; /* DTS: Write Protect */
vuint32_t TP7:1; /* DTS: Trusted Protect */
} B;
} OPACR8;
union { /* Off-Platform Access Control Registers 72-79 @baseaddress + 0x64*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* eMIOS: Supervisor Protect */
vuint32_t WP0:1; /* eMIOS: Write Protect */
vuint32_t TP0:1; /* eMIOS: Trusted Protect */
vuint32_t:25;
vuint32_t SP7:1; /* PMC: Supervisor Protect */
vuint32_t WP7:1; /* PMC: Write Protect */
vuint32_t TP7:1; /* PMC: Trusted Protect */
} B;
} OPACR9;
union { /* Off-Platform Access Control Registers 80-87 @baseaddress + 0x68*/
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SP0:1; /* eTPU2: Supervisor Protect */
vuint32_t WP0:1; /* eTPU2: Write Protect */
vuint32_t TP0:1; /* eTPU2: Trusted Protect */
vuint32_t:1;
vuint32_t SP1:1; /* REACM: Supervisor Protect */
vuint32_t WP1:1; /* REACM: Write Protect */
vuint32_t TP1:1; /* REACM: Trusted Protect */
vuint32_t:1;
vuint32_t SP2:1; /* eTPU PRAM: Supervisor Protect */
vuint32_t WP2:1; /* eTPU PRAM: Write Protect */
vuint32_t TP2:1; /* eTPU PRAM: Trusted Protect */
vuint32_t:1;
vuint32_t SP3:1; /* eTPU PRAM mirror: Supervisor Protect */
vuint32_t WP3:1; /* eTPU PRAM mirror: Write Protect */
vuint32_t TP3:1; /* eTPU PRAM mirror: Trusted Protect */
vuint32_t:1;
vuint32_t SP4:1; /* eTPU CRAM: Supervisor Protect */
vuint32_t WP4:1; /* eTPU CRAM: Write Protect */
vuint32_t TP4:1; /* eTPU CRAM: Trusted Protect */
vuint32_t:12;
} B;
} OPACR10;
union { /* Off-Platform Access Control Registers 88-95 @baseaddress + 0x6C*/
vuint32_t R;
struct {
vuint32_t:17;
vuint32_t SP4:1; /* PIT: Supervisor Protect */
vuint32_t WP4:1; /* PIT: Write Protect */
vuint32_t TP4:1; /* PIT: Trusted Protect */
vuint32_t:12;
} B;
} OPACR11;
uint32_t PRIDGE_reserved0070[4068]; /* 0x0070-0x3FFF */
};
/****************************************************************************/
/* MODULE : FLASH */
/****************************************************************************/
struct FLASH_tag {
union { /* Module Configuration Register @baseaddress + 0x00*/
vuint32_t R;
struct {
vuint32_t:5;
vuint32_t SIZE:3;
vuint32_t:1;
vuint32_t LAS:3;
vuint32_t:3;
vuint32_t MAS:1;
vuint32_t EER:1;
vuint32_t RWE:1;
vuint32_t SBC:1;
vuint32_t:1;
vuint32_t PEAS:1;
vuint32_t DONE:1;
vuint32_t PEG:1;
vuint32_t:4;
vuint32_t PGM:1;
vuint32_t PSUS:1;
vuint32_t ERS:1;
vuint32_t ESUS:1;
vuint32_t EHV:1;
} B;
} MCR;
union {
vuint32_t R;
struct {
vuint32_t LME:1;
vuint32_t:10;
vuint32_t SLOCK:1;
vuint32_t:2;
vuint32_t MLOCK:2;
vuint32_t:6;
vuint32_t LLOCK:10;
} B; /* Low/Mid Address Space Block Locking Register @baseaddress + 0x04*/
} LMLR;
union {
vuint32_t R;
struct {
vuint32_t HBE:1;
vuint32_t:25;
vuint32_t HBLOCK:6;
} B;
} HLR; /* High Address Space Block Locking Register @baseaddress + 0x08*/
union {
vuint32_t R;
struct {
vuint32_t SLE:1;
vuint32_t:10;
vuint32_t SSLOCK:1;
vuint32_t:2;
vuint32_t SMLOCK:2;
vuint32_t:6;
vuint32_t SLLOCK:10;
} B;
} SLMLR; /* Secondary Low/Mid Block Locking Register @baseaddress + 0x0C*/
union {
vuint32_t R;
struct {
vuint32_t:14;
vuint32_t MSEL:2;
vuint32_t:6;
vuint32_t LSEL:10;
} B;
} LMSR; /* Low/Mid Address Space Block Select Register @baseaddress + 0x10*/
union {
vuint32_t R;
struct {
vuint32_t:26;
vuint32_t HBSEL:6;
} B;
} HSR; /* High Address Space Block Select Register @baseaddress + 0x14*/
union {
vuint32_t R;
struct {
vuint32_t SAD:1;
vuint32_t:13;
vuint32_t ADDR:15;
vuint32_t:3;
} B;
} AR; /* Address Register @baseaddress + 0x18*/
union {
vuint32_t R;
struct {
vuint32_t:7;
vuint32_t:1; /* Reserved */
vuint32_t:1; /* EBI Testing - Reserved */
vuint32_t M6PFE:1; /* FlexRay */
vuint32_t:1; /* Reserved */
vuint32_t M4PFE:1; /* eDMA */
vuint32_t:1; /* Reserved */
vuint32_t:1; /* Reserved */
vuint32_t M1PFE:1; /* z4 Core Load/Store */
vuint32_t M0PFE:1; /* z4 Core Instruction */
vuint32_t APC:3;
vuint32_t WWSC:2;
vuint32_t RWSC:3;
vuint32_t:1;
vuint32_t DPFEN:1;
vuint32_t:1;
vuint32_t IPFEN:1;
vuint32_t:1;
vuint32_t PFLIM:2;
vuint32_t BFEN:1;
} B;
} BIUCR; /* Bus Interface Unit Configuration Register 1 @baseaddress + 0x1C*/
union {
vuint32_t R;
struct {
vuint32_t:14;
vuint32_t:2; /* Reserved */
vuint32_t:2; /* EBI Testing - Reserved */
vuint32_t M6AP:2; /* FlexRay */
vuint32_t:2; /* Reserved */
vuint32_t M4AP:2; /* eDMA_A */
vuint32_t:2; /* Reserved */
vuint32_t:2; /* Reserved */
vuint32_t M1AP:2; /* z4 Core Load/Store */
vuint32_t M0AP:2; /* z4 Core Instruction */
} B;
} BIUAPR; /*Bus Interface Unit Access Protection Register @baseaddress + 0x20*/
union {
vuint32_t R;
struct {
vuint32_t LBCFG:2;
vuint32_t:30;
} B;
} BIUCR2; /* Bus Interface Unit Configuration Register 2 @baseaddress + 0x24*/
uint32_t FLASH_reserved0028[5]; /* 0x0028-0x003B */
union { /* User Test 0 (UT0) register@baseaddress + 0x3C */
vuint32_t R;
struct {
vuint32_t UTE:1; /* User test enable (Read/Clear) */
vuint32_t SBCE:1; /* Single bit correction enable (Read/Clear) */
vuint32_t:6; /* Reserved */
vuint32_t DSI:8; /* Data syndrome input (Read/Write) */
vuint32_t:9; /* Reserved */
vuint32_t:1; /* Reserved (Read/Write) */
vuint32_t MRE:1; /* Margin Read Enable (Read/Write) */
vuint32_t MRV:1; /* Margin Read Value (Read/Write) */
vuint32_t EIE:1; /* ECC data Input Enable (Read/Write) */
vuint32_t AIS:1; /* Array Integrity Sequence (Read/Write) */
vuint32_t AIE:1; /* Array Integrity Enable (Read/Write) */
vuint32_t AID:1; /* Array Integrity Done (Read Only) */
} B;
} UT0;
union { /* User Test 1 (UT1) register@baseaddress + 0x40 */
vuint32_t R;
struct {
vuint32_t DAI:32; /* Data Array Input (Read/Write) */
} B;
} UT1;
union { /* User Test 2 (UT2) register@baseaddress + 0x44 */
vuint32_t R;
struct {
vuint32_t DAI:32; /* Data Array Input (Read/Write) */
} B;
} UT2;
union { /* User Multiple Input Signature Register 0-5 (UMISR[5])@baseaddress + 0x48 */
vuint32_t R;
struct {
vuint32_t MS:32; /* Multiple input Signature (Read/Write) */
} B;
} UMISR[5];
uint32_t FLASH_reserved005C[4073]; /* 0x005C-0x3FFF */
};
/****************************************************************************/
/* MODULE : EBI */
/****************************************************************************/
struct CS_tag {
union {
vuint32_t R;
struct {
vuint32_t BA:17;
vuint32_t:3;
vuint32_t PS:1;
vuint32_t:3;
vuint32_t AD_MUX:1;
vuint32_t BL:1;
vuint32_t WEBS:1;
vuint32_t TBDIP:1;
vuint32_t:1;
vuint32_t SETA:1;
vuint32_t BI:1;
vuint32_t V:1;
} B;
} BR; /* EBI Base Registers (BR) @baseaddress + 0x10 - 0x28 */
union {
vuint32_t R;
struct {
vuint32_t AM:17;
vuint32_t:7;
vuint32_t SCY:4;
vuint32_t:1;
vuint32_t BSCY:2;
vuint32_t:1;
} B;
} OR; /* EBI Option Registers (OR) @baseaddress + 0x14 - 0x2C */
};
struct CAL_CS_tag {
union {
vuint32_t R;
struct {
vuint32_t BA:17;
vuint32_t:3;
vuint32_t PS:1;
vuint32_t:3;
vuint32_t AD_MUX:1;
vuint32_t BL:1;
vuint32_t WEBS:1;
vuint32_t TBDIP:1;
vuint32_t:1;
vuint32_t SETA:1;
vuint32_t BI:1;
vuint32_t V:1;
} B;
} BR; /* EBI CAL Base Registers (CAL_BR) @baseaddress + 0x40 - 0x58 */
union {
vuint32_t R;
struct {
vuint32_t AM:17;
vuint32_t:7;
vuint32_t SCY:4;
vuint32_t:1;
vuint32_t BSCY:2;
vuint32_t:1;
} B;
} OR; /* EBI CAL Option Registers (CAL_OR) @baseaddress + 0x44 - 0x5C */
};
struct EBI_tag {
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t ACGE:1;
vuint32_t:8;
vuint32_t MDIS:1;
vuint32_t:3;
vuint32_t D16_31:1;
vuint32_t AD_MUX:1;
vuint32_t DBM:1;
} B;
} MCR; /* EBI Module Configuration Register (MCR) @baseaddress + 0x00 */
uint32_t EBI_reserved0004[1]; /* 0x0004-0x0008 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t BMTF:1;
} B;
} TESR; /* EBI Transfer Error Status Register (TESR) @baseaddress + 0x08 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t BMT:8;
vuint32_t BME:1;
vuint32_t:7;
} B;
} BMCR; /* EBI Bus Montior Control Register (BMCR) @baseaddress + 0x0C */
struct CS_tag CS[4]; /* EBI CS Registers (BR / OR) @baseaddress + 0x10 - 0x2C */
uint32_t EBI_reserved0030[4]; /* 0x0030 - 0x003C */
struct CAL_CS_tag CAL_CS[4]; /* EBI CAL_CS Registers (CAL_BR / CAL_OR) @baseaddress + 0x40 - 0x5C */
};
/****************************************************************************/
/* MODULE : INTC */
/****************************************************************************/
struct INTC_tag {
union {
vuint32_t R;
struct {
vuint32_t:18; /* Reserved */
vuint32_t:1; /* Reserved */
vuint32_t:4; /* Reserved */
vuint32_t:1; /* Reserved */
vuint32_t:2; /* Reserved */
vuint32_t VTES:1; /* Vector Table Entry Size */
vuint32_t:4; /* Reserved */
vuint32_t HVEN:1; /* Hardware Vector Enable */
} B;
} MCR; /* INTC Module Configuration Register (MCR) @baseaddress + 0x00 */
int32_t INTC_Reserved_0004[1]; /* 0x0004 - 0x0007 */
union {
vuint32_t R;
struct {
vuint32_t:28; /* Reserved */
vuint32_t PRI:4; /* Priority */
} B;
} CPR; /* INTC Current Priority Register (CPR) @baseaddress + 0x08 */
int32_t INTC_reserved_000C; /* 0x000C - 0x000F */
union {
vuint32_t R;
struct {
vuint32_t VTBA:21; /* Vector Table Base Address */
vuint32_t INTVEC:9; /* Interrupt Vector */
vuint32_t:2; /* Reserved */
} B;
} IACKR; /* INTC Interrupt Acknowledge Register (IACKR) @baseaddress + 0x10 */
int32_t INTC_Reserved_0014; /* 0x0014 - 0x00017 */
union {
vuint32_t R;
struct {
vuint32_t:32; /* Reserved */
} B;
} EOIR; /* INTC End of Interrupt Register (EOIR) @baseaddress + 0x18 */
int32_t INTC_Reserved_001C; /* 0x001C - 0x001F */
union {
vuint8_t R;
struct {
vuint8_t:6; /* Reserved */
vuint8_t SET:1; /* Set Flag bits */
vuint8_t CLR:1; /* Clear Flag bits */
} B;
} SSCIR[8]; /* INTC Software Set/Clear Interrupt Registers (SSCIR) @baseaddress + 0x20 */
int32_t INTC_Reserved_0028[6]; /* 0x0028 - 0x003F */
union {
vuint8_t R;
struct {
vuint8_t:2; /* Reserved */
vuint8_t:2; /* Reserved */
vuint8_t PRI:4; /* Priority Select */
} B;
} PSR[512]; /* INTC Priority Select Registers (PSR) @baseaddress + 0x40 */
};
/****************************************************************************/
/* MODULE : SIU */
/****************************************************************************/
struct SIU_tag {
union {
vuint32_t R;
struct {
vuint32_t S_F:1; /* Identifies the Manufacturer */
vuint32_t FLASH_SIZE_1:4; /* Define major Flash memory size (see Table 15-4 for details) */
vuint32_t FLASH_SIZE_2:4; /* Define Flash memory size, small granularity */
vuint32_t TEMP_RANGE:2; /* Define maximum operating range */
vuint32_t:1; /* Reserved for future enhancements */
vuint32_t MAX_FREQ:2; /* Define maximum device speed */
vuint32_t:1; /* Reserved for future enhancements */
vuint32_t SUPPLY:1; /* Defines if the part is 5V or 3V */
vuint32_t PART_NUMBER:8; /* Contain the ASCII representation of the character that indicates the product */
vuint32_t TBD:1; /* 1-bit field defined by SoC to describe optional feature, e.g., additional SPI */
vuint32_t:2; /* Reserved for future enhancements */
vuint32_t EE:1; /* Indicates if Data Flash is present */
vuint32_t:3; /* Reserved for future enhancements */
vuint32_t FR:1; /* Indicates if Data FlexRay is present */
} B;
} MIDR2; /* MCU ID Register 2 @baseaddress + 0x0 */
union {
vuint32_t R;
struct {
vuint32_t PARTNUM:16; /* Device part number */
vuint32_t CSP:1; /* CSP configuration */
vuint32_t PKG:5; /* Indicate the package the die is mounted in. */
vuint32_t:2; /* Reserved */
vuint32_t MASKNUM:8; /* MCU major mask number; updated for each complete resynthesis. MCU minor mask number; updated for each mask revision */
} B;
} MIDR; /* MCU ID Register (MIDR) @baseaddress + 0x4 */
int32_t SIU_Reserved_0008; /* 0x0008 - 0x000B */
union {
vuint32_t R;
struct {
vuint32_t PORS:1; /* Power-On Reset Status */
vuint32_t ERS:1; /* External Reset Status */
vuint32_t LLRS:1; /* Loss of Lock Reset Status */
vuint32_t LCRS:1; /* Loss of Clock Reset Status */
vuint32_t WDRS:1; /* Watchdog Timer/Debug Reset Status */
vuint32_t :1;
vuint32_t SWTRS:1; /* Software Watchdog Timer Reset Status */
vuint32_t:7;
vuint32_t SSRS:1; /* Software System Reset Status */
vuint32_t SERF:1; /* Software External Reset Flag */
vuint32_t WKPCFG:1; /* Weak Pull Configuration Pin Status */
vuint32_t:11;
vuint32_t ABR:1; /* Auto Baud Rate */
vuint32_t BOOTCFG:2; /* Reset Configuration Pin Status */
vuint32_t RGF:1; /* RESET Glitch Flag */
} B;
} RSR; /* Reset Status Register (SIU_RSR) @baseaddress + 0xC */
union {
vuint32_t R;
struct {
vuint32_t SSR:1; /* Software System Reset */
vuint32_t SER:1; /* Software External Reset */
vuint32_t:14;
vuint32_t:1;
vuint32_t:15;
} B;
} SRCR; /* System Reset Control Register (SRCR) @baseaddress + 0x10 */
union {
vuint32_t R;
struct {
vuint32_t NMI:1; /* Non-Maskable Interrupt Flag */
vuint32_t:7; /* */
vuint32_t SWT:1; /* Software Watch Dog Timer Interrupt Flag, from platform */
vuint32_t:7; /* */
vuint32_t EIF15:1; /* External Interrupt Request Flag x */
vuint32_t EIF14:1; /* External Interrupt Request Flag x */
vuint32_t EIF13:1; /* External Interrupt Request Flag x */
vuint32_t EIF12:1; /* External Interrupt Request Flag x */
vuint32_t EIF11:1; /* External Interrupt Request Flag x */
vuint32_t EIF10:1; /* External Interrupt Request Flag x */
vuint32_t EIF9:1; /* External Interrupt Request Flag x */
vuint32_t EIF8:1; /* External Interrupt Request Flag x */
vuint32_t EIF7:1; /* External Interrupt Request Flag x */
vuint32_t EIF6:1; /* External Interrupt Request Flag x */
vuint32_t EIF5:1; /* External Interrupt Request Flag x */
vuint32_t EIF4:1; /* External Interrupt Request Flag x */
vuint32_t EIF3:1; /* External Interrupt Request Flag x */
vuint32_t EIF2:1; /* External Interrupt Request Flag x */
vuint32_t EIF1:1; /* External Interrupt Request Flag x */
vuint32_t EIF0:1; /* External Interrupt Request Flag x */
} B;
} EISR; /* SIU External Interrupt Status Register (EISR) @baseaddress + 0x14 */
union {
vuint32_t R;
struct {
vuint32_t NMI_SEL:1; /* NMI Interrupt Platform Input Selection */
vuint32_t:7;
vuint32_t NMISEL0:1; /* SWT Interrupt Platform Input Selection */
vuint32_t:7;
vuint32_t EIRE15:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE14:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE13:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE12:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE11:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE10:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE9:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE8:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE7:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE6:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE5:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE4:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE3:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE2:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE1:1; /* External DMA/Interrupt Request Enable x */
vuint32_t EIRE0:1; /* External DMA/Interrupt Request Enable x */
} B;
} DIRER; /* DMA/Interrupt Request Enable Register (DIRER) @baseaddress + 0x18 */
union {
vuint32_t R;
struct {
vuint32_t:28; /* */
vuint32_t DIRS3:1; /* DMA/Interrupt Request Select x */
vuint32_t DIRS2:1; /* DMA/Interrupt Request Select x */
vuint32_t DIRS1:1; /* DMA/Interrupt Request Select x */
vuint32_t DIRS0:1; /* DMA/Interrupt Request Select x */
} B;
} DIRSR; /* DMA/Interrupt Request Select Register (DIRSR) @baseaddress + 0x1C */
union {
vuint32_t R;
struct {
vuint32_t:16; /* */
vuint32_t OVF15:1; /* Overrun Flag x */
vuint32_t OVF14:1; /* Overrun Flag x */
vuint32_t OVF13:1; /* Overrun Flag x */
vuint32_t OVF12:1; /* Overrun Flag x */
vuint32_t OVF11:1; /* Overrun Flag x */
vuint32_t OVF10:1; /* Overrun Flag x */
vuint32_t OVF9:1; /* Overrun Flag x */
vuint32_t OVF8:1; /* Overrun Flag x */
vuint32_t OVF7:1; /* Overrun Flag x */
vuint32_t OVF6:1; /* Overrun Flag x */
vuint32_t OVF5:1; /* Overrun Flag x */
vuint32_t OVF4:1; /* Overrun Flag x */
vuint32_t OVF3:1; /* Overrun Flag x */
vuint32_t OVF2:1; /* Overrun Flag x */
vuint32_t OVF1:1; /* Overrun Flag x */
vuint32_t OVF0:1; /* Overrun Flag x */
} B;
} OSR; /* Overrun Status Register (OSR) @baseaddress + 0x20 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t ORE15:1; /* Overrun Request Enable x */
vuint32_t ORE14:1; /* Overrun Request Enable x */
vuint32_t ORE13:1; /* Overrun Request Enable x */
vuint32_t ORE12:1; /* Overrun Request Enable x */
vuint32_t ORE11:1; /* Overrun Request Enable x */
vuint32_t ORE10:1; /* Overrun Request Enable x */
vuint32_t ORE9:1; /* Overrun Request Enable x */
vuint32_t ORE8:1; /* Overrun Request Enable x */
vuint32_t ORE7:1; /* Overrun Request Enable x */
vuint32_t ORE6:1; /* Overrun Request Enable x */
vuint32_t ORE5:1; /* Overrun Request Enable x */
vuint32_t ORE4:1; /* Overrun Request Enable x */
vuint32_t ORE3:1; /* Overrun Request Enable x */
vuint32_t ORE2:1; /* Overrun Request Enable x */
vuint32_t ORE1:1; /* Overrun Request Enable x */
vuint32_t ORE0:1; /* Overrun Request Enable x */
} B;
} ORER; /* Overrun Request Enable Register (ORER) @baseaddress + 0x24 */
union {
vuint32_t R;
struct {
vuint32_t NMIRE:1; /* NMI Rising-Edge Event Enable x */
vuint32_t:7;
vuint32_t NMIRE0:1; /* NMI Falling-Edge Event Enable (SWT) x */
vuint32_t:7;
