/**
* @file
*
* @ingroup mpc55xx
*/
/*
* Copyright (c) 2011 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Obere Lagerstr. 30
* 82178 Puchheim
* Germany
* <