vuint32_t IREE15:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE14:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE13:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE12:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE11:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE10:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE9:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE8:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE7:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE6:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE5:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE4:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE3:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE2:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE1:1; /* IRQ Rising-Edge Event Enable x */
vuint32_t IREE0:1; /* IRQ Rising-Edge Event Enable x */
} B;
} IREER; /* External IRQ Rising-Edge Event Enable Register (IREER) @baseaddress + 0x28 */
union {
vuint32_t R;
struct {
vuint32_t NMIFE:1; /* NMI Falling-Edge Event Enable (NMI Input) x */
vuint32_t:7;
vuint32_t NMIFE0:1; /* NMI Falling-Edge Event Enable (SWT) x */
vuint32_t:7;
vuint32_t IFEE15:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE14:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE13:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE12:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE11:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE10:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE9:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE8:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE7:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE6:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE5:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE4:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE3:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE2:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE1:1; /* IRQ Falling-Edge Event Enable x */
vuint32_t IFEE0:1; /* IRQ Falling-Edge Event Enable x */
} B;
} IFEER; /* External IRQ Falling-Edge Event Enable Regi (IFEER) @baseaddress + 0x2C */
union {
vuint32_t R;
struct {
vuint32_t:28;
vuint32_t DFL:4; /* Digital Filter Length */
} B;
} IDFR; /* External IRQ Digital Filter Register (IDFR) @baseaddress + 0x30 */
int32_t SIU_Reserved_0034[3]; /* 0x0034 - 0x003F */
union {
vuint16_t R;
struct {
vuint16_t:3;
vuint16_t PA:3;
vuint16_t OBE:1;
vuint16_t IBE:1;
vuint16_t DSC:2;
vuint16_t ODE:1;
vuint16_t HYS:1;
vuint16_t SRC:2;
vuint16_t WPE:1;
vuint16_t WPS:1;
} B;
} PCR[512]; /* Pad Configuration Register (PCR) @baseaddress + 0x40 */
int32_t SIU_Reserved_0374[112]; /* 0x0374 - 0x05FF */
union {
vuint8_t R;
struct {
vuint8_t:7;
vuint8_t PDO:1;
} B;
} GPDO[512]; /* GPIO Pin Data Output Register (GPDO) @baseaddress + 0x600 */
union {
vuint8_t R;
struct {
vuint8_t:7;
vuint8_t PDI:1;
} B;
} GPDI[256]; /* GPIO Pin Data Input Register (GDPI) @baseaddress + 0x800 */
union {
vuint32_t R;
struct {
vuint32_t TSEL5:2; /* eQADC Trigger 5 Input */
vuint32_t TSEL4:2; /* eQADC Trigger 4 Input */
vuint32_t TSEL3:2; /* eQADC Trigger 3 Input */
vuint32_t TSEL2:2; /* eQADC Trigger 4 Input */
vuint32_t TSEL1:2; /* eQADC Trigger 1 Input */
vuint32_t TSEL0:2; /* eQADC Trigger 0 Input */
vuint32_t:20; /* */
} B;
} ETISR; /* eQADC Trigger Input Select Register (ETISR) @baseaddress + 0x900 */
union {
vuint32_t R;
struct {
vuint32_t ESEL15:2; /* External IRQ Input Select x */
vuint32_t ESEL14:2; /* External IRQ Input Select x */
vuint32_t ESEL13:2; /* External IRQ Input Select x */
vuint32_t ESEL12:2; /* External IRQ Input Select x */
vuint32_t ESEL11:2; /* External IRQ Input Select x */
vuint32_t ESEL10:2; /* External IRQ Input Select x */
vuint32_t ESEL9:2; /* External IRQ Input Select x */
vuint32_t ESEL8:2; /* External IRQ Input Select x */
vuint32_t ESEL7:2; /* External IRQ Input Select x */
vuint32_t ESEL6:2; /* External IRQ Input Select x */
vuint32_t ESEL5:2; /* External IRQ Input Select x */
vuint32_t ESEL4:2; /* External IRQ Input Select x */
vuint32_t ESEL3:2; /* External IRQ Input Select x */
vuint32_t ESEL2:2; /* External IRQ Input Select x */
vuint32_t ESEL1:2; /* External IRQ Input Select x */
vuint32_t ESEL0:2; /* External IRQ Input Select x */
} B;
} EIISR; /* External IRQ Input Select Register (EIISR) @baseaddress + 0x904 */
union {
vuint32_t R;
struct {
vuint32_t:8;
vuint32_t SINSELB:2; /* DSPI_B Data Input Select */
vuint32_t SSSELB:2; /* DSPI_B Slave Select Input Select */
vuint32_t SCKSELB:2; /* DSPI_B Clock Input Select */
vuint32_t TRIGSELB:2; /* DSPI_B Trigger Input Select */
vuint32_t SINSELC:2; /* DSPI_C Data Input Select */
vuint32_t SSSELC:2; /* DSPI_C Slave Select Input Select */
vuint32_t SCKSELC:2; /* DSPI_C Clock Input Select */
vuint32_t TRIGSELC:2; /* DSPI_C Trigger Input Select */
vuint32_t SINSELD:2; /* DSPI_D Data Input Select */
vuint32_t SSSELD:2; /* DSPI_D Slave Select Input Select */
vuint32_t SCKSELD:2; /* DSPI_D Clock Input Select */
vuint32_t TRIGSELD:2; /* DSPI_D Trigger Input Select */
} B;
} DISR; /* DSPI Input Select Register (DISR) @baseaddress + 0x908 */
union {
vuint32_t R;
struct {
vuint32_t:2; /* */
vuint32_t ETSEL5:5; /* eQADC queue X Enhanced Trigger Selection */
vuint32_t ETSEL4:5; /* eQADC queue X Enhanced Trigger Selection */
vuint32_t ETSEL3:5; /* eQADC queue X Enhanced Trigger Selection */
vuint32_t ETSEL2:5; /* eQADC queue X Enhanced Trigger Selection */
vuint32_t ETSEL1:5; /* eQADC queue X Enhanced Trigger Selection */
vuint32_t ETSEL0:5; /* eQADC queue X Enhanced Trigger Selection */
} B;
} ISEL3; /* MUX Select Register 3 (ISEL3) @baseaddress + 0x90C */
int32_t SIU_Reserved_0910[4]; /* 0x0910 - 0x091F */
union {
vuint32_t R;
struct {
vuint32_t:11;
vuint32_t ESEL5:1;
vuint32_t:3;
vuint32_t ESEL4:1;
vuint32_t:3;
vuint32_t ESEL3:1;
vuint32_t:3;
vuint32_t ESEL2:1;
vuint32_t:3;
vuint32_t ESEL1:1;
vuint32_t:3;
vuint32_t ESEL0:1;
} B;
} ISEL8; /* MUX Select Register 8 (ISEL8) @baseaddress + 0x920 */
union {
vuint32_t R;
struct {
vuint32_t:27;
vuint32_t ETSEL0A:5;
} B;
} ISEL9; /* MUX Select Register 9(ISEL9) @baseaddress + 0x924 */
int32_t SIU_Reserved_0928[22]; /* 0x0928 - 0x097F */
union {
vuint32_t R;
struct {
vuint32_t:14;
vuint32_t MATCH:1; /* Compare Register Match */
vuint32_t DISNEX:1; /* Disable Nexus */
vuint32_t:14;
vuint32_t CRSE:1; /* Calibration Reflection Suppression Enable */
vuint32_t:1;
} B;
} CCR; /* Chip Configuration Register (CCR) @baseaddress + 0x980 */
union {
vuint32_t R;
struct {
vuint32_t:18;
vuint32_t ENGDIV:6;
vuint32_t ENGSSE:1;
vuint32_t:3;
vuint32_t EBTS:1;
vuint32_t:1;
vuint32_t EBDF:2;
} B;
} ECCR; /* External Clock Control Register (ECCR) @baseaddress + 0x984 */
union {
vuint32_t R;
struct {
vuint32_t CMPAH:32;
} B;
} CARH; /* Compare A High Register (CARH) @baseaddress + 0x988 */
union {
vuint32_t R;
struct {
vuint32_t CMPAL:32;
} B;
} CARL; /* Compare A Low Register (CARL) @baseaddress + 0x98C */
union {
vuint32_t R;
struct {
vuint32_t CMPBH:32;
} B;
} CBRH; /* Compare B High Register (CBRH) @baseaddress + 0x990 */
union {
vuint32_t R;
struct {
vuint32_t CMPBL:32;
} B;
} CBRL; /* Compare B Low Register (CBRL) @baseaddress + 0x994 */
int32_t SIU_Reserved_0998[2]; /* 0x0998 - 0x099F */
union {
vuint32_t R;
struct {
vuint32_t:15;
vuint32_t CAN_SRC:1; /* CAN 2:1 Mode */
vuint32_t:11;
vuint32_t BYPASS:1; /* Bypass bit */
vuint32_t SYSCLKDIV:2; /* System Clock Divide */
vuint32_t:2;
} B;
} SYSDIV; /* System Clock Register (SYSDIV) @baseaddress + 0x9A0 */
union {
vuint32_t R;
struct {
vuint32_t CPUSTP:1; /* CPU stop request. When asserted, a stop request is sent to the following modules: */
vuint32_t:2; /* Reserved */
vuint32_t:1;
vuint32_t:1; /* Reserved */
vuint32_t TPUSTP:1; /* eTPU stop request. When asserted, a stop request is sent to the eTPU module. */
vuint32_t NPCSTP:1; /* Nexus stop request. When asserted, a stop request is sent to the Nexus Controller. */
vuint32_t EBISTP:1; /* EBI stop request. When asserted, a stop request is sent to the external bus */
vuint32_t ADCSTP:1; /* eQADC stop request. When asserted, a stop request is sent to the eQADC module. */
vuint32_t:1; /* Reserved */
vuint32_t MIOSSTP:1; /* Stop mode request */
vuint32_t DFILSTP:1; /* Decimation filter stop request. When asserted, a stop request is sent to the */
vuint32_t:1; /* Reserved */
vuint32_t PITSTP:1; /* PIT stop request. When asserted, a stop request is sent to the periodical internal */
vuint32_t:3; /* Reserved */
vuint32_t CNCSTP:1; /* FlexCAN C stop request. When asserted, a stop request is sent to the FlexCAN C */
vuint32_t CNBSTP:1; /* FlexCAN B stop request. When asserted, a stop request is sent to the FlexCAN B */
vuint32_t CNASTP:1; /* FlexCAN A stop request. When asserted, a stop request is sent to the FlexCAN A */
vuint32_t SPIDSTP:1; /* DSPI D stop request. When asserted, a stop request is sent to the DSPI D. */
vuint32_t SPICSTP:1; /* DSPI C stop request. When asserted, a stop request is sent to the DSPI C. */
vuint32_t SPIBSTP:1; /* DSPI B stop request. When asserted, a stop request is sent to the DSPI B. */
vuint32_t:6; /* Reserved */
vuint32_t SCICSTP:1; /* eSCI C stop request. When asserted, a stop request is sent to the eSCI C module. */
vuint32_t SCIBSTP:1; /* eSCI B stop request. When asserted, a stop request is sent to the eSCI B module. */
vuint32_t SCIASTP:1; /* eSCI A stop request. When asserted, a stop request is sent to the eSCIA module. */
} B;
} HLT; /* Halt Register (HLT) @baseaddress + 0x9A4 */
union {
vuint32_t R;
struct {
vuint32_t CPUACK:1; /* CPU stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t:2; /* Reserved */
vuint32_t:1;
vuint32_t:1; /* Reserved */
vuint32_t TPUACK:1; /* eTPU stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t NPCACK:1; /* Nexus stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t EBIACK:1; /* EBI stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t ADCACK:1; /* eQADC stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t:1; /* Reserved */
vuint32_t MIOSACK:1; /* eMIOS stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t DFILACK:1; /* Decimation filter stop acknowledge. When asserted, indicates that a stop */
vuint32_t:1; /* Reserved */
vuint32_t PITACK:1; /* PIT stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t:3; /* Reserved */
vuint32_t CNCACK:1; /* FlexCAN C stop acknowledge. When asserted, indicates that a stop acknowledge */
vuint32_t CNBACK:1; /* FlexCAN B stop acknowledge. When asserted, indicates that a stop acknowledge */
vuint32_t CNAACK:1; /* FlexCAN A stop acknowledge. When asserted, indicates that a stop acknowledge */
vuint32_t SPIDACK:1; /* DSPI D stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t SPICACK:1; /* DSPI C stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t SPIBACK:1; /* DSPI B stop acknowledge. When asserted, indicates that a stop acknowledge was */
vuint32_t:6; /* Reserved */
vuint32_t SCICACK:1; /* eSCI C stop acknowledge */
vuint32_t SCIBACK:1; /* eSCI B stop acknowledge */
vuint32_t SCIAACK:1; /* eSCI A stop acknowledge. */
} B;
} HLTACK; /* Halt Acknowledge Register (HLTACK) @baseaddress + 0x9A8 */
int32_t SIU_reserved09AC[2]; /* 0x09AC - 0x09B0 */
union {
vuint32_t R;
struct {
vuint32_t EXT_PID_EN:1; /* External PID Selection Enable */
vuint32_t EXT_PID_SYNC0:1; /* External PID Synchronization 0 */
vuint32_t:28; /* Reserved */
vuint32_t EXT_PID6:1; /* EXT_PID6 */
vuint32_t EXT_PID7:1; /* EXT_PID7 */
} B;
} EMPCR0; /* Core MMU PID Control Register (EMPCR0) @baseaddress + 0x9B4 */
int32_t SIU_reserved09B8[19]; /* 0x09B8 - 0x09B0 */
};
/****************************************************************************/
/* MODULE : FMPLL */
/****************************************************************************/
struct FMPLL_tag {
union {
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t PREDIV:3;
vuint32_t MFD:5;
vuint32_t:1;
vuint32_t RFD:3;
vuint32_t LOCEN:1;
vuint32_t LOLRE:1;
vuint32_t LOCRE:1;
vuint32_t:1;
vuint32_t LOLIRQ:1;
vuint32_t LOCIRQ:1;
vuint32_t:13;
} B;
} SYNCR; /* Synthesizer Control Register (SYNCR) @baseaddress + 0x0000 */
union {
vuint32_t R;
struct {
vuint32_t:22;
vuint32_t LOLF:1;
vuint32_t LOC:1;
vuint32_t MODE:1;
vuint32_t PLLSEL:1;
vuint32_t PLLREF:1;
vuint32_t LOCKS:1;
vuint32_t LOCK:1;
vuint32_t LOCF:1;
vuint32_t:2;
} B;
} SYNSR; /* Synthesizer Status Register (SYNSR) @baseaddress + 0x0004 */
union {
vuint32_t R;
struct {
vuint32_t EMODE:1;
vuint32_t CLKCFG:3;
vuint32_t:8;
vuint32_t EPREDIV:4;
vuint32_t:9;
vuint32_t EMFD:7;
} B;
} ESYNCR1; /* Enhanced Synthesizer Control Register 1 (ESYNCR1) @baseaddress + 0x0008 */
union {
vuint32_t R;
struct {
vuint32_t:8;
vuint32_t LOCEN:1;
vuint32_t LOLRE:1;
vuint32_t LOCRE:1;
vuint32_t LOLIRQ:1;
vuint32_t LOCIRQ:1;
vuint32_t:17;
vuint32_t ERFD:2;
} B;
} ESYNCR2; /* Enhanced Synthesizer Control Register 2 (ESYNCR2) @baseaddress + 0x000C */
int32_t FMPLL_reserved0010[2]; /* 0x0010-0x0017 */
union {
vuint32_t R;
struct {
vuint32_t BSY:1;
vuint32_t MODEN:1;
vuint32_t MODSEL:1;
vuint32_t MODPERIOD:13;
vuint32_t:1;
vuint32_t INCSTEP:15;
} B;
} SYNFMMR; /* Synthesizer FM Modulation Register (SYNFMMR) @baseaddress + 0x0018 */
};
/****************************************************************************/
/* MODULE : ECSM */
/****************************************************************************/
struct ECSM_tag {
union { /* Processor core type */
vuint16_t R;
} PCT;
union { /* Platform revision */
vuint16_t R;
} REV;
union { /* AXBS Master Configuration */
vuint16_t R;
} AMC;
union { /* AXBS Slave Configuration */
vuint16_t R;
} ASC;
union { /* IPS Module Configuration */
vuint32_t R;
} IMC;
uint8_t ECSM_reserved000C[3]; /* 0x000C-0x000E */
union { /* Miscellaneous Reset Status Register */
vuint8_t R;
struct {
vuint8_t POR:1;
vuint8_t DIR:1;
vuint8_t SWTR:1;
vuint8_t:5;
} B;
} MRSR;
uint8_t ECSM_reserved0010[3]; /* 0x0010-0x0012 */
union { /* Miscellaneous Wakeup Control */
vuint8_t R;
struct {
vuint8_t ENBWCR:1;
vuint8_t:3;
vuint8_t PRILVL:4;
} B;
} MWCR;
uint32_t ecsm_reserved0014[4]; /* 0x0014 - 0x0023 */
union { /* Miscellaneous User Defined Control */
vuint32_t R;
struct {
vuint32_t:1;
vuint32_t SWSC:1;
vuint32_t:30;
} B;
} MUDCR;
uint32_t ecsm_reserved0028[6]; /* 0x0028 - 0x003C*/
uint8_t ecsm_reserved0040[3]; /* 0x0040 - 0x0042*/
union {
vuint8_t R;
struct {
vuint8_t:2;
vuint8_t ER1BR:1;
vuint8_t EF1BR:1;
vuint8_t:2;
vuint8_t ERNCR:1;
vuint8_t EFNCR:1;
} B;
} ECR; /* ECC Configuration Register @baseaddress + 0x43 */
uint8_t ecsm_reserved0044[3]; /* 0x0044 - 0x0046*/
union {
vuint8_t R;
struct {
vuint8_t:2;
vuint8_t R1BC:1;
vuint8_t F1BC:1;
vuint8_t:2;
vuint8_t RNCE:1;
vuint8_t FNCE:1;
} B;
} ESR; /* ECC Status Register @baseaddress + 0x47 */
uint8_t ecsm_reserved0048[2]; /* 0x0048 - 0x0049*/
union {
vuint16_t R;
struct {
vuint16_t FRCAP:1;
vuint16_t:1;
vuint16_t FRC1BI:1;
vuint16_t FR11BI:1;
vuint16_t:2;
vuint16_t FRCNCI:1;
vuint16_t FR1NCI:1;
vuint16_t:1;
vuint16_t ERRBIT:7;
} B;
} EEGR; /* ECC Error Generation Register @baseaddress + 0x4A */
uint32_t ecsm_reserved004C; /* 0x004C - 0x004F*/
union {
vuint32_t R;
struct {
vuint32_t FEAR:32;
} B;
} FEAR; /* Flash ECC Address Register @baseaddress + 0x50 */
uint16_t ecsm_reserved0054; /* 0x0054 - 0x0055*/
union {
vuint8_t R;
struct {
vuint8_t:4;
vuint8_t FEMR:4;
} B;
} FEMR; /* Flash ECC Master Register @baseaddress + 0x56 */
union {
vuint8_t R;
struct {
vuint8_t WRITE:1;
vuint8_t SIZE:3;
vuint8_t PROT0:1;
vuint8_t PROT1:1;
vuint8_t PROT2:1;
vuint8_t PROT3:1;
} B;
} FEAT; /* Flash ECC Attributes Register @baseaddress + 0x57 */
union {
vuint32_t R;
struct {
vuint32_t FEDH:32;
} B;
} FEDRH; /* Flash ECC Data High Register @baseaddress + 0x58 */
union {
vuint32_t R;
struct {
vuint32_t FEDL:32;
} B;
} FEDRL; /* Flash ECC Data Low Register @baseaddress + 0x5C */
union {
vuint32_t R;
struct {
vuint32_t REAR:32;
} B;
} REAR; /* RAM ECC Address @baseaddress + 0x60 */
uint8_t ecsm_reserved0064; /* 0x0064 - 0x0065*/
union {
vuint8_t R;
struct {
vuint8_t PRESR:8;
} B;
} PRESR; /* RAM ECC Syndrome @baseaddress + 0x65 */
union {
vuint8_t R;
struct {
vuint8_t:4;
vuint8_t REMR:4;
} B;
} REMR; /* RAM ECC Master @baseaddress + 0x66 */
union {
vuint8_t R;
struct {
vuint8_t WRITE:1;
vuint8_t SIZE:3;
vuint8_t PROT0:1;
vuint8_t PROT1:1;
vuint8_t PROT2:1;
vuint8_t PROT3:1;
} B;
} REAT; /* RAM ECC Attributes Register @baseaddress + 0x67 */
union {
vuint32_t R;
struct {
vuint32_t REDH:32;
} B;
} REDRH; /* RAM ECC Data High Register @baseaddress + 0x68 */
union {
vuint32_t R;
struct {
vuint32_t REDL:32;
} B;
} REDRL; /* RAMECC Data Low Register @baseaddress + 0x6C */
};
/****************************************************************************/
/* MODULE : System Timer Module (STM) */
/****************************************************************************/
struct STM_tag {
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t CPS:8;
vuint32_t:6;
vuint32_t FRZ:1;
vuint32_t TEN:1;
} B;
} CR; /* STM Control Register @baseaddress + 0x0000 */
union {
vuint32_t R;
} CNT; /* STM Count Register @baseaddress + 0x0004 */
uint32_t stm_reserved0008[2]; /* 0x0008 - 0x000F */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CEN:1;
} B;
} CCR0; /* STM Channel Control Register @baseaddress + 0x0010 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CIF:1;
} B;
} CIR0; /* STM Channel Interrupt Register @baseaddress + 0x0014 */
union {
vuint32_t R;
struct {
vuint32_t CMP;
} B;
} CMP0; /* STM Channel Compare Register @baseaddress + 0x0018 */
uint32_t stm_reserved001C; /* 0x001C - 0x001F*/
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CEN:1;
} B;
} CCR1; /* STM Channel Control Register @baseaddress + 0x0020 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CIF:1;
} B;
} CIR1; /* STM Channel Interrupt Register @baseaddress + 0x0024 */
union {
vuint32_t R;
struct {
vuint32_t CMP;
} B;
} CMP1; /* STM Channel Compare Register @baseaddress + 0x0028 */
uint32_t stm_reserved002C; /* 0x002C - 0x002F */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CEN:1;
} B;
} CCR2; /* STM Channel Control Register @baseaddress + 0x0030 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CIF:1;
} B;
} CIR2; /* STM Channel Interrupt Register @baseaddress + 0x0034 */
union {
vuint32_t R;
struct {
vuint32_t CMP;
} B;
} CMP2; /* STM Channel Compare Register @baseaddress + 0x0038 */
uint32_t stm_reserved003C; /* 0x003C - 0x003F */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CEN:1;
} B;
} CCR3; /* STM Channel Control Register @baseaddress + 0x0040 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t CIF:1;
} B;
} CIR3; /* STM Channel Interrupt Register @baseaddress + 0x0044 */
union {
vuint32_t R;
struct {
vuint32_t CMP;
} B;
} CMP3; /* STM Channel Compare Register @baseaddress + 0x0048 */
uint32_t stm_reserved004C; /* 0x004C - 0x004F */
};
/****************************************************************************/
/* MODULE : SWT */
/****************************************************************************/
struct SWT_tag {
union {
vuint32_t R;
struct {
vuint32_t MAP0:1;
vuint32_t MAP1:1;
vuint32_t MAP2:1;
vuint32_t MAP3:1;
vuint32_t MAP4:1;
vuint32_t MAP5:1;
vuint32_t MAP6:1;
vuint32_t MAP7:1;
vuint32_t:14;
vuint32_t KEY:1;
vuint32_t RIA:1;
vuint32_t WND:1;
vuint32_t ITR:1;
vuint32_t HLK:1;
vuint32_t SLK:1;
vuint32_t CSL:1;
vuint32_t STP:1;
vuint32_t FRZ:1;
vuint32_t WEN:1;
} B;
} MCR; /* Module Configuration Register @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t TIF:1;
} B;
} IR; /* Interrupt register @baseaddress + 0x04 */
union {
vuint32_t R;
struct {
vuint32_t WTO:32;
} B;
} TO; /* Timeout register @baseaddress + 0x08 */
union {
vuint32_t R;
struct {
vuint32_t WST:32;
} B;
} WN; /* Window register @baseaddress + 0x0C */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t WSC:16;
} B;
} SR; /* Service register @baseaddress + 0x10 */
union {
vuint32_t R;
struct {
vuint32_t CNT:32;
} B;
} CO; /* Counter output register @baseaddress + 0x14 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t SK:16;
} B;
} SK; /* Service key register @baseaddress + 0x18 */
};
/****************************************************************************/
/* MODULE : EMIOS */
/****************************************************************************/
struct EMIOS_tag {
union {
vuint32_t R;
struct {
vuint32_t DOZEEN:1;
vuint32_t MDIS:1;
vuint32_t FRZ:1;
vuint32_t GTBE:1;
vuint32_t ETB:1;
vuint32_t GPREN:1;
vuint32_t:6;
vuint32_t SRV:4;
vuint32_t GPRE:8;
vuint32_t:8;
} B;
} MCR; /* Module Configuration Register @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t:8;
vuint32_t F23:1;
vuint32_t F22:1;
vuint32_t F21:1;
vuint32_t F20:1;
vuint32_t F19:1;
vuint32_t F18:1;
vuint32_t F17:1;
vuint32_t F16:1;
vuint32_t F15:1;
vuint32_t F14:1;
vuint32_t F13:1;
vuint32_t F12:1;
vuint32_t F11:1;
vuint32_t F10:1;
vuint32_t F9:1;
vuint32_t F8:1;
vuint32_t F7:1;
vuint32_t F6:1;
vuint32_t F5:1;
vuint32_t F4:1;
vuint32_t F3:1;
vuint32_t F2:1;
vuint32_t F1:1;
vuint32_t F0:1;
} B;
} GFR; /* Global FLAG Register @baseaddress + 0x04 */
union {
vuint32_t R;
struct {
vuint32_t:8;
vuint32_t OU23:1;
vuint32_t OU22:1;
vuint32_t OU21:1;
vuint32_t OU20:1;
vuint32_t OU19:1;
vuint32_t OU18:1;
vuint32_t OU17:1;
vuint32_t OU16:1;
vuint32_t OU15:1;
vuint32_t OU14:1;
vuint32_t OU13:1;
vuint32_t OU12:1;
vuint32_t OU11:1;
vuint32_t OU10:1;
vuint32_t OU9:1;
vuint32_t OU8:1;
vuint32_t OU7:1;
vuint32_t OU6:1;
vuint32_t OU5:1;
vuint32_t OU4:1;
vuint32_t OU3:1;
vuint32_t OU2:1;
vuint32_t OU1:1;
vuint32_t OU0:1;
} B;
} OUDR; /* Output Update Disable Register @baseaddress + 0x08 */
union {
vuint32_t R;
struct {
vuint32_t:8; /* */
vuint32_t CHDIS23:1; /* Enable Channel [n] bit */
vuint32_t CHDIS22:1; /* Enable Channel [n] bit */
vuint32_t CHDIS21:1; /* Enable Channel [n] bit */
vuint32_t CHDIS20:1; /* Enable Channel [n] bit */
vuint32_t CHDIS19:1; /* Enable Channel [n] bit */
vuint32_t CHDIS18:1; /* Enable Channel [n] bit */
vuint32_t CHDIS17:1; /* Enable Channel [n] bit */
vuint32_t CHDIS16:1; /* Enable Channel [n] bit */
vuint32_t CHDIS15:1; /* Enable Channel [n] bit */
vuint32_t CHDIS14:1; /* Enable Channel [n] bit */
vuint32_t CHDIS13:1; /* Enable Channel [n] bit */
vuint32_t CHDIS12:1; /* Enable Channel [n] bit */
vuint32_t CHDIS11:1; /* Enable Channel [n] bit */
vuint32_t CHDIS10:1; /* Enable Channel [n] bit */
vuint32_t CHDIS9:1; /* Enable Channel [n] bit */
vuint32_t CHDIS8:1; /* Enable Channel [n] bit */
vuint32_t CHDIS7:1; /* Enable Channel [n] bit */
vuint32_t CHDIS6:1; /* Enable Channel [n] bit */
vuint32_t CHDIS5:1; /* Enable Channel [n] bit */
vuint32_t CHDIS4:1; /* Enable Channel [n] bit */
vuint32_t CHDIS3:1; /* Enable Channel [n] bit */
vuint32_t CHDIS2:1; /* Enable Channel [n] bit */
vuint32_t CHDIS1:1; /* Enable Channel [n] bit */
vuint32_t CHDIS0:1; /* Enable Channel [n] bit */
} B;
} UCDIS; /* Disable Channel (EMIOSUCDIS) @baseaddress + 0x0C */
int32_t EMIOS_Reserved_0010[4]; /* 0x0010 - 0x001F */
struct {
union {
vuint32_t R;
struct {
vuint32_t A;
}B;
} CADR; /* Channel A Data Register */
union {
vuint32_t R;
struct {
vuint32_t B;
}B;
} CBDR; /* Channel B Data Register */
union {
vuint32_t R;
struct {
vuint32_t C;
}B;
} CCNTR; /* Channel Counter Register */
union {
vuint32_t R;
struct {
vuint32_t FREN:1;
vuint32_t ODIS:1;
vuint32_t ODISSL:2;
vuint32_t UCPRE:2;
vuint32_t UCPREN:1;
vuint32_t DMA:1;
vuint32_t:1;
vuint32_t IF:4;
vuint32_t FCK:1;
vuint32_t FEN:1;
vuint32_t:3;
vuint32_t FORCMA:1;
vuint32_t FORCMB:1;
vuint32_t:1;
vuint32_t BSL:2;
vuint32_t EDSEL:1;
vuint32_t EDPOL:1;
vuint32_t MODE:7;
} B;
} CCR; /* Channel Control Register */
union {
vuint32_t R;
struct {
vuint32_t OVR:1;
vuint32_t:15;
vuint32_t OVFL:1;
vuint32_t:12;
vuint32_t UCIN:1;
vuint32_t UCOUT:1;
vuint32_t FLAG:1;
} B;
} CSR; /* Channel Status Register */
union {
vuint32_t R;
struct {
vuint32_t ALTA;
} B;
} ALTA; /* Alternate Channel A Data Register */
uint32_t emios_channel_reserved[2];
} CH[24];
};
/****************************************************************************/
/* MODULE : ETPU */
/****************************************************************************/
struct ETPU_tag {
union {
vuint32_t R;
struct {
vuint32_t GEC:1; /* Global Exception Clear */
vuint32_t SDMERR:1; /* */
vuint32_t WDTOA:1; /* */
vuint32_t WDTOB:1; /* */
vuint32_t MGE1:1; /* */
vuint32_t MGE2:1; /* */
vuint32_t ILF1:1; /* Invalid instruction flag eTPU A. */
vuint32_t ILF2:1; /* Invalid instruction flag eTPU B. */
vuint32_t SCMERR:1; /* . */
vuint32_t:2; /* */
vuint32_t SCMSIZE:5; /* Shared Code Memory size */
vuint32_t:4; /* */
vuint32_t SCMMISC:1; /* SCM MISC Flag */
vuint32_t SCMMISF:1; /* SCM MISC Flag */
vuint32_t SCMMISEN:1; /* SCM MISC Enable */
vuint32_t:2; /* */
vuint32_t VIS:1; /* SCM Visability */
vuint32_t:5; /* */
vuint32_t GTBE:1; /* Global Time Base Enable */
} B;
} MCR; /* eTPU module configuration register@baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t STS:1; /* Start Status bit */
vuint32_t CTBASE:5; /* Channel Transfer Base */
vuint32_t PBASE:10; /* Parameter Buffer Base Address */
vuint32_t PWIDTH:1; /* Parameter Width */
vuint32_t PARAM0:7; /* Channel Parameter 0 */
vuint32_t WR:1; /* */
vuint32_t PARAM1:7; /* Channel Parameter 1 */
} B;
} CDCR; /* eTPU coherent dual-parameter controller register@baseaddress + 0x04 */
vuint32_t ETPU_reserved_0008; /* 0x0008 - 0x000B */
union {
vuint32_t R;
struct {
vuint32_t ETPUMISCCMP:32; /* Expected multiple input signature calculator compare register value. */
} B;
} MISCCMPR; /* eTPU MISC Compare Register@baseaddress + 0x0c */
union {
vuint32_t R;
struct {
vuint32_t ETPUSCMOFFDATA:32; /* SCM Off-range read data value. */
} B;
} SCMOFFDATAR; /* eTPU SCM Off-Range Data Register@baseaddress + 0x10 */
union {
vuint32_t R;
struct {
vuint32_t FEND:1; /* Force END */
vuint32_t MDIS:1; /* Low power Stop */
vuint32_t:1; /* */
vuint32_t STF:1; /* Stop Flag */
vuint32_t:4; /* */
vuint32_t HLTF:1; /* Halt Mode Flag */
vuint32_t:3; /* */
vuint32_t FCSS:1;
vuint32_t FPSCK:3; /* Filter Prescaler Clock Control */
vuint32_t CDFC:2; /* */
vuint32_t:1; /* */
vuint32_t ERBA:5; /* */
vuint32_t SPPDIS:1; /* */
vuint32_t:2; /* */
vuint32_t ETB:5; /* Entry Table Base */
} B;
} ECR_A; /* eTPU Engine Configuration Register (ETPUA_ECR)@baseaddress + 0x14 */
vuint32_t ETPU_reserved_0018[2]; /* 0x0018 - 0x001B */
union {
vuint32_t R;
struct {
vuint32_t TCR2CTL:3; /* TCR2 Clock/Gate Control */
vuint32_t TCRCF:2; /* TCRCLK Signal Filter Control */
vuint32_t AM:2; /* Angle Mode */
vuint32_t:3; /* */
vuint32_t TCR2P:6; /* TCR2 Prescaler Control */
vuint32_t TCR1CTL:2; /* TCR1 Clock/Gate Control */
vuint32_t TCR1CS:1; /* */
vuint32_t:5; /* */
vuint32_t TCR1P:8; /* TCR1 Prescaler Control */
} B;
} TBCR_A; /* eTPU Time Base Configuration Register (ETPU_TBCR)@baseaddress + 0x20 */
/* offset 0x0024 */
union {
vuint32_t R;
struct {
vuint32_t:8; /* */
vuint32_t TCR1:24; /* TCR1 value. Used on matches and captures. For more information, see the eTPU reference manual. */
} B;
} TB1R_A; /* eTPU Time Base 1 (TCR1) Visibility Register (ETPU_TB1R)@baseaddress + 0x24 */
/* offset 0x0028 */
union {
vuint32_t R;
struct {
vuint32_t:8; /* */
vuint32_t TCR2:24; /* TCR2 value. Used on matches and captures. For information on TCR2, see the eTPU reference manual. */
} B;
} TB2R_A; /* eTPU Time Base 2 (TCR2) Visibility Register (ETPU_TB2R)@baseaddress + 0x28 */
union {
vuint32_t R;
struct {
vuint32_t REN1:1; /* Resource Enable TCR1 */
vuint32_t RSC1:1; /* Resource Control TCR1 */
vuint32_t:2; /* */
vuint32_t SERVER_ID1:4; /* */
vuint32_t:4; /* */
vuint32_t SRV1:4; /* Resource Server Slot */
vuint32_t REN2:1; /* Resource Enable TCR2 */
vuint32_t RSC2:1; /* Resource Control TCR2 */
vuint32_t:2; /* */
vuint32_t SERVER_ID2:4; /* */
vuint32_t:4; /* */
vuint32_t SRV2:4; /* Resource Server Slot */
} B;
} REDCR_A; /* STAC Bus Configuration Register (ETPU_STACCR)@baseaddress + 0x2c */
vuint32_t ETPU_reserved_0030[12]; /* 0x0030 - 0x005F */
union {
vuint32_t R;
struct {
vuint32_t WDM:2;
vuint32_t:14;
vuint32_t WDCNT:16;
} B;
} WDTR_A; /* ETPU1 WDTR Register @baseaddress + 0x60 */
vuint32_t ETPU1_reserved_0064; /* 0x0064 - 0x0067 */
union {
vuint32_t R;
struct {
vuint32_t IDLE_CNT:31;
vuint32_t ICLR:1;
} B;
} IDLE_A; /* ETPU1 IDLE Register @baseaddress + 0x68 */
vuint32_t ETPU_reserved_006C[101]; /* 0x006C - 0x01FF */
union {
vuint32_t R;
struct {
vuint32_t CIS31:1; /* Channel 31 Interrut Status */
vuint32_t CIS30:1; /* Channel 30 Interrut Status */
vuint32_t CIS29:1; /* Channel 29 Interrut Status */
vuint32_t CIS28:1; /* Channel 28 Interrut Status */
vuint32_t CIS27:1; /* Channel 27 Interrut Status */
vuint32_t CIS26:1; /* Channel 26 Interrut Status */
vuint32_t CIS25:1; /* Channel 25 Interrut Status */
vuint32_t CIS24:1; /* Channel 24 Interrut Status */
vuint32_t CIS23:1; /* Channel 23 Interrut Status */
vuint32_t CIS22:1; /* Channel 22 Interrut Status */
vuint32_t CIS21:1; /* Channel 21 Interrut Status */
vuint32_t CIS20:1; /* Channel 20 Interrut Status */
vuint32_t CIS19:1; /* Channel 19 Interrut Status */
vuint32_t CIS18:1; /* Channel 18 Interrut Status */
vuint32_t CIS17:1; /* Channel 17 Interrut Status */
vuint32_t CIS16:1; /* Channel 16 Interrut Status */
vuint32_t CIS15:1; /* Channel 15 Interrut Status */
vuint32_t CIS14:1; /* Channel 14 Interrut Status */
vuint32_t CIS13:1; /* Channel 13 Interrut Status */
vuint32_t CIS12:1; /* Channel 12 Interrut Status */
vuint32_t CIS11:1; /* Channel 11 Interrut Status */
vuint32_t CIS10:1; /* Channel 10 Interrut Status */
vuint32_t CIS9:1; /* Channel 9 Interrut Status */
vuint32_t CIS8:1; /* Channel 8 Interrut Status */
vuint32_t CIS7:1; /* Channel 7 Interrut Status */
vuint32_t CIS6:1; /* Channel 6 Interrut Status */
vuint32_t CIS5:1; /* Channel 5 Interrut Status */
vuint32_t CIS4:1; /* Channel 4 Interrut Status */
vuint32_t CIS3:1; /* Channel 3 Interrut Status */
vuint32_t CIS2:1; /* Channel 2 Interrut Status */
vuint32_t CIS1:1; /* Channel 1 Interrut Status */
vuint32_t CIS0:1; /* Channel 0 Interrut Status */
} B;
} CISR_A; /* eTPU Channel Interrupt Status Register (ETPU_CISR)@baseaddress + 0x200 */
int32_t ETPU_reserved_0204[3]; /* 0x0204 - 0x20F */
union {
vuint32_t R;
struct {
vuint32_t DTRS31:1; /* Channel 31 Data Transfer Request Status */
vuint32_t DTRS30:1; /* Channel 30 Data Transfer Request Status */
vuint32_t DTRS29:1; /* Channel 29 Data Transfer Request Status */
vuint32_t DTRS28:1; /* Channel 28 Data Transfer Request Status */
vuint32_t DTRS27:1; /* Channel 27 Data Transfer Request Status */
vuint32_t DTRS26:1; /* Channel 26 Data Transfer Request Status */
vuint32_t DTRS25:1; /* Channel 25 Data Transfer Request Status */
vuint32_t DTRS24:1; /* Channel 24 Data Transfer Request Status */
vuint32_t DTRS23:1; /* Channel 23 Data Transfer Request Status */
vuint32_t DTRS22:1; /* Channel 22 Data Transfer Request Status */
vuint32_t DTRS21:1; /* Channel 21 Data Transfer Request Status */
vuint32_t DTRS20:1; /* Channel 20 Data Transfer Request Status */
vuint32_t DTRS19:1; /* Channel 19 Data Transfer Request Status */
vuint32_t DTRS18:1; /* Channel 18 Data Transfer Request Status */
vuint32_t DTRS17:1; /* Channel 17 Data Transfer Request Status */
vuint32_t DTRS16:1; /* Channel 16 Data Transfer Request Status */
vuint32_t DTRS15:1; /* Channel 15 Data Transfer Request Status */
vuint32_t DTRS14:1; /* Channel 14 Data Transfer Request Status */
vuint32_t DTRS13:1; /* Channel 13 Data Transfer Request Status */
vuint32_t DTRS12:1; /* Channel 12 Data Transfer Request Status */
vuint32_t DTRS11:1; /* Channel 11 Data Transfer Request Status */
vuint32_t DTRS10:1; /* Channel 10 Data Transfer Request Status */
vuint32_t DTRS9:1; /* Channel 9 Data Transfer Request Status */
vuint32_t DTRS8:1; /* Channel 8 Data Transfer Request Status */
vuint32_t DTRS7:1; /* Channel 7 Data Transfer Request Status */
vuint32_t DTRS6:1; /* Channel 6 Data Transfer Request Status */
vuint32_t DTRS5:1; /* Channel 5 Data Transfer Request Status */
vuint32_t DTRS4:1; /* Channel 4 Data Transfer Request Status */
vuint32_t DTRS3:1; /* Channel 3 Data Transfer Request Status */
vuint32_t DTRS2:1; /* Channel 2 Data Transfer Request Status */
vuint32_t DTRS1:1; /* Channel 1 Data Transfer Request Status */
vuint32_t DTRS0:1; /* Channel 0 Data Transfer Request Status */
} B;
} CDTRSR_A; /* eTPU Channel Data Transfer Request Status Register (ETPU_CDTRSR) @baseaddress + 0x210 */
int32_t ETPU_reserved_0214[3]; /* 0x0214 - 0x021F */
union {
vuint32_t R;
struct {
vuint32_t CIOS31:1; /* Channel 31 Interruput Overflow Status */
vuint32_t CIOS30:1; /* Channel 30 Interruput Overflow Status */
vuint32_t CIOS29:1; /* Channel 29 Interruput Overflow Status */
vuint32_t CIOS28:1; /* Channel 28 Interruput Overflow Status */
vuint32_t CIOS27:1; /* Channel 27 Interruput Overflow Status */
vuint32_t CIOS26:1; /* Channel 26 Interruput Overflow Status */
vuint32_t CIOS25:1; /* Channel 25 Interruput Overflow Status */
vuint32_t CIOS24:1; /* Channel 24 Interruput Overflow Status */
vuint32_t CIOS23:1; /* Channel 23 Interruput Overflow Status */
vuint32_t CIOS22:1; /* Channel 22 Interruput Overflow Status */
vuint32_t CIOS21:1; /* Channel 21 Interruput Overflow Status */
vuint32_t CIOS20:1; /* Channel 20 Interruput Overflow Status */
vuint32_t CIOS19:1; /* Channel 19 Interruput Overflow Status */
vuint32_t CIOS18:1; /* Channel 18 Interruput Overflow Status */
vuint32_t CIOS17:1; /* Channel 17 Interruput Overflow Status */
vuint32_t CIOS16:1; /* Channel 16 Interruput Overflow Status */
vuint32_t CIOS15:1; /* Channel 15 Interruput Overflow Status */
vuint32_t CIOS14:1; /* Channel 14 Interruput Overflow Status */
vuint32_t CIOS13:1; /* Channel 13 Interruput Overflow Status */
vuint32_t CIOS12:1; /* Channel 12 Interruput Overflow Status */
vuint32_t CIOS11:1; /* Channel 11 Interruput Overflow Status */
vuint32_t CIOS10:1; /* Channel 10 Interruput Overflow Status */
vuint32_t CIOS9:1; /* Channel 9 Interruput Overflow Status */
vuint32_t CIOS8:1; /* Channel 8 Interruput Overflow Status */
vuint32_t CIOS7:1; /* Channel 7 Interruput Overflow Status */
vuint32_t CIOS6:1; /* Channel 6 Interruput Overflow Status */
vuint32_t CIOS5:1; /* Channel 5 Interruput Overflow Status */
vuint32_t CIOS4:1; /* Channel 4 Interruput Overflow Status */
vuint32_t CIOS3:1; /* Channel 3 Interruput Overflow Status */
vuint32_t CIOS2:1; /* Channel 2 Interruput Overflow Status */
vuint32_t CIOS1:1; /* Channel 1 Interruput Overflow Status */
vuint32_t CIOS0:1; /* Channel 0 Interruput Overflow Status */
} B;
} CIOSR_A; /* eTPU Channel Interrupt Overflow Status Register (ETPU_CIOSR)@baseaddress + 0x220 */
int32_t ETPU_reserved_0224[3]; /* 0x0224 - 0x022F */
union {
vuint32_t R;
struct {
vuint32_t DTROS31:1; /* Channel 31 Data Transfer Overflow Status */
vuint32_t DTROS30:1; /* Channel 30 Data Transfer Overflow Status */
vuint32_t DTROS29:1; /* Channel 29 Data Transfer Overflow Status */
vuint32_t DTROS28:1; /* Channel 28 Data Transfer Overflow Status */
vuint32_t DTROS27:1; /* Channel 27 Data Transfer Overflow Status */
vuint32_t DTROS26:1; /* Channel 26 Data Transfer Overflow Status */
vuint32_t DTROS25:1; /* Channel 25 Data Transfer Overflow Status */
vuint32_t DTROS24:1; /* Channel 24 Data Transfer Overflow Status */
vuint32_t DTROS23:1; /* Channel 23 Data Transfer Overflow Status */
vuint32_t DTROS22:1; /* Channel 22 Data Transfer Overflow Status */
vuint32_t DTROS21:1; /* Channel 21 Data Transfer Overflow Status */
vuint32_t DTROS20:1; /* Channel 20 Data Transfer Overflow Status */
vuint32_t DTROS19:1; /* Channel 19 Data Transfer Overflow Status */
vuint32_t DTROS18:1; /* Channel 18 Data Transfer Overflow Status */
vuint32_t DTROS17:1; /* Channel 17 Data Transfer Overflow Status */
vuint32_t DTROS16:1; /* Channel 16 Data Transfer Overflow Status */
vuint32_t DTROS15:1; /* Channel 15 Data Transfer Overflow Status */
vuint32_t DTROS14:1; /* Channel 14 Data Transfer Overflow Status */
vuint32_t DTROS13:1; /* Channel 13 Data Transfer Overflow Status */
vuint32_t DTROS12:1; /* Channel 12 Data Transfer Overflow Status */
vuint32_t DTROS11:1; /* Channel 11 Data Transfer Overflow Status */
vuint32_t DTROS10:1; /* Channel 10 Data Transfer Overflow Status */
vuint32_t DTROS9:1; /* Channel 9 Data Transfer Overflow Status */
vuint32_t DTROS8:1; /* Channel 8 Data Transfer Overflow Status */
vuint32_t DTROS7:1; /* Channel 7 Data Transfer Overflow Status */
vuint32_t DTROS6:1; /* Channel 6 Data Transfer Overflow Status */
vuint32_t DTROS5:1; /* Channel 5 Data Transfer Overflow Status */
vuint32_t DTROS4:1; /* Channel 4 Data Transfer Overflow Status */
vuint32_t DTROS3:1; /* Channel 3 Data Transfer Overflow Status */
vuint32_t DTROS2:1; /* Channel 2 Data Transfer Overflow Status */
vuint32_t DTROS1:1; /* Channel 1 Data Transfer Overflow Status */
vuint32_t DTROS0:1; /* Channel 0 Data Transfer Overflow Status */
} B;
} CDTROSR_A; /* eTPU Channel Data Transfer Request Overflow Status Register@baseaddress + 0x230 */
int32_t ETPU_reserved_0234[3]; /* 0x0234 - 0x023F */
union {
vuint32_t R;
struct {
vuint32_t CIE31:1; /* Channel 31 Interruput Enable */
vuint32_t CIE30:1; /* Channel 30 Interruput Enable */
vuint32_t CIE29:1; /* Channel 29 Interruput Enable */
vuint32_t CIE28:1; /* Channel 28 Interruput Enable */
vuint32_t CIE27:1; /* Channel 27 Interruput Enable */
vuint32_t CIE26:1; /* Channel 26 Interruput Enable */
vuint32_t CIE25:1; /* Channel 25 Interruput Enable */
vuint32_t CIE24:1; /* Channel 24 Interruput Enable */
vuint32_t CIE23:1; /* Channel 23 Interruput Enable */
vuint32_t CIE22:1; /* Channel 22 Interruput Enable */
vuint32_t CIE21:1; /* Channel 21 Interruput Enable */
vuint32_t CIE20:1; /* Channel 20 Interruput Enable */
vuint32_t CIE19:1; /* Channel 19 Interruput Enable */
vuint32_t CIE18:1; /* Channel 18 Interruput Enable */
vuint32_t CIE17:1; /* Channel 17 Interruput Enable */
vuint32_t CIE16:1; /* Channel 16 Interruput Enable */
vuint32_t CIE15:1; /* Channel 15 Interruput Enable */
vuint32_t CIE14:1; /* Channel 14 Interruput Enable */
vuint32_t CIE13:1; /* Channel 13 Interruput Enable */
vuint32_t CIE12:1; /* Channel 12 Interruput Enable */
vuint32_t CIE11:1; /* Channel 11 Interruput Enable */
vuint32_t CIE10:1; /* Channel 10 Interruput Enable */
vuint32_t CIE9:1; /* Channel 9 Interruput Enable */
vuint32_t CIE8:1; /* Channel 8 Interruput Enable */
vuint32_t CIE7:1; /* Channel 7 Interruput Enable */
vuint32_t CIE6:1; /* Channel 6 Interruput Enable */
vuint32_t CIE5:1; /* Channel 5 Interruput Enable */
vuint32_t CIE4:1; /* Channel 4 Interruput Enable */
vuint32_t CIE3:1; /* Channel 3 Interruput Enable */
vuint32_t CIE2:1; /* Channel 2 Interruput Enable */
vuint32_t CIE1:1; /* Channel 1 Interruput Enable */
vuint32_t CIE0:1; /* Channel 0 Interruput Enable */
} B;
} CIER_A; /* eTPU Channel Interrupt Enable Register (ETPU_CIER)@baseaddress + 0x240 */
int32_t ETPU_reserved_0244[3]; /* 0x0244 - 0x25F */
union {
vuint32_t R;
struct {
vuint32_t DTRE31:1; /* Channel 31 Data Transfer Request Enable */
vuint32_t DTRE30:1; /* Channel 30 Data Transfer Request Enable */
vuint32_t DTRE29:1; /* Channel 29 Data Transfer Request Enable */
vuint32_t DTRE28:1; /* Channel 28 Data Transfer Request Enable */
vuint32_t DTRE27:1; /* Channel 27 Data Transfer Request Enable */
vuint32_t DTRE26:1; /* Channel 26 Data Transfer Request Enable */
vuint32_t DTRE25:1; /* Channel 25 Data Transfer Request Enable */
vuint32_t DTRE24:1; /* Channel 24 Data Transfer Request Enable */
vuint32_t DTRE23:1; /* Channel 23 Data Transfer Request Enable */
vuint32_t DTRE22:1; /* Channel 22 Data Transfer Request Enable */
vuint32_t DTRE21:1; /* Channel 21 Data Transfer Request Enable */
vuint32_t DTRE20:1; /* Channel 20 Data Transfer Request Enable */
vuint32_t DTRE19:1; /* Channel 19 Data Transfer Request Enable */
vuint32_t DTRE18:1; /* Channel 18 Data Transfer Request Enable */
vuint32_t DTRE17:1; /* Channel 17 Data Transfer Request Enable */
vuint32_t DTRE16:1; /* Channel 16 Data Transfer Request Enable */
vuint32_t DTRE15:1; /* Channel 15 Data Transfer Request Enable */
vuint32_t DTRE14:1; /* Channel 14 Data Transfer Request Enable */
vuint32_t DTRE13:1; /* Channel 13 Data Transfer Request Enable */
vuint32_t DTRE12:1; /* Channel 12 Data Transfer Request Enable */
vuint32_t DTRE11:1; /* Channel 11 Data Transfer Request Enable */
vuint32_t DTRE10:1; /* Channel 10 Data Transfer Request Enable */
vuint32_t DTRE9:1; /* Channel 9 Data Transfer Request Enable */
vuint32_t DTRE8:1; /* Channel 8 Data Transfer Request Enable */
vuint32_t DTRE7:1; /* Channel 7 Data Transfer Request Enable */
vuint32_t DTRE6:1; /* Channel 6 Data Transfer Request Enable */
vuint32_t DTRE5:1; /* Channel 5 Data Transfer Request Enable */
vuint32_t DTRE4:1; /* Channel 4 Data Transfer Request Enable */
vuint32_t DTRE3:1; /* Channel 3 Data Transfer Request Enable */
vuint32_t DTRE2:1; /* Channel 2 Data Transfer Request Enable */
vuint32_t DTRE1:1; /* Channel 1 Data Transfer Request Enable */
vuint32_t DTRE0:1; /* Channel 0 Data Transfer Request Enable */
} B;
} CDTRER_A; /* eTPU Channel Data Transfer Request Enable Register (ETPU_CDTRER)@baseaddress + 0x250 */
int32_t ETPU_reserved_0254[3]; /* 0x0254 - 0x025F */
union {
vuint32_t R;
struct {
vuint32_t WDS31:1; /* Channel 31 Data Transfer Request Enable */
vuint32_t WDS30:1; /* Channel 30 Data Transfer Request Enable */
vuint32_t WDS29:1; /* Channel 29 Data Transfer Request Enable */
vuint32_t WDS28:1; /* Channel 28 Data Transfer Request Enable */
vuint32_t WDS27:1; /* Channel 27 Data Transfer Request Enable */
vuint32_t WDS26:1; /* Channel 26 Data Transfer Request Enable */
vuint32_t WDS25:1; /* Channel 25 Data Transfer Request Enable */
vuint32_t WDS24:1; /* Channel 24 Data Transfer Request Enable */
vuint32_t WDS23:1; /* Channel 23 Data Transfer Request Enable */
vuint32_t WDS22:1; /* Channel 22 Data Transfer Request Enable */
vuint32_t WDS21:1; /* Channel 21 Data Transfer Request Enable */
vuint32_t WDS20:1; /* Channel 20 Data Transfer Request Enable */
vuint32_t WDS19:1; /* Channel 19 Data Transfer Request Enable */
vuint32_t WDS18:1; /* Channel 18 Data Transfer Request Enable */
vuint32_t WDS17:1; /* Channel 17 Data Transfer Request Enable */
vuint32_t WDS16:1; /* Channel 16 Data Transfer Request Enable */
vuint32_t WDS15:1; /* Channel 15 Data Transfer Request Enable */
vuint32_t WDS14:1; /* Channel 14 Data Transfer Request Enable */
vuint32_t WDS13:1; /* Channel 13 Data Transfer Request Enable */
vuint32_t WDS12:1; /* Channel 12 Data Transfer Request Enable */
vuint32_t WDS11:1; /* Channel 11 Data Transfer Request Enable */
vuint32_t WDS10:1; /* Channel 10 Data Transfer Request Enable */
vuint32_t WDS9:1; /* Channel 9 Data Transfer Request Enable */
vuint32_t WDS8:1; /* Channel 8 Data Transfer Request Enable */
vuint32_t WDS7:1; /* Channel 7 Data Transfer Request Enable */
vuint32_t WDS6:1; /* Channel 6 Data Transfer Request Enable */
vuint32_t WDS5:1; /* Channel 5 Data Transfer Request Enable */
vuint32_t WDS4:1; /* Channel 4 Data Transfer Request Enable */
vuint32_t WDS3:1; /* Channel 3 Data Transfer Request Enable */
vuint32_t WDS2:1; /* Channel 2 Data Transfer Request Enable */
vuint32_t WDS1:1; /* Channel 1 Data Transfer Request Enable */
vuint32_t WDS0:1; /* Channel 0 Data Transfer Request Enable */
} B;
} WDSR_A; /* ETPUWDSR - eTPU Watchdog Status Register @baseaddress + 0x260 */
int32_t ETPU_reserved_0264[7]; /* 0x0264 - 0x027F */
union {
vuint32_t R;
struct {
vuint32_t SR31:1; /* Channel 31 Data Transfer Request Enable */
vuint32_t SR30:1; /* Channel 30 Data Transfer Request Enable */
vuint32_t SR29:1; /* Channel 29 Data Transfer Request Enable */
vuint32_t SR28:1; /* Channel 28 Data Transfer Request Enable */
vuint32_t SR27:1; /* Channel 27 Data Transfer Request Enable */
vuint32_t SR26:1; /* Channel 26 Data Transfer Request Enable */
vuint32_t SR25:1; /* Channel 25 Data Transfer Request Enable */
vuint32_t SR24:1; /* Channel 24 Data Transfer Request Enable */
vuint32_t SR23:1; /* Channel 23 Data Transfer Request Enable */
vuint32_t SR22:1; /* Channel 22 Data Transfer Request Enable */
vuint32_t SR21:1; /* Channel 21 Data Transfer Request Enable */
vuint32_t SR20:1; /* Channel 20 Data Transfer Request Enable */
vuint32_t SR19:1; /* Channel 19 Data Transfer Request Enable */
vuint32_t SR18:1; /* Channel 18 Data Transfer Request Enable */
vuint32_t SR17:1; /* Channel 17 Data Transfer Request Enable */
vuint32_t SR16:1; /* Channel 16 Data Transfer Request Enable */
vuint32_t SR15:1; /* Channel 15 Data Transfer Request Enable */
vuint32_t SR14:1; /* Channel 14 Data Transfer Request Enable */
vuint32_t SR13:1; /* Channel 13 Data Transfer Request Enable */
vuint32_t SR12:1; /* Channel 12 Data Transfer Request Enable */
vuint32_t SR11:1; /* Channel 11 Data Transfer Request Enable */
vuint32_t SR10:1; /* Channel 10 Data Transfer Request Enable */
vuint32_t SR9:1; /* Channel 9 Data Transfer Request Enable */
vuint32_t SR8:1; /* Channel 8 Data Transfer Request Enable */
vuint32_t SR7:1; /* Channel 7 Data Transfer Request Enable */
vuint32_t SR6:1; /* Channel 6 Data Transfer Request Enable */
vuint32_t SR5:1; /* Channel 5 Data Transfer Request Enable */
vuint32_t SR4:1; /* Channel 4 Data Transfer Request Enable */
vuint32_t SR3:1; /* Channel 3 Data Transfer Request Enable */
vuint32_t SR2:1; /* Channel 2 Data Transfer Request Enable */
vuint32_t SR1:1; /* Channel 1 Data Transfer Request Enable */
vuint32_t SR0:1; /* Channel 0 Data Transfer Request Enable */
} B;
} CPSSR_A; /* ETPUCPSSR - eTPU Channel Pending Service Status Register @baseaddress + 0x280 */
int32_t ETPU_reserved_0x0284[3]; /* 0x0284 - 0x028F */
union {
vuint32_t R;
struct {
vuint32_t SS31:1; /* Channel 31 Data Transfer Request Enable */
vuint32_t SS30:1; /* Channel 30 Data Transfer Request Enable */
vuint32_t SS29:1; /* Channel 29 Data Transfer Request Enable */
vuint32_t SS28:1; /* Channel 28 Data Transfer Request Enable */
vuint32_t SS27:1; /* Channel 27 Data Transfer Request Enable */
vuint32_t SS26:1; /* Channel 26 Data Transfer Request Enable */
vuint32_t SS25:1; /* Channel 25 Data Transfer Request Enable */
vuint32_t SS24:1; /* Channel 24 Data Transfer Request Enable */
vuint32_t SS23:1; /* Channel 23 Data Transfer Request Enable */
vuint32_t SS22:1; /* Channel 22 Data Transfer Request Enable */
vuint32_t SS21:1; /* Channel 21 Data Transfer Request Enable */
vuint32_t SS20:1; /* Channel 20 Data Transfer Request Enable */
vuint32_t SS19:1; /* Channel 19 Data Transfer Request Enable */
vuint32_t SS18:1; /* Channel 18 Data Transfer Request Enable */
vuint32_t SS17:1; /* Channel 17 Data Transfer Request Enable */
vuint32_t SS16:1; /* Channel 16 Data Transfer Request Enable */
vuint32_t SS15:1; /* Channel 15 Data Transfer Request Enable */
vuint32_t SS14:1; /* Channel 14 Data Transfer Request Enable */
vuint32_t SS13:1; /* Channel 13 Data Transfer Request Enable */
vuint32_t SS12:1; /* Channel 12 Data Transfer Request Enable */
vuint32_t SS11:1; /* Channel 11 Data Transfer Request Enable */
vuint32_t SS10:1; /* Channel 10 Data Transfer Request Enable */
vuint32_t SS9:1; /* Channel 9 Data Transfer Request Enable */
vuint32_t SS8:1; /* Channel 8 Data Transfer Request Enable */
vuint32_t SS7:1; /* Channel 7 Data Transfer Request Enable */
vuint32_t SS6:1; /* Channel 6 Data Transfer Request Enable */
vuint32_t SS5:1; /* Channel 5 Data Transfer Request Enable */
vuint32_t SS4:1; /* Channel 4 Data Transfer Request Enable */
vuint32_t SS3:1; /* Channel 3 Data Transfer Request Enable */
vuint32_t SS2:1; /* Channel 2 Data Transfer Request Enable */
vuint32_t SS1:1; /* Channel 1 Data Transfer Request Enable */
vuint32_t SS0:1; /* Channel 0 Data Transfer Request Enable */
} B;
} CSSR_A; /* ETPUCSSR - eTPU Channel Service Status Register @baseaddress + 0x290 */
int32_t ETPU_reserved_0294[91]; /* 0x0294 - 0x03FF */
/***************************** Channels ********************************/
/* Note not all devices implement all channels or even 2 engines */
/* Each eTPU engine can implement 64 channels, however most devcies */
/* only implemnet 32 channels. The eTPU block can implement 1 or 2 */
/* engines per instantiation */
/***********************************************************************/
struct {
union {
vuint32_t R;
struct {
vuint32_t CIE:1; /* Channel Interruput Enable */
vuint32_t DTRE:1; /* Data Transfer Request Enable */
vuint32_t CPR:2; /* Channel Priority */
vuint32_t:2; /* */
vuint32_t ETPD:1; /* This bit selects which channel signal, input or output, is used in the entry point selection */
vuint32_t ETCS:1; /* Entry Table Condition Select */
vuint32_t:3; /* */
vuint32_t CFS:5; /* Channel Function Select */
vuint32_t ODIS:1; /* Output disable */
vuint32_t OPOL:1; /* output polarity */
vuint32_t:3; /* */
vuint32_t CPBA:11; /* Channel Parameter Base Address */
} B;
} CR; /* eTPU Channel n Configuration Register (ETPU_CnCR)@baseaddress + 0x400 */
union {
vuint32_t R;
struct {
vuint32_t CIS:1; /* Channel Interruput Status */
vuint32_t CIOS:1; /* Channel Interruput Overflow Status */
vuint32_t:6; /* */
vuint32_t DTRS:1; /* Data Transfer Status */
vuint32_t DTROS:1; /* Data Transfer Overflow Status */
vuint32_t:6; /* */
vuint32_t IPS:1; /* Input Pin State */
vuint32_t OPS:1; /* Output Pin State */
vuint32_t OBE:1; /* Output Pin State */
vuint32_t:11; /* */
vuint32_t FM1:1; /* Function mode */
vuint32_t FM0:1; /* Function mode */
} B;
} SCR; /* eTPU Channel n Status Control Register (ETPU_CnSCR)@baseaddress + 0x404 */
union {
vuint32_t R;
struct {
vuint32_t:29; /* Host Service Request */
vuint32_t HSR:3; /* */
} B;
} HSRR; /* eTPU channel host service request register (ETPU_CnHSRR)@baseaddress + 0x408 */
int32_t ETPU_reserved_0C; /* CHAN Base + 0x0C */
} CHAN[127];
/**** Note: Not all channels implemented on all devices. *******/
};
/****************************************************************************/
/* MODULE : EQADC */
/****************************************************************************/
struct EQADC_tag {
union {
vuint32_t R;
struct {
vuint32_t:24;
vuint32_t ICEA0:1;
vuint32_t ICEA1:1;
vuint32_t:1;
vuint32_t ESSIE:2;
vuint32_t:1;
vuint32_t DBG:2;
} B;
} MCR; /* Module Configuration Register */
int32_t EQADC_reserved0004; /* 0x0004 - 0x0007 */
union {
vuint32_t R;
struct {
vuint32_t:6;
vuint32_t NMF:26;
} B;
} NMSFR; /* Null Message Send Format Register */
union {
vuint32_t R;
struct {
vuint32_t:28;
vuint32_t DFL:4;
} B;
} ETDFR; /* External Trigger Digital Filter Register */
union {
vuint32_t R;
struct {
vuint32_t CFPUSH:32;
} B;
} CFPR[6]; /* CFIFO Push Registers */
uint32_t eqadc_reserved1;
uint32_t eqadc_reserved2;
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t RFPOP:16;
} B;
} RFPR[6]; /* Result FIFO Pop Registers*/
uint32_t eqadc_reserved3;
uint32_t eqadc_reserved4;
union {
vuint16_t R;
struct {
vuint16_t:3;
vuint16_t CFEE0:1;
vuint16_t STRME0:1;
vuint16_t SSE:1;
vuint16_t CFINV:1;
vuint16_t:1;
vuint16_t MODE:4;
vuint16_t AMODE0:4; /* CFIFO0 only */
} B;
} CFCR[6]; /* CFIFO Control Registers */
uint32_t eqadc_reserved5;
union {
vuint16_t R;
struct {
vuint16_t NCIE:1;
vuint16_t TORIE:1;
vuint16_t PIE:1;
vuint16_t EOQIE:1;
vuint16_t CFUIE:1;
vuint16_t:1;
vuint16_t CFFE:1;
vuint16_t CFFS:1;
vuint16_t:4;
vuint16_t RFOIE:1;
vuint16_t:1;
vuint16_t RFDE:1;
vuint16_t RFDS:1;
} B;
} IDCR[6]; /* Interrupt and DMA Control Registers */
uint32_t eqadc_reserved6;
union {
vuint32_t R;
struct {
vuint32_t NCF:1;
vuint32_t TORF:1;
vuint32_t PF:1;
vuint32_t EOQF:1;
vuint32_t CFUF:1;
vuint32_t SSS:1;
vuint32_t CFFF:1;
vuint32_t:5;
vuint32_t RFOF:1;
vuint32_t:1;
vuint32_t RFDF:1;
vuint32_t:1;
vuint32_t CFCTR:4;
vuint32_t TNXTPTR:4;
vuint32_t RFCTR:4;
vuint32_t POPNXTPTR:4;
} B;
} FISR[6]; /* FIFO and Interrupt Status Registers */
uint32_t eqadc_reserved7;
uint32_t eqadc_reserved8;
union {
vuint16_t R;
struct {
vuint16_t:5;
vuint16_t TCCF:11;
} B;
} CFTCR[6]; /* CFIFO Transfer Counter Registers */
uint32_t eqadc_reserved9;
union {
vuint32_t R;
struct {
vuint32_t CFS0:2;
vuint32_t CFS1:2;
vuint32_t CFS2:2;
vuint32_t CFS3:2;
vuint32_t CFS4:2;
vuint32_t CFS5:2;
vuint32_t:5;
vuint32_t LCFTCB0:4;
vuint32_t TC_LCFTCB0:11;
} B;
} CFSSR0; /* CFIFO Status Register 0 */
union {
vuint32_t R;
struct {
vuint32_t CFS0:2;
vuint32_t CFS1:2;
vuint32_t CFS2:2;
vuint32_t CFS3:2;
vuint32_t CFS4:2;
vuint32_t CFS5:2;
vuint32_t:5;
vuint32_t LCFTCB1:4;
vuint32_t TC_LCFTCB1:11;
} B;
} CFSSR1; /* CFIFO Status Register 1 */
union {
vuint32_t R;
struct {
vuint32_t CFS0:2;
vuint32_t CFS1:2;
vuint32_t CFS2:2;
vuint32_t CFS3:2;
vuint32_t CFS4:2;
vuint32_t CFS5:2;
vuint32_t:4;
vuint32_t ECBNI:1;
vuint32_t LCFTSSI:4;
vuint32_t TC_LCFTSSI:11;
} B;
} CFSSR2; /* CFIFO Status Register 2 */
union {
vuint32_t R;
struct {
vuint32_t CFS0:2;
vuint32_t CFS1:2;
vuint32_t CFS2:2;
vuint32_t CFS3:2;
vuint32_t CFS4:2;
vuint32_t CFS5:2;
vuint32_t:20;
} B;
} CFSR;
uint32_t eqadc_reserved11;
union {
vuint32_t R;
struct {
vuint32_t:21;
vuint32_t MDT:3;
vuint32_t:4;
vuint32_t BR:4;
} B;
} SSICR; /* SSI Control Register */
union {
vuint32_t R;
struct {
vuint32_t RDV:1;
vuint32_t:5;
vuint32_t RDATA:26;
} B;
} SSIRDR; /* SSI Recieve Data Register @ baseaddress + 0xB8 */
uint32_t eqadc_reserved11b[5];
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t REDBS2:4;
vuint32_t SRV2:4;
vuint32_t REDBS1:4;
vuint32_t SRV1:4;
} B;
} REDLCCR; /* STAC Bus Clent Configuration Register @ baseaddress + 0xD0 */
uint32_t eqadc_reserved12[11];
struct {
union {
vuint32_t R;
struct {
vuint32_t:32;
} B;
} R[4];
union {
vuint32_t R;
struct {
vuint32_t:32;
} B;
} EDATA[4];
uint32_t eqadc_reserved13[8];
} CF[6];
uint32_t eqadc_reserved14[32];
struct {
union {
vuint32_t R;
struct {
vuint32_t:32;
} B;
} R[4];
uint32_t eqadc_reserved15[12];
} RF[6];
};
/****************************************************************************/
/* MODULE : Decimation Filter (DECFIL) */
/****************************************************************************/
struct DECFIL_tag {
union {
vuint32_t R;
struct {
vuint32_t MDIS:1;
vuint32_t FREN:1;
vuint32_t:1;
vuint32_t FRZ:1;
vuint32_t SRES:1;
vuint32_t CASCD:2;
vuint32_t IDEN:1;
vuint32_t ODEN:1;
vuint32_t ERREN:1;
vuint32_t:1;
vuint32_t FTYPE:2;
vuint32_t:1;
vuint32_t SCAL:2;
vuint32_t IDIS:1;
vuint32_t SAT:1;
vuint32_t ISEL:1;
vuint32_t MIXM:1;
vuint32_t DEC_RATE:4;
vuint32_t SDIE:1;
vuint32_t DSEL:1;
vuint32_t IBIE:1;
vuint32_t OBIE:1;
vuint32_t EDME:1;
vuint32_t TORE:1;
vuint32_t TMODE:2;
} B;
} MCR; /* Configuration Register @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t BSY:1;
vuint32_t:1;
vuint32_t DEC_COUNTER:4;
vuint32_t IDFC:1;
vuint32_t ODFC:1;
vuint32_t:1;
vuint32_t IBIC:1;
vuint32_t OBIC:1;
vuint32_t:1;
vuint32_t DIVRC:1;
vuint32_t OVFC:1;
vuint32_t OVRC:1;
vuint32_t IVRC:1;
vuint32_t:6;
vuint32_t IDF:1;
vuint32_t ODF:1;
vuint32_t:1;
vuint32_t IBIF:1;
vuint32_t OBIF:1;
vuint32_t:1;
vuint32_t DIVR:1;
vuint32_t OVF:1;
vuint32_t OVR:1;
vuint32_t IVR:1;
} B;
} MSR; /* Status Register @baseaddress + 0x04 */
union {
vuint32_t R;
struct {
vuint32_t SDMAE:1;
vuint32_t SSIG:1;
vuint32_t SSAT:1;
vuint32_t SCSAT:1;
vuint32_t:10;
vuint32_t SRQ:1;
vuint32_t SZRO:1;
vuint32_t SISEL:1;
vuint32_t:1;
vuint32_t SZROSEL:2;
vuint32_t:2;
vuint32_t SHLTSEL:2;
vuint32_t:1;
vuint32_t SRQSEL:3;
vuint32_t:2;
vuint32_t SENSEL:2;
} B;
} MXCR; /* Extended Config Register @baseaddress + 0x8 */
union {
vuint32_t R;
struct {
vuint32_t:7;
vuint32_t SDFC:1;
vuint32_t:2;
vuint32_t SSEC:1;
vuint32_t SCEC:1;
vuint32_t:1;
vuint32_t SSOVFC:1;
vuint32_t SCOVFC:1;
vuint32_t SVRC:1;
vuint32_t:7;
vuint32_t SDF:1;
vuint32_t:2;
vuint32_t SSE:1;
vuint32_t SCE:1;
vuint32_t:1;
vuint32_t SSOVF:1;
vuint32_t SCOVF:1;
vuint32_t SVR:1;
} B;
} MXSR; /* Extended Status Register @baseaddress + 0xC */
union {
vuint32_t R;
struct {
vuint32_t:4;
vuint32_t INTAG:4;
vuint32_t:6;
vuint32_t PREFILL:1;
vuint32_t FLUSH:1;
vuint32_t INPBUF:16;
} B;
} IB; /* Interface Input Buffer @baseaddress + 0x10 */
union {
vuint32_t R;
struct {
vuint32_t:12;
vuint32_t OUTTAG:4;
vuint32_t OUTBUF:16;
} B;
} OB; /* Interface Output Buffer @baseaddress + 0x14 */
uint32_t decfil_reserved0018[2]; /* 0x0018 - 0x001F */
union {
vuint32_t R;
struct {
vuint32_t:8;
vuint32_t COEF:24;
} B;
} COEF[9]; /* Filter Coefficient Registers @baseaddress + 0x20 - 0x40 */
uint32_t decfil_reserved0044[13]; /* 0x0044 - 0x0077 */
union {
vuint32_t R;
struct {
vuint32_t:8;
vuint32_t TAP:24;
} B;
} TAP[8]; /* Filter TAP Registers @baseaddress + 0x78 - 0x94 */
uint32_t decfil_reserved00D0[14]; /* 0x00D0 - 0x00D3 */
/* 0x0D0 */
union {
vuint16_t R;
struct {
vuint32_t:16;
vuint32_t SAMP_DATA:16;
} B;
} EDID; /* Filter EDID Registers @baseaddress + 0xD0 */
uint32_t decfil_reserved00D4[3]; /* 0x00D4 - 0x00DF */
union {
vuint32_t R;
struct {
vuint32_t SUM_VALUE:1;
} B;
} FINTVAL; /* Final Integr. Value Register @baseaddress + 0xE0 */
union {
vuint32_t R;
struct {
vuint32_t COUNT:1;
} B;
} FINTCNT; /* Final Integr. Count Register @baseaddress + 0xE0 */
union {
vuint32_t R;
struct {
vuint32_t SUM_VALUE:1;
} B;
} CINTVAL; /* Current Integr. Value Register @baseaddress + 0xE0 */
union {
vuint32_t R;
struct {
vuint32_t COUNT:1;
} B;
} CINTCNT; /* Current Integr. Count Register @baseaddress + 0xE0 */
};
/****************************************************************************/
/* MODULE : CRC */
/****************************************************************************/
struct CRC_tag {
union {
vuint32_t R;
struct {
vuint32_t:29;
vuint32_t POLY:1;
vuint32_t SWAP:1;
vuint32_t INV:1;
} B;
} CFG; /* Configuration Register @baseaddress + 0x00 */
union {
vuint32_t R;
struct{
vuint32_t INP:32;
} B;
} INP; /* Input Register @baseaddress + 0x04 */
union {
vuint32_t R;
struct{
vuint32_t CSTAT:32;
} B;
} CSTAT; /* Current Status Register @baseaddress + 0x08 */
union {
vuint32_t R;
struct {
vuint32_t OUTP:32;
} B;
} OUTP; /* Output Register @baseaddress + 0x0C */
};
/****************************************************************************/
/* MODULE : DSPI */
/****************************************************************************/
struct DSPI_tag {
union {
vuint32_t R;
struct {
vuint32_t MSTR:1;
vuint32_t CONT_SCKE:1;
vuint32_t DCONF:2;
vuint32_t FRZ:1;
vuint32_t MTFE:1;
vuint32_t PCSSE:1;
vuint32_t ROOE:1;
vuint32_t PCSIS7:1;
vuint32_t PCSIS6:1;
vuint32_t PCSIS5:1;
vuint32_t PCSIS4:1;
vuint32_t PCSIS3:1;
vuint32_t PCSIS2:1;
vuint32_t PCSIS1:1;
vuint32_t PCSIS0:1;
vuint32_t DOZE:1;
vuint32_t MDIS:1;
vuint32_t DIS_TXF:1;
vuint32_t DIS_RXF:1;
vuint32_t CLR_TXF:1;
vuint32_t CLR_RXF:1;
vuint32_t SMPL_PT:2;
vuint32_t:6;
vuint32_t PES:1;
vuint32_t HALT:1;
} B;
} MCR; /* Module Configuration Register @baseaddress + 0x00 */
uint32_t dspi_reserved0004; /* 0x0004-0x008 */
union {
vuint32_t R;
struct {
vuint32_t TCNT:16;
vuint32_t:16;
} B;
} TCR; /* DSPI Transfer Count Register @baseaddress + 0x08 */
union {
vuint32_t R;
struct {
vuint32_t DBR:1;
vuint32_t FMSZ:4;
vuint32_t CPOL:1;
vuint32_t CPHA:1;
vuint32_t LSBFE:1;
vuint32_t PCSSCK:2;
vuint32_t PASC:2;
vuint32_t PDT:2;
vuint32_t PBR:2;
vuint32_t CSSCK:4;
vuint32_t ASC:4;
vuint32_t DT:4;
vuint32_t BR:4;
} B;
} CTAR[8]; /* Clock and Transfer Attributes Registers @baseaddress + 0x0C - 0x28 */
union {
vuint32_t R;
struct {
vuint32_t TCF:1;
vuint32_t TXRXS:1;
vuint32_t:1;
vuint32_t EOQF:1;
vuint32_t TFUF:1;
vuint32_t:1;
vuint32_t TFFF:1;
vuint32_t:2;
vuint32_t DPEF:1;
vuint32_t SPEF:1;
vuint32_t DDIF:1;
vuint32_t RFOF:1;
vuint32_t:1;
vuint32_t RFDF:1;
vuint32_t:1;
vuint32_t TXCTR:4;
vuint32_t TXNXTPTR:4;
vuint32_t RXCTR:4;
vuint32_t POPNXTPTR:4;
} B;
} SR; /* Status Register @baseaddress + 0x2C */
union {
vuint32_t R;
struct {
vuint32_t TCFRE:1;
vuint32_t:2;
vuint32_t EOQFRE:1;
vuint32_t TFUFRE:1;
vuint32_t:1;
vuint32_t TFFFRE:1;
vuint32_t TFFFDIRS:1;
vuint32_t:1;
vuint32_t DPEFRE:1;
vuint32_t SPEFRE:1;
vuint32_t DDIFRE:1;
vuint32_t RFOFRE:1;
vuint32_t:1;
vuint32_t RFDFRE:1;
vuint32_t RFDFDIRS:1;
vuint32_t:16;
} B;
} RSER; /* DMA/Interrupt Request Select and Enable Register @baseaddress + 0x30 */
union {
vuint32_t R;
struct {
vuint32_t CONT:1;
vuint32_t CTAS:3;
vuint32_t EOQ:1;
vuint32_t CTCNT:1;
vuint32_t PE:1;
vuint32_t PP:1;
vuint32_t PCS7:1; /* new in MPC563xM */
vuint32_t PCS6:1; /* new in MPC563xM */
vuint32_t PCS5:1;
vuint32_t PCS4:1;
vuint32_t PCS3:1;
vuint32_t PCS2:1;
vuint32_t PCS1:1;
vuint32_t PCS0:1;
vuint32_t TXDATA:16;
} B;
} PUSHR; /* PUSH TX FIFO Register @baseaddress + 0x34 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t RXDATA:16;
} B;
} POPR; /* POP RX FIFO Register @baseaddress + 0x38 */
union {
vuint32_t R;
struct {
vuint32_t TXCMD:16;
vuint32_t TXDATA:16;
} B;
} TXFR[4]; /* Transmit FIFO Registers @baseaddress + 0x3c - 0x78 */
vuint32_t DSPI_reserved_004C[12]; /* 0x004C-0x0078 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t RXDATA:16;
} B;
} RXFR[4]; /* Transmit FIFO Registers @baseaddress + 0x7c - 0xB8 */
vuint32_t DSPI_reserved_008C[12]; /* 0x008C-0x00B8 */
union {
vuint32_t R;
struct {
vuint32_t MTOE:1;
vuint32_t FMSZ4:1;
vuint32_t MTOCNT:6;
vuint32_t:3;
vuint32_t TSBC:1;
vuint32_t TXSS:1;
vuint32_t TPOL:1;
vuint32_t TRRE:1;
vuint32_t CID:1;
vuint32_t DCONT:1;
vuint32_t DSICTAS:3;
vuint32_t:4;
vuint32_t DPCS7:1;
vuint32_t DPCS6:1;
vuint32_t DPCS5:1;
vuint32_t DPCS4:1;
vuint32_t DPCS3:1;
vuint32_t DPCS2:1;
vuint32_t DPCS1:1;
vuint32_t DPCS0:1;
} B;
} DSICR; /* DSI Configuration Register @baseaddress + 0xBC */
union {
vuint32_t R;
struct {
vuint32_t SER_DATA:32;
} B;
} SDR; /* DSI Serialization Data Register @baseaddress + 0xC0 */
union {
vuint32_t R;
struct {
vuint32_t ASER_DATA:32;
} B;
} ASDR; /* DSI Alternate Serialization Data Register @baseaddress + 0xC4 */
union {
vuint32_t R;
struct {
vuint32_t COMP_DATA:32;
} B;
} COMPR; /* DSI Transmit Comparison Register @baseaddress + 0xC8 */
union {
vuint32_t R;
struct {
vuint32_t DESER_DATA:32;
} B;
} DDR; /* DSI deserialization Data Register @baseaddress + 0xCC */
union {
vuint32_t R;
struct {
vuint32_t:3;
vuint32_t TSBCNT:5;
vuint32_t:16;
vuint32_t DPCS1_7:1;
vuint32_t DPCS1_6:1;
vuint32_t DPCS1_5:1;
vuint32_t DPCS1_4:1;
vuint32_t DPCS1_3:1;
vuint32_t DPCS1_2:1;
vuint32_t DPCS1_1:1;
vuint32_t DPCS1_0:1;
} B;
} DSICR1; /* DSI Configuration Register 1 @baseaddress + 0xD0 */
};
/****************************************************************************/
/* MODULE : eSCI */
/****************************************************************************/
struct ESCI_tag {
union {
vuint32_t R;
struct {
vuint32_t:3;
vuint32_t SBR:13;
vuint32_t LOOPS:1;
vuint32_t:1;
vuint32_t RSRC:1;
vuint32_t M:1;
vuint32_t WAKE:1;
vuint32_t ILT:1;
vuint32_t PE:1;
vuint32_t PT:1;
vuint32_t TIE:1;
vuint32_t TCIE:1;
vuint32_t RIE:1;
vuint32_t ILIE:1;
vuint32_t TE:1;
vuint32_t RE:1;
vuint32_t RWU:1;
vuint32_t SBK:1;
} B;
} CR1; /* Control Register 1 @baseaddress + 0x00 */
union {
vuint16_t R;
struct {
vuint16_t MDIS:1;
vuint16_t FBR:1;
vuint16_t BSTP:1;
vuint16_t IEBERR:1;
vuint16_t RXDMA:1;
vuint16_t TXDMA:1;
vuint16_t BRK13:1;
vuint16_t TXDIR:1;
vuint16_t BESM13:1;
vuint16_t SBSTP:1;
vuint16_t RXPOL:1;
vuint16_t PMSK:1;
vuint16_t ORIE:1;
vuint16_t NFIE:1;
vuint16_t FEIE:1;
vuint16_t PFIE:1;
} B;
} CR2; /* Control Register 2 @baseaddress + 0x04 */
union {
vuint16_t R;
struct {
vuint16_t R8:1;
vuint16_t T8:1;
vuint16_t ERR:1;
vuint16_t:1;
vuint16_t R:4;
vuint8_t D;
} B;
} DR; /* Data Register @baseaddress + 0x06 */
union {
vuint32_t R;
struct {
vuint32_t TDRE:1;
vuint32_t TC:1;
vuint32_t RDRF:1;
vuint32_t IDLE:1;
vuint32_t OR:1;
vuint32_t NF:1;
vuint32_t FE:1;
vuint32_t PF:1;
vuint32_t:3;
vuint32_t BERR:1;
vuint32_t:2;
vuint32_t TACT:1;
vuint32_t RAF:1;
vuint32_t RXRDY:1;
vuint32_t TXRDY:1;
vuint32_t LWAKE:1;
vuint32_t STO:1;
vuint32_t PBERR:1;
vuint32_t CERR:1;
vuint32_t CKERR:1;
vuint32_t FRC:1;
vuint32_t:6;
vuint32_t UREQ:1;
vuint32_t OVFL:1;
} B;
} SR; /* Status Register @baseaddress + 0x08 */
union {
vuint32_t R;
struct {
vuint32_t LRES:1;
vuint32_t WU:1;
vuint32_t WUD0:1;
vuint32_t WUD1:1;
vuint32_t LDBG:1;
vuint32_t DSF:1;
vuint32_t PRTY:1;
vuint32_t LIN:1;
vuint32_t RXIE:1;
vuint32_t TXIE:1;
vuint32_t WUIE:1;
vuint32_t STIE:1;
vuint32_t PBIE:1;
vuint32_t CIE:1;
vuint32_t CKIE:1;
vuint32_t FCIE:1;
vuint32_t:6;
vuint32_t UQIE:1;
vuint32_t OFIE:1;
vuint32_t:8;
} B;
} LCR; /* LIN Control Register @baseaddress + 0x0C */
union {
vuint32_t R;
} LTR; /* LIN Transmit Register @baseaddress + 0x10 */
union {
vuint32_t R;
} LRR; /* LIN Recieve Register @baseaddress + 0x14 */
union {
vuint32_t R;
struct {
vuint32_t P:16;
vuint32_t:3;
vuint32_t SYNM:1;
vuint32_t EROE:1;
vuint32_t ERFE:1;
vuint32_t ERPE:1;
vuint32_t M2:1;
vuint32_t:8;
} B;
} LPR; /* LIN CRC Polynom Register @baseaddress + 0x18 */
};
/****************************************************************************/
/* MODULE : eSCI */
/****************************************************************************/
struct ESCI_12_13_bit_tag {
union {
vuint16_t R;
struct {
vuint16_t R8:1;
vuint16_t T8:1;
vuint16_t ERR:1;
vuint16_t:1;
vuint16_t D:12;
} B;
} DR; /* Data Register */
};
/****************************************************************************/
/* MODULE : FlexCAN */
/****************************************************************************/
struct FLEXCAN_BUF_t {
union {
vuint32_t R;
struct {
vuint32_t:4;
vuint32_t CODE:4;
vuint32_t:1;
vuint32_t SRR:1;
vuint32_t IDE:1;
vuint32_t RTR:1;
vuint32_t LENGTH:4;
vuint32_t TIMESTAMP:16;
} B;
} CS;
union {
vuint32_t R;
struct {
vuint32_t PRIO:3;
vuint32_t STD_ID:11;
vuint32_t EXT_ID:18;
} B;
} ID;
union {
/*vuint8_t B[8]; *//* Data buffer in Bytes (8 bits) *//* Not used in MPC563xM */
/*vuint16_t H[4]; *//* Data buffer in Half-words (16 bits) *//* Not used in MPC563xM */
vuint32_t W[2]; /* Data buffer in words (32 bits) */
/*vuint32_t R[2]; *//* Data buffer in words (32 bits) *//* Not used in MPC563xM */
} DATA;
}; /* end of FLEXCAN_BUF_t */
struct FLEXCAN_RXFIFO_t {
union {
vuint32_t R;
struct {
vuint32_t:9;
vuint32_t SRR:1;
vuint32_t IDE:1;
vuint32_t RTR:1;
vuint32_t LENGTH:4;
vuint32_t TIMESTAMP:16;
} B;
} CS;
union {
vuint32_t R;
struct {
vuint32_t:3;
vuint32_t STD_ID:11;
vuint32_t EXT_ID:18;
} B;
} ID;
union {
/*vuint8_t B[8]; *//* Data buffer in Bytes (8 bits) *//* Not used in MPC563xM */
/*vuint16_t H[4]; *//* Data buffer in Half-words (16 bits) *//* Not used in MPC563xM */
vuint32_t W[2]; /* Data buffer in words (32 bits) */
/*vuint32_t R[2]; *//* Data buffer in words (32 bits) *//* Not used in MPC563xM */
} DATA;
uint32_t FLEXCAN_RXFIFO_reserved[20]; /* {0x00E0-0x0090}/0x4 = 0x14 */
union {
vuint32_t R;
} IDTABLE[8];
}; /* end of FLEXCAN_RXFIFO_t */
struct FLEXCAN2_tag {
union {
vuint32_t R;
struct {
vuint32_t MDIS:1;
vuint32_t FRZ:1;
vuint32_t FEN:1;
vuint32_t HALT:1;
vuint32_t NOTRDY:1;
vuint32_t WAK_MSK:1;
vuint32_t SOFTRST:1;
vuint32_t FRZACK:1;
vuint32_t SUPV:1;
vuint32_t SLF_WAK:1;
vuint32_t WRNEN:1;
vuint32_t MDISACK:1;
vuint32_t WAK_SRC:1;
vuint32_t DOZE:1;
vuint32_t SRXDIS:1;
vuint32_t MBFEN:1;
vuint32_t:2;
vuint32_t LPRIO_EN:1;
vuint32_t AEN:1;
vuint32_t:2;
vuint32_t IDAM:2;
vuint32_t:2;
vuint32_t MAXMB:6;
} B;
} MCR; /* Module Configuration Register @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t PRESDIV:8;
vuint32_t RJW:2;
vuint32_t PSEG1:3;
vuint32_t PSEG2:3;
vuint32_t BOFFMSK:1;
vuint32_t ERRMSK:1;
vuint32_t CLKSRC:1;
vuint32_t LPB:1;
vuint32_t TWRNMSK:1;
vuint32_t RWRNMSK:1;
vuint32_t:2;
vuint32_t SMP:1;
vuint32_t BOFFREC:1;
vuint32_t TSYN:1;
vuint32_t LBUF:1;
vuint32_t LOM:1;
vuint32_t PROPSEG:3;
} B; /* Control Register @baseaddress + 0x04 */
} CR;
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t TIMER:16;
} B;
} TIMER; /* Free Running Timer @baseaddress + 0x08 */
int32_t FLEXCAN_reserved00;
union {
vuint32_t R;
struct {
vuint32_t:3;
vuint32_t MI:29;
} B;
} RXGMASK; /* RX Global Mask @baseaddress + 0x0C */
union {
vuint32_t R;
struct {
vuint32_t:3;
vuint32_t MI:29;
} B;
} RX14MASK; /* RX 14 Mask @baseaddress + 0x10 */
union {
vuint32_t R;
struct {
vuint32_t:3;
vuint32_t MI:29;
} B;
} RX15MASK; /* RX 15 Mask @baseaddress + 0x14 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t RXECNT:8;
vuint32_t TXECNT:8;
} B;
} ECR; /* Error Counter Register @baseaddress + 0x18 */
union {
vuint32_t R;
struct {
vuint32_t:14;
vuint32_t TWRNINT:1;
vuint32_t RWRNINT:1;
vuint32_t BIT1ERR:1;
vuint32_t BIT0ERR:1;
vuint32_t ACKERR:1;
vuint32_t CRCERR:1;
vuint32_t FRMERR:1;
vuint32_t STFERR:1;
vuint32_t TXWRN:1;
vuint32_t RXWRN:1;
vuint32_t IDLE:1;
vuint32_t TXRX:1;
vuint32_t FLTCONF:2;
vuint32_t:1;
vuint32_t BOFFINT:1;
vuint32_t ERRINT:1;
vuint32_t WAK_INT:1;
} B;
} ESR; /* Error and Status Register @baseaddress + 0x1C */
union {
vuint32_t R;
struct {
vuint32_t BUF63M:1;
vuint32_t BUF62M:1;
vuint32_t BUF61M:1;
vuint32_t BUF60M:1;
vuint32_t BUF59M:1;
vuint32_t BUF58M:1;
vuint32_t BUF57M:1;
vuint32_t BUF56M:1;
vuint32_t BUF55M:1;
vuint32_t BUF54M:1;
vuint32_t BUF53M:1;
vuint32_t BUF52M:1;
vuint32_t BUF51M:1;
vuint32_t BUF50M:1;
vuint32_t BUF49M:1;
vuint32_t BUF48M:1;
vuint32_t BUF47M:1;
vuint32_t BUF46M:1;
vuint32_t BUF45M:1;
vuint32_t BUF44M:1;
vuint32_t BUF43M:1;
vuint32_t BUF42M:1;
vuint32_t BUF41M:1;
vuint32_t BUF40M:1;
vuint32_t BUF39M:1;
vuint32_t BUF38M:1;
vuint32_t BUF37M:1;
vuint32_t BUF36M:1;
vuint32_t BUF35M:1;
vuint32_t BUF34M:1;
vuint32_t BUF33M:1;
vuint32_t BUF32M:1;
} B; /* Interruput Masks Register @baseaddress + 0x20 */
} IMRH;
union {
vuint32_t R;
struct {
vuint32_t BUF31M:1;
vuint32_t BUF30M:1;
vuint32_t BUF29M:1;
vuint32_t BUF28M:1;
vuint32_t BUF27M:1;
vuint32_t BUF26M:1;
vuint32_t BUF25M:1;
vuint32_t BUF24M:1;
vuint32_t BUF23M:1;
vuint32_t BUF22M:1;
vuint32_t BUF21M:1;
vuint32_t BUF20M:1;
vuint32_t BUF19M:1;
vuint32_t BUF18M:1;
vuint32_t BUF17M:1;
vuint32_t BUF16M:1;
vuint32_t BUF15M:1;
vuint32_t BUF14M:1;
vuint32_t BUF13M:1;
vuint32_t BUF12M:1;
vuint32_t BUF11M:1;
vuint32_t BUF10M:1;
vuint32_t BUF09M:1;
vuint32_t BUF08M:1;
vuint32_t BUF07M:1;
vuint32_t BUF06M:1;
vuint32_t BUF05M:1;
vuint32_t BUF04M:1;
vuint32_t BUF03M:1;
vuint32_t BUF02M:1;
vuint32_t BUF01M:1;
vuint32_t BUF00M:1;
} B; /* Interruput Masks Register @baseaddress + 0x24 */
} IMRL;
union {
vuint32_t R;
struct {
vuint32_t BUF63I:1;
vuint32_t BUF62I:1;
vuint32_t BUF61I:1;
vuint32_t BUF60I:1;
vuint32_t BUF59I:1;
vuint32_t BUF58I:1;
vuint32_t BUF57I:1;
vuint32_t BUF56I:1;
vuint32_t BUF55I:1;
vuint32_t BUF54I:1;
vuint32_t BUF53I:1;
vuint32_t BUF52I:1;
vuint32_t BUF51I:1;
vuint32_t BUF50I:1;
vuint32_t BUF49I:1;
vuint32_t BUF48I:1;
vuint32_t BUF47I:1;
vuint32_t BUF46I:1;
vuint32_t BUF45I:1;
vuint32_t BUF44I:1;
vuint32_t BUF43I:1;
vuint32_t BUF42I:1;
vuint32_t BUF41I:1;
vuint32_t BUF40I:1;
vuint32_t BUF39I:1;
vuint32_t BUF38I:1;
vuint32_t BUF37I:1;
vuint32_t BUF36I:1;
vuint32_t BUF35I:1;
vuint32_t BUF34I:1;
vuint32_t BUF33I:1;
vuint32_t BUF32I:1;
} B; /* Interruput Flag Register @baseaddress + 0x28 */
} IFRH;
union {
vuint32_t R;
struct {
vuint32_t BUF31I:1;
vuint32_t BUF30I:1;
vuint32_t BUF29I:1;
vuint32_t BUF28I:1;
vuint32_t BUF27I:1;
vuint32_t BUF26I:1;
vuint32_t BUF25I:1;
vuint32_t BUF24I:1;
vuint32_t BUF23I:1;
vuint32_t BUF22I:1;
vuint32_t BUF21I:1;
vuint32_t BUF20I:1;
vuint32_t BUF19I:1;
vuint32_t BUF18I:1;
vuint32_t BUF17I:1;
vuint32_t BUF16I:1;
vuint32_t BUF15I:1;
vuint32_t BUF14I:1;
vuint32_t BUF13I:1;
vuint32_t BUF12I:1;
vuint32_t BUF11I:1;
vuint32_t BUF10I:1;
vuint32_t BUF09I:1;
vuint32_t BUF08I:1;
vuint32_t BUF07I:1;
vuint32_t BUF06I:1;
vuint32_t BUF05I:1;
vuint32_t BUF04I:1;
vuint32_t BUF03I:1;
vuint32_t BUF02I:1;
vuint32_t BUF01I:1;
vuint32_t BUF00I:1;
} B; /* Interruput Flag Register @baseaddress + 0x2C */
} IFRL;
uint32_t flexcan2_reserved2[19];
/****************************************************************************/
/* Use either Standard Buffer Structure OR RX FIFO and Buffer Structure */
/****************************************************************************/
/* Standard Buffer Structure */
struct FLEXCAN_BUF_t BUF[64];
/* RX FIFO and Buffer Structure */
/*struct FLEXCAN_RXFIFO_t RXFIFO; */
/*struct FLEXCAN_BUF_t BUF[56]; */
/****************************************************************************/
uint32_t FLEXCAN_reserved3[256]; /* {0x0880-0x0480}/0x4 = 0x100 */
union {
vuint32_t R;
struct {
vuint32_t MI:32;
} B; /* RX Individual Mask Registers @baseaddress + 0x0880 */
} RXIMR[64];
}; /* end of FLEXCAN_tag */
/****************************************************************************/
/* MODULE : Periodic Interval Timer (PIT) */
/****************************************************************************/
struct PIT_tag {
union {
vuint32_t R;
struct {
vuint32_t:29;
vuint32_t MDIS_RTI:1;
vuint32_t MDIS:1;
vuint32_t FRZ:1;
} B;
} PITMCR; /* PIT Module Control Register @baseaddress + 0x00 */
uint32_t pit_reserved1[59];
struct {
union {
vuint32_t R;
} LDVAL; /* Timer Load Value Register @baseaddress + 0xF0 */
union {
vuint32_t R;
} CVAL; /* Current Timer Value Register @baseaddress + 0xF4 */
union {
vuint32_t R;
struct {
vuint32_t:30;
vuint32_t TIE:1;
vuint32_t TEN:1;
} B;
} TCTRL; /* Timer Control Register @baseaddress + 0xF8 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t TIF:1;
} B;
} TFLG; /* Timer Flag Register */
} RTI; /* RTI Channel @baseaddress + 0xFC */
struct {
union {
vuint32_t R;
} LDVAL; /* Timer Load Value Register @baseaddress + CH + 0x0 */
union {
vuint32_t R;
} CVAL; /* Current Timer Value Register @baseaddress + CH + 0x4 */
union {
vuint32_t R;
struct {
vuint32_t:30;
vuint32_t TIE:1;
vuint32_t TEN:1;
} B;
} TCTRL; /* Timer Control Register @baseaddress + CH + 0x8 */
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t TIF:1;
} B;
} TFLG; /* Timer Flag Register @baseaddress + CH + 0xC */
} TIMER[4]; /* Timer Channels @baseaddress + 0x100 */
};
/****************************************************************************/
/* MODULE : FlexRay */
/****************************************************************************/
typedef union uMVR {
vuint16_t R;
struct {
vuint16_t CHIVER:8; /* CHI Version Number */
vuint16_t PEVER:8; /* PE Version Number */
} B;
} MVR_t;
typedef union uMCR {
vuint16_t R;
struct {
vuint16_t MEN:1; /* module enable */
vuint16_t:1;
vuint16_t SCMD:1; /* single channel mode */
vuint16_t CHB:1; /* channel B enable */
vuint16_t CHA:1; /* channel A enable */
vuint16_t SFFE:1; /* synchronization frame filter enable */
vuint16_t:5;
vuint16_t CLKSEL:1; /* protocol engine clock source select */
vuint16_t PRESCALE:3; /* protocol engine clock prescaler */
vuint16_t:1;
} B;
} MCR_t;
typedef union uSTBSCR {
vuint16_t R;
struct {
vuint16_t WMD:1; /* write mode */
vuint16_t STBSSEL:7; /* strobe signal select */
vuint16_t:3;
vuint16_t ENB:1; /* strobe signal enable */
vuint16_t:2;
vuint16_t STBPSEL:2; /* strobe port select */
} B;
} STBSCR_t;
typedef union uSTBPCR {
vuint16_t R;
struct {
vuint16_t:12;
vuint16_t STB3EN:1; /* strobe port enable */
vuint16_t STB2EN:1; /* strobe port enable */
vuint16_t STB1EN:1; /* strobe port enable */
vuint16_t STB0EN:1; /* strobe port enable */
} B;
} STBPCR_t;
typedef union uMBDSR {
vuint16_t R;
struct {
vuint16_t:1;
vuint16_t MBSEG2DS:7; /* message buffer segment 2 data size */
vuint16_t:1;
vuint16_t MBSEG1DS:7; /* message buffer segment 1 data size */
} B;
} MBDSR_t;
typedef union uMBSSUTR {
vuint16_t R;
struct {
vuint16_t:1;
vuint16_t LAST_MB_SEG1:7; /* last message buffer control register for message buffer segment 1 */
vuint16_t:1;
vuint16_t LAST_MB_UTIL:7; /* last message buffer utilized */
} B;
} MBSSUTR_t;
typedef union uPOCR {
vuint16_t R;
vuint8_t byte[2];
struct {
vuint16_t WME:1; /* write mode external correction command */
vuint16_t:3;
vuint16_t EOC_AP:2; /* external offset correction application */
vuint16_t ERC_AP:2; /* external rate correction application */
vuint16_t BSY:1; /* command write busy / write mode command */
vuint16_t:3;
vuint16_t POCCMD:4; /* protocol command */
} B;
} POCR_t;
/* protocol commands */
typedef union uGIFER {
vuint16_t R;
struct {
vuint16_t MIF:1; /* module interrupt flag */
vuint16_t PRIF:1; /* protocol interrupt flag */
vuint16_t CHIF:1; /* CHI interrupt flag */
vuint16_t WKUPIF:1; /* wakeup interrupt flag */
vuint16_t FNEBIF:1; /* receive FIFO channel B not empty interrupt flag */
vuint16_t FNEAIF:1; /* receive FIFO channel A not empty interrupt flag */
vuint16_t RBIF:1; /* receive message buffer interrupt flag */
vuint16_t TBIF:1; /* transmit buffer interrupt flag */
vuint16_t MIE:1; /* module interrupt enable */
vuint16_t PRIE:1; /* protocol interrupt enable */
vuint16_t CHIE:1; /* CHI interrupt enable */
vuint16_t WKUPIE:1; /* wakeup interrupt enable */
vuint16_t FNEBIE:1; /* receive FIFO channel B not empty interrupt enable */
vuint16_t FNEAIE:1; /* receive FIFO channel A not empty interrupt enable */
vuint16_t RBIE:1; /* receive message buffer interrupt enable */
vuint16_t TBIE:1; /* transmit buffer interrupt enable */
} B;
} GIFER_t;
typedef union uPIFR0 {
vuint16_t R;
struct {
vuint16_t FATLIF:1; /* fatal protocol error interrupt flag */
vuint16_t INTLIF:1; /* internal protocol error interrupt flag */
vuint16_t ILCFIF:1; /* illegal protocol configuration flag */
vuint16_t CSAIF:1; /* cold start abort interrupt flag */
vuint16_t MRCIF:1; /* missing rate correctio interrupt flag */
vuint16_t MOCIF:1; /* missing offset correctio interrupt flag */
vuint16_t CCLIF:1; /* clock correction limit reached interrupt flag */
vuint16_t MXSIF:1; /* max sync frames detected interrupt flag */
vuint16_t MTXIF:1; /* media access test symbol received flag */
vuint16_t LTXBIF:1; /* pdLatestTx violation on channel B interrupt flag */
vuint16_t LTXAIF:1; /* pdLatestTx violation on channel A interrupt flag */
vuint16_t TBVBIF:1; /* Transmission across boundary on channel B Interrupt Flag */
vuint16_t TBVAIF:1; /* Transmission across boundary on channel A Interrupt Flag */
vuint16_t TI2IF:1; /* timer 2 expired interrupt flag */
vuint16_t TI1IF:1; /* timer 1 expired interrupt flag */
vuint16_t CYSIF:1; /* cycle start interrupt flag */
} B;
} PIFR0_t;
typedef union uPIFR1 {
vuint16_t R;
struct {
vuint16_t EMCIF:1; /* error mode changed interrupt flag */
vuint16_t IPCIF:1; /* illegal protocol command interrupt flag */
vuint16_t PECFIF:1; /* protocol engine communication failure interrupt flag */
vuint16_t PSCIF:1; /* Protocol State Changed Interrupt Flag */
vuint16_t SSI3IF:1; /* slot status counter incremented interrupt flag */
vuint16_t SSI2IF:1; /* slot status counter incremented interrupt flag */
vuint16_t SSI1IF:1; /* slot status counter incremented interrupt flag */
vuint16_t SSI0IF:1; /* slot status counter incremented interrupt flag */
vuint16_t:2;
vuint16_t EVTIF:1; /* even cycle table written interrupt flag */
vuint16_t ODTIF:1; /* odd cycle table written interrupt flag */
vuint16_t:4;
} B;
} PIFR1_t;
typedef union uPIER0 {
vuint16_t R;
struct {
vuint16_t FATLIE:1; /* fatal protocol error interrupt enable */
vuint16_t INTLIE:1; /* internal protocol error interrupt interrupt enable */
vuint16_t ILCFIE:1; /* illegal protocol configuration interrupt enable */
vuint16_t CSAIE:1; /* cold start abort interrupt enable */
vuint16_t MRCIE:1; /* missing rate correctio interrupt enable */
vuint16_t MOCIE:1; /* missing offset correctio interrupt enable */
vuint16_t CCLIE:1; /* clock correction limit reached interrupt enable */
vuint16_t MXSIE:1; /* max sync frames detected interrupt enable */
vuint16_t MTXIE:1; /* media access test symbol received interrupt enable */
vuint16_t LTXBIE:1; /* pdLatestTx violation on channel B interrupt enable */
vuint16_t LTXAIE:1; /* pdLatestTx violation on channel A interrupt enable */
vuint16_t TBVBIE:1; /* Transmission across boundary on channel B Interrupt enable */
vuint16_t TBVAIE:1; /* Transmission across boundary on channel A Interrupt enable */
vuint16_t TI2IE:1; /* timer 2 expired interrupt enable */
vuint16_t TI1IE:1; /* timer 1 expired interrupt enable */
vuint16_t CYSIE:1; /* cycle start interrupt enable */
} B;
} PIER0_t;
typedef union uPIER1 {
vuint16_t R;
struct {
vuint16_t EMCIE:1; /* error mode changed interrupt enable */
vuint16_t IPCIE:1; /* illegal protocol command interrupt enable */
vuint16_t PECFIE:1; /* protocol engine communication failure interrupt enable */
vuint16_t PSCIE:1; /* Protocol State Changed Interrupt enable */
vuint16_t SSI3IE:1; /* slot status counter incremented interrupt enable */
vuint16_t SSI2IE:1; /* slot status counter incremented interrupt enable */
vuint16_t SSI1IE:1; /* slot status counter incremented interrupt enable */
vuint16_t SSI0IE:1; /* slot status counter incremented interrupt enable */
vuint16_t:2;
vuint16_t EVTIE:1; /* even cycle table written interrupt enable */
vuint16_t ODTIE:1; /* odd cycle table written interrupt enable */
vuint16_t:4;
} B;
} PIER1_t;
typedef union uCHIERFR {
vuint16_t R;
struct {
vuint16_t FRLBEF:1; /* flame lost channel B error flag */
vuint16_t FRLAEF:1; /* frame lost channel A error flag */
vuint16_t PCMIEF:1; /* command ignored error flag */
vuint16_t FOVBEF:1; /* receive FIFO overrun channel B error flag */
vuint16_t FOVAEF:1; /* receive FIFO overrun channel A error flag */
vuint16_t MSBEF:1; /* message buffer search error flag */
vuint16_t MBUEF:1; /* message buffer utilization error flag */
vuint16_t LCKEF:1; /* lock error flag */
vuint16_t DBLEF:1; /* double transmit message buffer lock error flag */
vuint16_t SBCFEF:1; /* system bus communication failure error flag */
vuint16_t FIDEF:1; /* frame ID error flag */
vuint16_t DPLEF:1; /* dynamic payload length error flag */
vuint16_t SPLEF:1; /* static payload length error flag */
vuint16_t NMLEF:1; /* network management length error flag */
vuint16_t NMFEF:1; /* network management frame error flag */
vuint16_t ILSAEF:1; /* illegal access error flag */
} B;
} CHIERFR_t;
typedef union uMBIVEC {
vuint16_t R;
struct {
vuint16_t:1;
vuint16_t TBIVEC:7; /* transmit buffer interrupt vector */
vuint16_t:1;
vuint16_t RBIVEC:7; /* receive buffer interrupt vector */
} B;
} MBIVEC_t;
typedef union uPSR0 {
vuint16_t R;
struct {
vuint16_t ERRMODE:2; /* error mode */
vuint16_t SLOTMODE:2; /* slot mode */
vuint16_t:1;
vuint16_t PROTSTATE:3; /* protocol state */
vuint16_t SUBSTATE:4; /* protocol sub state */
vuint16_t:1;
vuint16_t WAKEUPSTATUS:3; /* wakeup status */
} B;
} PSR0_t;
/* protocol states */
/* protocol sub-states */
/* wakeup status */
typedef union uPSR1 {
vuint16_t R;
struct {
vuint16_t CSAA:1; /* cold start attempt abort flag */
vuint16_t SCP:1; /* cold start path */
vuint16_t:1;
vuint16_t REMCSAT:5; /* remanining coldstart attempts */
vuint16_t CPN:1; /* cold start noise path */
vuint16_t HHR:1; /* host halt request pending */
vuint16_t FRZ:1; /* freeze occured */
vuint16_t APTAC:5; /* allow passive to active counter */
} B;
} PSR1_t;
typedef union uPSR2 {
vuint16_t R;
struct {
vuint16_t NBVB:1; /* NIT boundary violation on channel B */
vuint16_t NSEB:1; /* NIT syntax error on channel B */
vuint16_t STCB:1; /* symbol window transmit conflict on channel B */
vuint16_t SBVB:1; /* symbol window boundary violation on channel B */
vuint16_t SSEB:1; /* symbol window syntax error on channel B */
vuint16_t MTB:1; /* media access test symbol MTS received on channel B */
vuint16_t NBVA:1; /* NIT boundary violation on channel A */
vuint16_t NSEA:1; /* NIT syntax error on channel A */
vuint16_t STCA:1; /* symbol window transmit conflict on channel A */
vuint16_t SBVA:1; /* symbol window boundary violation on channel A */
vuint16_t SSEA:1; /* symbol window syntax error on channel A */
vuint16_t MTA:1; /* media access test symbol MTS received on channel A */
vuint16_t CLKCORRFAILCNT:4; /* clock correction failed counter */
} B;
} PSR2_t;
typedef union uPSR3 {
vuint16_t R;
struct {
vuint16_t:2;
vuint16_t WUB:1; /* wakeup symbol received on channel B */
vuint16_t ABVB:1; /* aggregated boundary violation on channel B */
vuint16_t AACB:1; /* aggregated additional communication on channel B */
vuint16_t ACEB:1; /* aggregated content error on channel B */
vuint16_t ASEB:1; /* aggregated syntax error on channel B */
vuint16_t AVFB:1; /* aggregated valid frame on channel B */
vuint16_t:2;
vuint16_t WUA:1; /* wakeup symbol received on channel A */
vuint16_t ABVA:1; /* aggregated boundary violation on channel A */
vuint16_t AACA:1; /* aggregated additional communication on channel A */
vuint16_t ACEA:1; /* aggregated content error on channel A */
vuint16_t ASEA:1; /* aggregated syntax error on channel A */
vuint16_t AVFA:1; /* aggregated valid frame on channel A */
} B;
} PSR3_t;
typedef union uCIFRR {
vuint16_t R;
struct {
vuint16_t:8;
vuint16_t MIFR:1; /* module interrupt flag */
vuint16_t PRIFR:1; /* protocol interrupt flag */
vuint16_t CHIFR:1; /* CHI interrupt flag */
vuint16_t WUPIFR:1; /* wakeup interrupt flag */
vuint16_t FNEBIFR:1; /* receive fifo channel B no empty interrupt flag */
vuint16_t FNEAIFR:1; /* receive fifo channel A no empty interrupt flag */
vuint16_t RBIFR:1; /* receive message buffer interrupt flag */
vuint16_t TBIFR:1; /* transmit buffer interrupt flag */
} B;
} CIFRR_t;
typedef union uSFCNTR {
vuint16_t R;
struct {
vuint16_t SFEVB:4; /* sync frames channel B, even cycle */
vuint16_t SFEVA:4; /* sync frames channel A, even cycle */
vuint16_t SFODB:4; /* sync frames channel B, odd cycle */
vuint16_t SFODA:4; /* sync frames channel A, odd cycle */
} B;
} SFCNTR_t;
typedef union uSFTCCSR {
vuint16_t R;
struct {
vuint16_t ELKT:1; /* even cycle tables lock and unlock trigger */
vuint16_t OLKT:1; /* odd cycle tables lock and unlock trigger */
vuint16_t CYCNUM:6; /* cycle number */
vuint16_t ELKS:1; /* even cycle tables lock status */
vuint16_t OLKS:1; /* odd cycle tables lock status */
vuint16_t EVAL:1; /* even cycle tables valid */
vuint16_t OVAL:1; /* odd cycle tables valid */
vuint16_t:1;
vuint16_t OPT:1; /*one pair trigger */
vuint16_t SDVEN:1; /* sync frame deviation table enable */
vuint16_t SIDEN:1; /* sync frame ID table enable */
} B;
} SFTCCSR_t;
typedef union uSFIDRFR {
vuint16_t R;
struct {
vuint16_t:6;
vuint16_t SYNFRID:10; /* sync frame rejection ID */
} B;
} SFIDRFR_t;
typedef union uTICCR {
vuint16_t R;
struct {
vuint16_t:2;
vuint16_t T2CFG:1; /* timer 2 configuration */
vuint16_t T2REP:1; /* timer 2 repetitive mode */
vuint16_t:1;
vuint16_t T2SP:1; /* timer 2 stop */
vuint16_t T2TR:1; /* timer 2 trigger */
vuint16_t T2ST:1; /* timer 2 state */
vuint16_t:3;
vuint16_t T1REP:1; /* timer 1 repetitive mode */
vuint16_t:1;
vuint16_t T1SP:1; /* timer 1 stop */
vuint16_t T1TR:1; /* timer 1 trigger */
vuint16_t T1ST:1; /* timer 1 state */
} B;
} TICCR_t;
typedef union uTI1CYSR {
vuint16_t R;
struct {
vuint16_t:2;
vuint16_t TI1CYCVAL:6; /* timer 1 cycle filter value */
vuint16_t:2;
vuint16_t TI1CYCMSK:6; /* timer 1 cycle filter mask */
} B;
} TI1CYSR_t;
typedef union uSSSR {
vuint16_t R;
struct {
vuint16_t WMD:1; /* write mode */
vuint16_t:1;
vuint16_t SEL:2; /* static slot number */
vuint16_t:1;
vuint16_t SLOTNUMBER:11; /* selector */
} B;
} SSSR_t;
typedef union uSSCCR {
vuint16_t R;
struct {
vuint16_t WMD:1; /* write mode */
vuint16_t:1;
vuint16_t SEL:2; /* selector */
vuint16_t:1;
vuint16_t CNTCFG:2; /* counter configuration */
vuint16_t MCY:1; /* multi cycle selection */
vuint16_t VFR:1; /* valid frame selection */
vuint16_t SYF:1; /* sync frame selection */
vuint16_t NUF:1; /* null frame selection */
vuint16_t SUF:1; /* startup frame selection */
vuint16_t STATUSMASK:4; /* slot status mask */
} B;
} SSCCR_t;
typedef union uSSR {
vuint16_t R;
struct {
vuint16_t VFB:1; /* valid frame on channel B */
vuint16_t SYB:1; /* valid sync frame on channel B */
vuint16_t NFB:1; /* valid null frame on channel B */
vuint16_t SUB:1; /* valid startup frame on channel B */
vuint16_t SEB:1; /* syntax error on channel B */
vuint16_t CEB:1; /* content error on channel B */
vuint16_t BVB:1; /* boundary violation on channel B */
vuint16_t TCB:1; /* tx conflict on channel B */
vuint16_t VFA:1; /* valid frame on channel A */
vuint16_t SYA:1; /* valid sync frame on channel A */
vuint16_t NFA:1; /* valid null frame on channel A */
vuint16_t SUA:1; /* valid startup frame on channel A */
vuint16_t SEA:1; /* syntax error on channel A */
vuint16_t CEA:1; /* content error on channel A */
vuint16_t BVA:1; /* boundary violation on channel A */
vuint16_t TCA:1; /* tx conflict on channel A */
} B;
} SSR_t;
typedef union uMTSCFR {
vuint16_t R;
struct {
vuint16_t MTE:1; /* media access test symbol transmission enable */
vuint16_t:1;
vuint16_t CYCCNTMSK:6; /* cycle counter mask */
vuint16_t:2;
vuint16_t CYCCNTVAL:6; /* cycle counter value */
} B;
} MTSCFR_t;
typedef union uRSBIR {
vuint16_t R;
struct {
vuint16_t WMD:1; /* write mode */
vuint16_t:1;
vuint16_t SEL:2; /* selector */
vuint16_t:4;
vuint16_t RSBIDX:8; /* receive shadow buffer index */
} B;
} RSBIR_t;
typedef union uRFDSR {
vuint16_t R;
struct {
vuint16_t FIFODEPTH:8; /* fifo depth */
vuint16_t:1;
vuint16_t ENTRYSIZE:7; /* entry size */
} B;
} RFDSR_t;
typedef union uRFRFCFR {
vuint16_t R;
struct {
vuint16_t WMD:1; /* write mode */
vuint16_t IBD:1; /* interval boundary */
vuint16_t SEL:2; /* filter number */
vuint16_t:1;
vuint16_t SID:11; /* slot ID */
} B;
} RFRFCFR_t;
typedef union uRFRFCTR {
vuint16_t R;
struct {
vuint16_t:4;
vuint16_t F3MD:1; /* filter mode */
vuint16_t F2MD:1; /* filter mode */
vuint16_t F1MD:1; /* filter mode */
vuint16_t F0MD:1; /* filter mode */
vuint16_t:4;
vuint16_t F3EN:1; /* filter enable */
vuint16_t F2EN:1; /* filter enable */
vuint16_t F1EN:1; /* filter enable */
vuint16_t F0EN:1; /* filter enable */
} B;
} RFRFCTR_t;
typedef union uPCR0 {
vuint16_t R;
struct {
vuint16_t ACTION_POINT_OFFSET:6;
vuint16_t STATIC_SLOT_LENGTH:10;
} B;
} PCR0_t;
typedef union uPCR1 {
vuint16_t R;
struct {
vuint16_t:2;
vuint16_t MACRO_AFTER_FIRST_STATIC_SLOT:14;
} B;
} PCR1_t;
typedef union uPCR2 {
vuint16_t R;
struct {
vuint16_t MINISLOT_AFTER_ACTION_POINT:6;
vuint16_t NUMBER_OF_STATIC_SLOTS:10;
} B;
} PCR2_t;
typedef union uPCR3 {
vuint16_t R;
struct {
vuint16_t WAKEUP_SYMBOL_RX_LOW:6;
vuint16_t MINISLOT_ACTION_POINT_OFFSET:5;
vuint16_t COLDSTART_ATTEMPTS:5;
} B;
} PCR3_t;
typedef union uPCR4 {
vuint16_t R;
struct {
vuint16_t CAS_RX_LOW_MAX:7;
vuint16_t WAKEUP_SYMBOL_RX_WINDOW:9;
} B;
} PCR4_t;
typedef union uPCR5 {
vuint16_t R;
struct {
vuint16_t TSS_TRANSMITTER:4;
vuint16_t WAKEUP_SYMBOL_TX_LOW:6;
vuint16_t WAKEUP_SYMBOL_RX_IDLE:6;
} B;
} PCR5_t;
typedef union uPCR6 {
vuint16_t R;
struct {
vuint16_t:1;
vuint16_t SYMBOL_WINDOW_AFTER_ACTION_POINT:8;
vuint16_t MACRO_INITIAL_OFFSET_A:7;
} B;
} PCR6_t;
typedef union uPCR7 {
vuint16_t R;
struct {
vuint16_t DECODING_CORRECTION_B:9;
vuint16_t MICRO_PER_MACRO_NOM_HALF:7;
} B;
} PCR7_t;
typedef union uPCR8 {
vuint16_t R;
struct {
vuint16_t MAX_WITHOUT_CLOCK_CORRECTION_FATAL:4;
vuint16_t MAX_WITHOUT_CLOCK_CORRECTION_PASSIVE:4;
vuint16_t WAKEUP_SYMBOL_TX_IDLE:8;
} B;
} PCR8_t;
typedef union uPCR9 {
vuint16_t R;
struct {
vuint16_t MINISLOT_EXISTS:1;
vuint16_t SYMBOL_WINDOW_EXISTS:1;
vuint16_t OFFSET_CORRECTION_OUT:14;
} B;
} PCR9_t;
typedef union uPCR10 {
vuint16_t R;
struct {
vuint16_t SINGLE_SLOT_ENABLED:1;
vuint16_t WAKEUP_CHANNEL:1;
vuint16_t MACRO_PER_CYCLE:14;
} B;
} PCR10_t;
typedef union uPCR11 {
vuint16_t R;
struct {
vuint16_t KEY_SLOT_USED_FOR_STARTUP:1;
vuint16_t KEY_SLOT_USED_FOR_SYNC:1;
vuint16_t OFFSET_CORRECTION_START:14;
} B;
} PCR11_t;
typedef union uPCR12 {
vuint16_t R;
struct {
vuint16_t ALLOW_PASSIVE_TO_ACTIVE:5;
vuint16_t KEY_SLOT_HEADER_CRC:11;
} B;
} PCR12_t;
typedef union uPCR13 {
vuint16_t R;
struct {
vuint16_t FIRST_MINISLOT_ACTION_POINT_OFFSET:6;
vuint16_t STATIC_SLOT_AFTER_ACTION_POINT:10;
} B;
} PCR13_t;
typedef union uPCR14 {
vuint16_t R;
struct {
vuint16_t RATE_CORRECTION_OUT:11;
vuint16_t LISTEN_TIMEOUT_H:5;
} B;
} PCR14_t;
typedef union uPCR15 {
vuint16_t R;
struct {
vuint16_t LISTEN_TIMEOUT_L:16;
} B;
} PCR15_t;
typedef union uPCR16 {
vuint16_t R;
struct {
vuint16_t MACRO_INITIAL_OFFSET_B:7;
vuint16_t NOISE_LISTEN_TIMEOUT_H:9;
} B;
} PCR16_t;
typedef union uPCR17 {
vuint16_t R;
struct {
vuint16_t NOISE_LISTEN_TIMEOUT_L:16;
} B;
} PCR17_t;
typedef union uPCR18 {
vuint16_t R;
struct {
vuint16_t WAKEUP_PATTERN:6;
vuint16_t KEY_SLOT_ID:10;
} B;
} PCR18_t;
typedef union uPCR19 {
vuint16_t R;
struct {
vuint16_t DECODING_CORRECTION_A:9;
vuint16_t PAYLOAD_LENGTH_STATIC:7;
} B;
} PCR19_t;
typedef union uPCR20 {
vuint16_t R;
struct {
vuint16_t MICRO_INITIAL_OFFSET_B:8;
vuint16_t MICRO_INITIAL_OFFSET_A:8;
} B;
} PCR20_t;
typedef union uPCR21 {
vuint16_t R;
struct {
vuint16_t EXTERN_RATE_CORRECTION:3;
vuint16_t LATEST_TX:13;
} B;
} PCR21_t;
typedef union uPCR22 {
vuint16_t R;
struct {
vuint16_t:1;
vuint16_t COMP_ACCEPTED_STARTUP_RANGE_A:11;
vuint16_t MICRO_PER_CYCLE_H:4;
} B;
} PCR22_t;
typedef union uPCR23 {
vuint16_t R;
struct {
vuint16_t micro_per_cycle_l:16;
} B;
} PCR23_t;
typedef union uPCR24 {
vuint16_t R;
struct {
vuint16_t CLUSTER_DRIFT_DAMPING:5;
vuint16_t MAX_PAYLOAD_LENGTH_DYNAMIC:7;
vuint16_t MICRO_PER_CYCLE_MIN_H:4;
} B;
} PCR24_t;
typedef union uPCR25 {
vuint16_t R;
struct {
vuint16_t MICRO_PER_CYCLE_MIN_L:16;
} B;
} PCR25_t;
typedef union uPCR26 {
vuint16_t R;
struct {
vuint16_t ALLOW_HALT_DUE_TO_CLOCK:1;
vuint16_t COMP_ACCEPTED_STARTUP_RANGE_B:11;
vuint16_t MICRO_PER_CYCLE_MAX_H:4;
} B;
} PCR26_t;
typedef union uPCR27 {
vuint16_t R;
struct {
vuint16_t MICRO_PER_CYCLE_MAX_L:16;
} B;
} PCR27_t;
typedef union uPCR28 {
vuint16_t R;
struct {
vuint16_t DYNAMIC_SLOT_IDLE_PHASE:2;
vuint16_t MACRO_AFTER_OFFSET_CORRECTION:14;
} B;
} PCR28_t;
typedef union uPCR29 {
vuint16_t R;
struct {
vuint16_t EXTERN_OFFSET_CORRECTION:3;
vuint16_t MINISLOTS_MAX:13;
} B;
} PCR29_t;
typedef union uPCR30 {
vuint16_t R;
struct {
vuint16_t:12;
vuint16_t SYNC_NODE_MAX:4;
} B;
} PCR30_t;
typedef struct uMSG_BUFF_CCS {
union {
vuint16_t R;
struct {
vuint16_t:1;
vuint16_t MCM:1; /* message buffer commit mode */
vuint16_t MBT:1; /* message buffer type */
vuint16_t MTD:1; /* message buffer direction */
vuint16_t CMT:1; /* commit for transmission */
vuint16_t EDT:1; /* enable / disable trigger */
vuint16_t LCKT:1; /* lock request trigger */
vuint16_t MBIE:1; /* message buffer interrupt enable */
vuint16_t:3;
vuint16_t DUP:1; /* data updated */
vuint16_t DVAL:1; /* data valid */
vuint16_t EDS:1; /* lock status */
vuint16_t LCKS:1; /* enable / disable status */
vuint16_t MBIF:1; /* message buffer interrupt flag */
} B;
} MBCCSR;
union {
vuint16_t R;
struct {
vuint16_t MTM:1; /* message buffer transmission mode */
vuint16_t CHNLA:1; /* channel assignement */
vuint16_t CHNLB:1; /* channel assignement */
vuint16_t CCFE:1; /* cycle counter filter enable */
vuint16_t CCFMSK:6; /* cycle counter filter mask */
vuint16_t CCFVAL:6; /* cycle counter filter value */
} B;
} MBCCFR;
union {
vuint16_t R;
struct {
vuint16_t:5;
vuint16_t FID:11; /* frame ID */
} B;
} MBFIDR;
union {
vuint16_t R;
struct {
vuint16_t:8;
vuint16_t MBIDX:8; /* message buffer index */
} B;
} MBIDXR;
} MSG_BUFF_CCS_t;
typedef union uSYSBADHR {
vuint16_t R;
} SYSBADHR_t;
typedef union uSYSBADLR {
vuint16_t R;
} SYSBADLR_t;
typedef union uPDAR {
vuint16_t R;
} PDAR_t;
typedef union uCASERCR {
vuint16_t R;
} CASERCR_t;
typedef union uCBSERCR {
vuint16_t R;
} CBSERCR_t;
typedef union uCYCTR {
vuint16_t R;
} CYCTR_t;
typedef union uMTCTR {
vuint16_t R;
} MTCTR_t;
typedef union uSLTCTAR {
vuint16_t R;
} SLTCTAR_t;
typedef union uSLTCTBR {
vuint16_t R;
} SLTCTBR_t;
typedef union uRTCORVR {
vuint16_t R;
} RTCORVR_t;
typedef union uOFCORVR {
vuint16_t R;
} OFCORVR_t;
typedef union uSFTOR {
vuint16_t R;
} SFTOR_t;
typedef union uSFIDAFVR {
vuint16_t R;
} SFIDAFVR_t;
typedef union uSFIDAFMR {
vuint16_t R;
} SFIDAFMR_t;
typedef union uNMVR {
vuint16_t R;
} NMVR_t;
typedef union uNMVLR {
vuint16_t R;
} NMVLR_t;
typedef union uT1MTOR {
vuint16_t R;
} T1MTOR_t;
typedef union uTI2CR0 {
vuint16_t R;
} TI2CR0_t;
typedef union uTI2CR1 {
vuint16_t R;
} TI2CR1_t;
typedef union uSSCR {
vuint16_t R;
} SSCR_t;
typedef union uRFSR {
vuint16_t R;
} RFSR_t;
typedef union uRFSIR {
vuint16_t R;
} RFSIR_t;
typedef union uRFARIR {
vuint16_t R;
} RFARIR_t;
typedef union uRFBRIR {
vuint16_t R;
} RFBRIR_t;
typedef union uRFMIDAFVR {
vuint16_t R;
} RFMIDAFVR_t;
typedef union uRFMIAFMR {
vuint16_t R;
} RFMIAFMR_t;
typedef union uRFFIDRFVR {
vuint16_t R;
} RFFIDRFVR_t;
typedef union uRFFIDRFMR {
vuint16_t R;
} RFFIDRFMR_t;
typedef union uLDTXSLAR {
vuint16_t R;
} LDTXSLAR_t;
typedef union uLDTXSLBR {
vuint16_t R;
} LDTXSLBR_t;
typedef struct FR_tag {
volatile MVR_t MVR; /*module version register *//*0 */
volatile MCR_t MCR; /*module configuration register *//*2 */
volatile SYSBADHR_t SYSBADHR; /*system memory base address high register *//*4 */
volatile SYSBADLR_t SYSBADLR; /*system memory base address low register *//*6 */
volatile STBSCR_t STBSCR; /*strobe signal control register *//*8 */
volatile STBPCR_t STBPCR; /*strobe port control register *//*A */
volatile MBDSR_t MBDSR; /*message buffer data size register *//*C */
volatile MBSSUTR_t MBSSUTR; /*message buffer segment size and utilization register *//*E */
vuint16_t reserved3a[1]; /*10 */
volatile PDAR_t PDAR; /*PE data register *//*12 */
volatile POCR_t POCR; /*Protocol operation control register *//*14 */
volatile GIFER_t GIFER; /*global interrupt flag and enable register *//*16 */
volatile PIFR0_t PIFR0; /*protocol interrupt flag register 0 *//*18 */
volatile PIFR1_t PIFR1; /*protocol interrupt flag register 1 *//*1A */
volatile PIER0_t PIER0; /*protocol interrupt enable register 0 *//*1C */
volatile PIER1_t PIER1; /*protocol interrupt enable register 1 *//*1E */
volatile CHIERFR_t CHIERFR; /*CHI error flag register *//*20 */
volatile MBIVEC_t MBIVEC; /*message buffer interrupt vector register *//*22 */
volatile CASERCR_t CASERCR; /*channel A status error counter register *//*24 */
volatile CBSERCR_t CBSERCR; /*channel B status error counter register *//*26 */
volatile PSR0_t PSR0; /*protocol status register 0 *//*28 */
volatile PSR1_t PSR1; /*protocol status register 1 *//*2A */
volatile PSR2_t PSR2; /*protocol status register 2 *//*2C */
volatile PSR3_t PSR3; /*protocol status register 3 *//*2E */
volatile MTCTR_t MTCTR; /*macrotick counter register *//*30 */
volatile CYCTR_t CYCTR; /*cycle counter register *//*32 */
volatile SLTCTAR_t SLTCTAR; /*slot counter channel A register *//*34 */
volatile SLTCTBR_t SLTCTBR; /*slot counter channel B register *//*36 */
volatile RTCORVR_t RTCORVR; /*rate correction value register *//*38 */
volatile OFCORVR_t OFCORVR; /*offset correction value register *//*3A */
volatile CIFRR_t CIFRR; /*combined interrupt flag register *//*3C */
vuint16_t reserved3[1]; /*3E */
volatile SFCNTR_t SFCNTR; /*sync frame counter register *//*40 */
volatile SFTOR_t SFTOR; /*sync frame table offset register *//*42 */
volatile SFTCCSR_t SFTCCSR; /*sync frame table configuration, control, status register *//*44 */
volatile SFIDRFR_t SFIDRFR; /*sync frame ID rejection filter register *//*46 */
volatile SFIDAFVR_t SFIDAFVR; /*sync frame ID acceptance filter value regiater *//*48 */
volatile SFIDAFMR_t SFIDAFMR; /*sync frame ID acceptance filter mask register *//*4A */
volatile NMVR_t NMVR[6]; /*network management vector registers (12 bytes) *//*4C */
volatile NMVLR_t NMVLR; /*network management vector length register *//*58 */
volatile TICCR_t TICCR; /*timer configuration and control register *//*5A */
volatile TI1CYSR_t TI1CYSR; /*timer 1 cycle set register *//*5C */
volatile T1MTOR_t T1MTOR; /*timer 1 macrotick offset register *//*5E */
volatile TI2CR0_t TI2CR0; /*timer 2 configuration register 0 *//*60 */
volatile TI2CR1_t TI2CR1; /*timer 2 configuration register 1 *//*62 */
volatile SSSR_t SSSR; /*slot status selection register *//*64 */
volatile SSCCR_t SSCCR; /*slot status counter condition register *//*66 */
volatile SSR_t SSR[8]; /*slot status registers 0-7 *//*68 */
volatile SSCR_t SSCR[4]; /*slot status counter registers 0-3 *//*78 */
volatile MTSCFR_t MTSACFR; /*mts a config register *//*80 */
volatile MTSCFR_t MTSBCFR; /*mts b config register *//*82 */
volatile RSBIR_t RSBIR; /*receive shadow buffer index register *//*84 */
volatile RFSR_t RFSR; /*receive fifo selection register *//*86 */
volatile RFSIR_t RFSIR; /*receive fifo start index register *//*88 */
volatile RFDSR_t RFDSR; /*receive fifo depth and size register *//*8A */
volatile RFARIR_t RFARIR; /*receive fifo a read index register *//*8C */
volatile RFBRIR_t RFBRIR; /*receive fifo b read index register *//*8E */
volatile RFMIDAFVR_t RFMIDAFVR; /*receive fifo message ID acceptance filter value register *//*90 */
volatile RFMIAFMR_t RFMIAFMR; /*receive fifo message ID acceptance filter mask register *//*92 */
volatile RFFIDRFVR_t RFFIDRFVR; /*receive fifo frame ID rejection filter value register *//*94 */
volatile RFFIDRFMR_t RFFIDRFMR; /*receive fifo frame ID rejection filter mask register *//*96 */
volatile RFRFCFR_t RFRFCFR; /*receive fifo range filter configuration register *//*98 */
volatile RFRFCTR_t RFRFCTR; /*receive fifo range filter control register *//*9A */
volatile LDTXSLAR_t LDTXSLAR; /*last dynamic transmit slot channel A register *//*9C */
volatile LDTXSLBR_t LDTXSLBR; /*last dynamic transmit slot channel B register *//*9E */
volatile PCR0_t PCR0; /*protocol configuration register 0 *//*A0 */
volatile PCR1_t PCR1; /*protocol configuration register 1 *//*A2 */
volatile PCR2_t PCR2; /*protocol configuration register 2 *//*A4 */
volatile PCR3_t PCR3; /*protocol configuration register 3 *//*A6 */
volatile PCR4_t PCR4; /*protocol configuration register 4 *//*A8 */
volatile PCR5_t PCR5; /*protocol configuration register 5 *//*AA */
volatile PCR6_t PCR6; /*protocol configuration register 6 *//*AC */
volatile PCR7_t PCR7; /*protocol configuration register 7 *//*AE */
volatile PCR8_t PCR8; /*protocol configuration register 8 *//*B0 */
volatile PCR9_t PCR9; /*protocol configuration register 9 *//*B2 */
volatile PCR10_t PCR10; /*protocol configuration register 10 *//*B4 */
volatile PCR11_t PCR11; /*protocol configuration register 11 *//*B6 */
volatile PCR12_t PCR12; /*protocol configuration register 12 *//*B8 */
volatile PCR13_t PCR13; /*protocol configuration register 13 *//*BA */
volatile PCR14_t PCR14; /*protocol configuration register 14 *//*BC */
volatile PCR15_t PCR15; /*protocol configuration register 15 *//*BE */
volatile PCR16_t PCR16; /*protocol configuration register 16 *//*C0 */
volatile PCR17_t PCR17; /*protocol configuration register 17 *//*C2 */
volatile PCR18_t PCR18; /*protocol configuration register 18 *//*C4 */
volatile PCR19_t PCR19; /*protocol configuration register 19 *//*C6 */
volatile PCR20_t PCR20; /*protocol configuration register 20 *//*C8 */
volatile PCR21_t PCR21; /*protocol configuration register 21 *//*CA */
volatile PCR22_t PCR22; /*protocol configuration register 22 *//*CC */
volatile PCR23_t PCR23; /*protocol configuration register 23 *//*CE */
volatile PCR24_t PCR24; /*protocol configuration register 24 *//*D0 */
volatile PCR25_t PCR25; /*protocol configuration register 25 *//*D2 */
volatile PCR26_t PCR26; /*protocol configuration register 26 *//*D4 */
volatile PCR27_t PCR27; /*protocol configuration register 27 *//*D6 */
volatile PCR28_t PCR28; /*protocol configuration register 28 *//*D8 */
volatile PCR29_t PCR29; /*protocol configuration register 29 *//*DA */
volatile PCR30_t PCR30; /*protocol configuration register 30 *//*DC */
vuint16_t reserved2[17];
volatile MSG_BUFF_CCS_t MBCCS[128]; /* message buffer configuration, control & status registers 0-31 *//*100 */
} FR_tag_t;
typedef union uF_HEADER /* frame header */
{
struct {
vuint16_t:5;
vuint16_t HDCRC:11; /* Header CRC */
vuint16_t:2;
vuint16_t CYCCNT:6; /* Cycle Count */
vuint16_t:1;
vuint16_t PLDLEN:7; /* Payload Length */
vuint16_t:1;
vuint16_t PPI:1; /* Payload Preamble Indicator */
vuint16_t NUF:1; /* Null Frame Indicator */
vuint16_t SYF:1; /* Sync Frame Indicator */
vuint16_t SUF:1; /* Startup Frame Indicator */
vuint16_t FID:11; /* Frame ID */
} B;
vuint16_t WORDS[3];
} F_HEADER_t;
typedef union uS_STSTUS /* slot status */
{
struct {
vuint16_t VFB:1; /* Valid Frame on channel B */
vuint16_t SYB:1; /* Sync Frame Indicator channel B */
vuint16_t NFB:1; /* Null Frame Indicator channel B */
vuint16_t SUB:1; /* Startup Frame Indicator channel B */
vuint16_t SEB:1; /* Syntax Error on channel B */
vuint16_t CEB:1; /* Content Error on channel B */
vuint16_t BVB:1; /* Boundary Violation on channel B */
vuint16_t CH:1; /* Channel */
vuint16_t VFA:1; /* Valid Frame on channel A */
vuint16_t SYA:1; /* Sync Frame Indicator channel A */
vuint16_t NFA:1; /* Null Frame Indicator channel A */
vuint16_t SUA:1; /* Startup Frame Indicator channel A */
vuint16_t SEA:1; /* Syntax Error on channel A */
vuint16_t CEA:1; /* Content Error on channel A */
vuint16_t BVA:1; /* Boundary Violation on channel A */
vuint16_t:1;
} RX;
struct {
vuint16_t VFB:1; /* Valid Frame on channel B */
vuint16_t SYB:1; /* Sync Frame Indicator channel B */
vuint16_t NFB:1; /* Null Frame Indicator channel B */
vuint16_t SUB:1; /* Startup Frame Indicator channel B */
vuint16_t SEB:1; /* Syntax Error on channel B */
vuint16_t CEB:1; /* Content Error on channel B */
vuint16_t BVB:1; /* Boundary Violation on channel B */
vuint16_t TCB:1; /* Tx Conflict on channel B */
vuint16_t VFA:1; /* Valid Frame on channel A */
vuint16_t SYA:1; /* Sync Frame Indicator channel A */
vuint16_t NFA:1; /* Null Frame Indicator channel A */
vuint16_t SUA:1; /* Startup Frame Indicator channel A */
vuint16_t SEA:1; /* Syntax Error on channel A */
vuint16_t CEA:1; /* Content Error on channel A */
vuint16_t BVA:1; /* Boundary Violation on channel A */
vuint16_t TCA:1; /* Tx Conflict on channel A */
} TX;
vuint16_t R;
} S_STATUS_t;
typedef struct uMB_HEADER /* message buffer header */
{
F_HEADER_t FRAME_HEADER;
vuint16_t DATA_OFFSET;
S_STATUS_t SLOT_STATUS;
} MB_HEADER_t;
/****************************************************************************/
/* MODULE : Power Management Controller (PMC) */
/****************************************************************************/
struct PMC_tag {
union {
vuint32_t R;
struct {
vuint32_t LVRER:1;
vuint32_t LVREH:1;
vuint32_t LVRE50:1;
vuint32_t LVRE33:1;
vuint32_t LVREC:1;
vuint32_t:3;
vuint32_t LVIER:1;
vuint32_t LVIEH:1;
vuint32_t LVIE50:1;
vuint32_t LVIE33:1;
vuint32_t LVIC:1;
vuint32_t:2;
vuint32_t TLK:1;
vuint32_t:16;
} B;
} MCR; /* Module Configuration register @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t:12;
vuint32_t LVDREGTRIM:4;
vuint32_t VDD33TRIM:4;
vuint32_t LVD33TRIM:4;
vuint32_t VDDCTRIM:4;
vuint32_t LVDCTRIM:4;
} B;
} TRIMR; /* Trimming register @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t:5;
vuint32_t LVFVSTBY:1;
vuint32_t BGRDY:1;
vuint32_t BGTS:1;
vuint32_t:5;
vuint32_t LVFCSTBY:1;
vuint32_t:1;
vuint32_t V33DIS:1;
vuint32_t LVFCR:1;
vuint32_t LVFCH:1;
vuint32_t LVFC50:1;
vuint32_t LVFC33:1;
vuint32_t LVFCC:1;
vuint32_t:3;
vuint32_t LVFR:1;
vuint32_t LVFH:1;
vuint32_t LVF50:1;
vuint32_t LVF33:1;
vuint32_t LVFC:1;
vuint32_t:3;
} B;
} SR; /* status register @baseaddress + 0x00 */
};
/****************************************************************************/
/* MODULE : MPU */
/****************************************************************************/
struct MPU_tag {
union { /* Module Control/Error Status Register */
vuint32_t R;
struct {
vuint32_t SPERR:8;
vuint32_t:4;
vuint32_t HRL:4;
vuint32_t NSP:4;
vuint32_t NRGD:4;
vuint32_t:7;
vuint32_t VLD:1;
} B;
} CESR;
uint32_t MPU_reserved0004[3]; /* 0x0004-0x000F */
struct {
union { /* MPU Error Address Registers */
vuint32_t R;
struct {
vuint32_t EADDR:32;
} B;
} EAR;
union { /* MPU Error Detail Registers */
vuint32_t R;
struct {
vuint32_t EACD:16;
vuint32_t EPID:8;
vuint32_t EMN:4;
vuint32_t EATTR:3;
vuint32_t ERW:1;
} B;
} EDR;
} PORT[2];
uint32_t MPU_reserved0020[248]; /* 0x0020-0x03FF */
struct {
union { /* Region Descriptor n Word 0 */
vuint32_t R;
struct {
vuint32_t SRTADDR:27;
vuint32_t:5;
} B;
} WORD0;
union { /* Region Descriptor n Word 1 */
vuint32_t R;
struct {
vuint32_t ENDADDR:27;
vuint32_t:5;
} B;
} WORD1;
union { /* Region Descriptor n Word 2 */
vuint32_t R;
struct {
vuint32_t M7RE:1;
vuint32_t M7WE:1;
vuint32_t M6RE:1;
vuint32_t M6WE:1;
vuint32_t:2;
vuint32_t M4RE:1;
vuint32_t M4WE:1;
vuint32_t M3PE:1;
vuint32_t M3SM:2;
vuint32_t M3UM:3;
vuint32_t M2PE:1;
vuint32_t M2SM:2;
vuint32_t M2UM:3;
vuint32_t M1PE:1;
vuint32_t M1SM:2;
vuint32_t M1UM:3;
vuint32_t M0PE:1;
vuint32_t M0SM:2;
vuint32_t M0UM:3;
} B;
} WORD2;
union { /* Region Descriptor n Word 3 */
vuint32_t R;
struct {
vuint32_t PID:8;
vuint32_t PIDMASK:8;
vuint32_t:15;
vuint32_t VLD:1;
} B;
} WORD3;
} RGD[16];
uint32_t MPU_reserved0500[192]; /* 0x0500-0x07FF */
union { /* Region Descriptor Alternate Access Control n */
vuint32_t R;
struct {
vuint32_t M7RE:1;
vuint32_t M7WE:1;
vuint32_t M6RE:1;
vuint32_t M6WE:1;
vuint32_t:2;
vuint32_t M4RE:1;
vuint32_t M4WE:1;
vuint32_t M3PE:1;
vuint32_t M3SM:2;
vuint32_t M3UM:3;
vuint32_t M2PE:1;
vuint32_t M2SM:2;
vuint32_t M2UM:3;
vuint32_t M1PE:1;
vuint32_t M1SM:2;
vuint32_t M1UM:3;
vuint32_t M0PE:1;
vuint32_t M0SM:2;
vuint32_t M0UM:3;
} B;
} RGDAAC[16];
uint32_t MPU_reserved0840[3568]; /* 0x0840-0x3FFF */
};
/****************************************************************************/
/* MODULE : TSENS (Temperature Sensor) */
/****************************************************************************/
struct TSENS_tag {
union {
vuint32_t R;
struct {
vuint32_t TSCV2:16;
vuint32_t TSCV1:16;
} B;
} TCCR0; /* Temperature Sensor Calibration B @baseaddress + 0x00 */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t TSCV3:16;
} B;
} TCCR1; /* Temperature Sensor Calibration A @baseaddress + 0x04 */
uint32_t TSENS_reserved0008[16382]; /* 0x0008-0xFFFF */
};
/****************************************************************************/
/* MODULE : DTS (Development Trigger Semaphor) */
/****************************************************************************/
struct DTS_tag {
union {
vuint32_t R;
struct {
vuint32_t:31;
vuint32_t DTS_EN:1;
}B;
} ENABLE; /* DTS Output Enable Register @baseaddress + 0x0 */
union {
vuint32_t R;
struct{
vuint32_t AD31:1;
vuint32_t AD30:1;
vuint32_t AD29:1;
vuint32_t AD28:1;
vuint32_t AD27:1;
vuint32_t AD26:1;
vuint32_t AD25:1;
vuint32_t AD24:1;
vuint32_t AD23:1;
vuint32_t AD22:1;
vuint32_t AD21:1;
vuint32_t AD20:1;
vuint32_t AD19:1;
vuint32_t AD18:1;
vuint32_t AD17:1;
vuint32_t AD16:1;
vuint32_t AD15:1;
vuint32_t AD14:1;
vuint32_t AD13:1;
vuint32_t AD12:1;
vuint32_t AD11:1;
vuint32_t AD10:1;
vuint32_t AD9:1;
vuint32_t AD8:1;
vuint32_t AD7:1;
vuint32_t AD6:1;
vuint32_t AD5:1;
vuint32_t AD4:1;
vuint32_t AD3:1;
vuint32_t AD2:1;
vuint32_t AD1:1;
vuint32_t AD0:1;
}B;
} STARTUP; /* DTS Startup Register @baseaddress + 0x4 */
union {
vuint32_t R;
struct {
vuint32_t ST31:1;
vuint32_t ST30:1;
vuint32_t ST29:1;
vuint32_t ST28:1;
vuint32_t ST27:1;
vuint32_t ST26:1;
vuint32_t ST25:1;
vuint32_t ST24:1;
vuint32_t ST23:1;
vuint32_t ST22:1;
vuint32_t ST21:1;
vuint32_t ST20:1;
vuint32_t ST19:1;
vuint32_t ST18:1;
vuint32_t ST17:1;
vuint32_t ST16:1;
vuint32_t ST15:1;
vuint32_t ST14:1;
vuint32_t ST13:1;
vuint32_t ST12:1;
vuint32_t ST11:1;
vuint32_t ST10:1;
vuint32_t ST9:1;
vuint32_t ST8:1;
vuint32_t ST7:1;
vuint32_t ST6:1;
vuint32_t ST5:1;
vuint32_t ST4:1;
vuint32_t ST3:1;
vuint32_t ST2:1;
vuint32_t ST1:1;
vuint32_t ST0:1;
}B;
} SEMAPHORE; /* DTS Semaphore Register @baseaddress + 0x8 */
uint32_t DTS_reserved000C[16381]; /* 0x000C-0xFFFF */
};
/****************************************************************************/
/* MODULE : REACM (Reaction Module) */
/****************************************************************************/
struct REACM_tag {
union {
vuint32_t R;
struct {
vuint32_t OVRC:1;
vuint32_t MDIS:1;
vuint32_t FRZ:1;
vuint32_t:1;
vuint32_t FREN:1;
vuint32_t TPREN:1;
vuint32_t HPREN:1;
vuint32_t GIEN:1;
vuint32_t OVREN:1;
vuint32_t:23;
} B;
} MCR; /* REACM Module Configuration @baseaddress + 0x0 */
union {
vuint32_t R;
struct {
vuint32_t:4;
vuint32_t HPRE:12;
vuint32_t:8;
vuint32_t TPRE:8;
} B;
} TCR; /* REACM Timer Configuration @baseaddress + 0x4 */
union {
vuint32_t R;
struct {
vuint32_t:6;
vuint32_t WREN1:1;
vuint32_t WREN0:1;
vuint32_t:12;
vuint32_t THRADC1:4;
vuint32_t:4;
vuint32_t THRADC0:4;
} B;
} THRR; /* REACM Threshold Router @baseaddress + 0x8 */
uint32_t REACM_reserved000C[1]; /* 0x000C-0x000F */
union {
vuint32_t R;
struct {
vuint32_t:12;
vuint32_t ADC_TAG:4;
vuint32_t ADC_RESULT:16;
} B;
} SINR; /* REACM ADC Sensor Input Register @baseaddress + 0x10 */
uint32_t REACM_reserved0014[3]; /* 0x0014-0x0001F */
union {
vuint32_t R;
struct {
vuint32_t OVR:1;
vuint32_t:26;
vuint32_t EF4:1;
vuint32_t EF3:1;
vuint32_t EF2:1;
vuint32_t EF1:1;
vuint32_t EF0:1;
} B;
} GEFR; /* REACM Global Error Flag @baseaddress + 0x20 */
uint32_t REACM_reserved0024[55]; /* 0x0024-0x00FF */
struct {
union {
vuint32_t R;
struct {
vuint32_t CHEN:2;
vuint32_t SWMC:1;
vuint32_t MAXLEN:1;
vuint32_t OCDFEN:1;
vuint32_t SCDFEN:1;
vuint32_t TAEREN:1;
vuint32_t SQEREN:1;
vuint32_t RAEREN:1;
vuint32_t:1;
vuint32_t CHOFF:1;
vuint32_t:2;
vuint32_t DOFF:3;
vuint32_t:5;
vuint32_t BSB:3;
vuint32_t:2;
vuint32_t MODULATION_ADDR:6;
} B;
} CR; /* REACM Channel n Configuration @baseaddress + 0x100 + (n*0x10) + 0x0 */
union {
vuint32_t R;
struct {
vuint32_t:2;
vuint32_t MODACT:1;
vuint32_t MAXL:1;
vuint32_t OCDF:1;
vuint32_t SCDF:1;
vuint32_t TAER:1;
vuint32_t SQER:1;
vuint32_t RAER:1;
vuint32_t CHOUT:3;
vuint32_t:7;
vuint32_t MAXLC:1;
vuint32_t OCDFC:1;
vuint32_t SCDFC:1;
vuint32_t TAERC:1;
vuint32_t SQERC:1;
vuint32_t RAERC:1;
vuint32_t:1;
vuint32_t MODULATION_POINTER:6;
} B;
} SR; /* REACM Channel n Status @baseaddress + 0x100 + (n*0x10) + 0x4 */
union {
vuint32_t R;
struct {
vuint32_t:12;
vuint32_t ADCR:4;
vuint32_t:12;
vuint32_t CHIR:4;
} B;
} RR; /* REACM Channel n Router @baseaddress + 0x100 + (n*0x10) + 0x8 */
uint32_t REACM_reserved01xC; /* 0x01xC-0x01xF */
} CH[6];
uint32_t REACM_reserved0160[104]; /* 0x0160-0x02FF */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t SHARED_TIMER:16;
} B;
} STBK[16]; /* REACM Shared Timer Bank @baseaddress + 0x300 */
uint32_t REACM_reserved0340[16]; /* 0x0340-0x037F */
union {
vuint32_t R;
struct {
vuint32_t:20;
vuint32_t HOLD_OFF:12;
} B;
} HOTBK[16]; /* REACM Hold-off Timer Bank @baseaddress + 0x380 */
uint32_t REACM_reserved03C0[16]; /* 0x03C0-0x03FF */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t THRESHOLD_VALUE:16;
} B;
} THBK[32]; /* REACM Threshold Timer Bank @baseaddress + 0x400 */
uint32_t REACM_reserved0480[96]; /* 0x0480-0x05FF */
union {
vuint32_t R;
struct {
vuint32_t:16;
vuint32_t ADC_MAX_LIMIT:16;
} B;
} ADCMAX; /* REACM ADC Result Max Limit Check @baseaddress + 0x600 */
uint32_t REACM_reserved0604[31]; /* 0x0604-0x067F */
union {
vuint32_t R;
struct {
vuint32_t:20;
vuint32_t RANGE_PWD:12;
} B;
} RANGEPWD; /* REACM Modulation Range Pulse Width @baseaddress + 0x680 */
uint32_t REACM_reserved0684[15]; /* 0x0684-0x06BF */
union {
vuint32_t R;
struct {
vuint32_t:20;
vuint32_t MIN_PWD:12;
} B;
} MINPWD; /* REACM Modulation Minimum Pulse Width @baseaddress + 0x6C0 */
uint32_t REACM_reserved06C4[15]; /* 0x06C4-0x06FF */
union {
vuint32_t R;
struct {
vuint32_t LOOP:1;
vuint32_t IOSS:1;
vuint32_t:1;
vuint32_t MM:2;
vuint32_t:1;
vuint32_t SM:2;
vuint32_t:1;
vuint32_t HOD:3;
vuint32_t:1;
vuint32_t LOD:3;
vuint32_t:1;
vuint32_t THRESPT:6;
vuint32_t STPT:4;
vuint32_t:1;
vuint32_t HDOFFTPT:4;
} B;
} MWBK[64]; /* REACM Modulation Control Word Bank @baseaddress + 0x700 */
};
/* Define memories */
#define SRAM_START 0x40000000
#define SRAM_SIZE 0x30000
#define SRAM_END 0x4002FFFF
#define FLASH_START 0x00000000
#define FLASH_SIZE 0x400000
#define FLASH_END 0x003FFFFF
/* Define instances of modules */
#define FMPLL (*( volatile struct FMPLL_tag *) 0xC3F80000)
#define EBI (*( volatile struct EBI_tag *) 0xC3F84000)
#define FLASH_A (*( volatile struct FLASH_tag *) 0xC3F88000)
#define FLASH_B (*( volatile struct FLASH_tag *) 0xC3F8C000)
#define SIU (*( volatile struct SIU_tag *) 0xC3F90000)
#define DTS (*( volatile struct DTS_tag *) 0xC3F9C000)
#define EMIOS (*( volatile struct EMIOS_tag *) 0xC3FA0000)
#define PMC (*( volatile struct PMC_tag *) 0xC3FBC000)
#define ETPU (*( volatile struct ETPU_tag *) 0xC3FC0000)
#define ETPU_DATA_RAM (*( uint32_t *) 0xC3FC8000)
#define ETPU_DATA_RAM_END 0xC3FC8BFC
#define ETPU_DATA_RAM_EXT (*( uint32_t *) 0xC3FCC000)
#define CODE_RAM (*( uint32_t *) 0xC3FD0000)
#define ETPU_CODE_RAM (*( uint32_t *) 0xC3FD0000)
#define REACM (*( volatile struct REACM_tag *) 0xC3FC7000)
#define PIT (*( volatile struct PIT_tag *) 0xC3FF0000)
#define CRC (*( volatile struct CRC_tag *) 0xFFE68000)
#define PBRIDGE (*( volatile struct PBRIDGE_tag *) 0xFFF00000)
#define XBAR (*( volatile struct XBAR_tag *) 0xFFF04000)
#define MPU (*( volatile struct MPU_tag *) 0xFFF10000)
#define SWT (*( volatile struct SWT_tag *) 0xFFF38000)
#define STM (*( volatile struct STM_tag *) 0xFFF3C000)
#define ECSM (*( volatile struct ECSM_tag *) 0xFFF40000)
#define EDMA (*( volatile struct EDMA_tag *) 0xFFF44000)
#define INTC (*( volatile struct INTC_tag *) 0xFFF48000)
#define EQADC (*( volatile struct EQADC_tag *) 0xFFF80000)
#define DECFIL_A (*( volatile struct DECFIL_tag *) 0xFFF88000)
#define DECFIL_B (*( volatile struct DECFIL_tag *) 0xFFF8C000)
#define DSPI_B (*( volatile struct DSPI_tag *) 0xFFF94000)
#define DSPI_C (*( volatile struct DSPI_tag *) 0xFFF98000)
#define DSPI_D (*( volatile struct DSPI_tag *) 0xFFF9C000)
#define ESCI_A (*( volatile struct ESCI_tag *) 0xFFFB0000)
#define ESCI_B (*( volatile struct ESCI_tag *) 0xFFFB4000)
#define ESCI_C (*( volatile struct ESCI_tag *) 0xFFFB8000)
#define CAN_A (*( volatile struct FLEXCAN2_tag *) 0xFFFC0000)
#define CAN_B (*( volatile struct FLEXCAN2_tag *) 0xFFFC4000)
#define CAN_C (*( volatile struct FLEXCAN2_tag *) 0xFFFC8000)
#define FR (*( volatile struct FR_tag *) 0xFFFE0000)
#define TSENS (*( volatile struct TSENS_tag *) 0xFFFEC000)
#ifdef __MWERKS__
#pragma pop
#endif
#ifdef __cplusplus
}
#endif
#endif /* ifdef _MPC5644_H */
/*********************************************************************
*
* Copyright:
* Freescale Semiconductor, INC. & STMicroelectronics All Rights Reserved.
* You are hereby granted a copyright license to use, modify, and
* distribute the SOFTWARE so long as this entire notice is
* retained without alteration in any modified and/or redistributed
* versions, and that such modified versions are clearly identified
* as such. No licenses are granted by implication, estoppel or
* otherwise under any patents or trademarks of Freescale
* Semiconductor, Inc. This software is provided on an "AS IS"
* basis and without warranty.
*
* To the maximum extent permitted by applicable law, Freescale
* Semiconductor & STMicroelectronics DISCLAIMS ALL WARRANTIES WHETHER
* EXPRESS OR IMPLIED,INCLUDING IMPLIED WARRANTIES OF MERCHANTABILITY OR
* FITNESS FOR A PARTICULAR PURPOSE AND ANY WARRANTY AGAINST INFRINGEMENT WITH
* REGARD TO THE SOFTWARE (INCLUDING ANY MODIFIED VERSIONS THEREOF)
* AND ANY ACCOMPANYING WRITTEN MATERIALS.
*
* To the maximum extent permitted by applicable law, IN NO EVENT
* SHALL Freescale Semiconductor or STMicroelectronics BE LIABLE FOR ANY
* DAMAGES WHATSOEVER (INCLUDING WITHOUT LIMITATION, DAMAGES FOR LOSS OF
* BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION,
* OR OTHER PECUNIARY LOSS) ARISING OF THE USE OR INABILITY TO USE THE SOFTWARE.
*
* Freescale Semiconductor & STMicroelectronics assumes no responsibility
* for the maintenance and support of this software
*
********************************************************************/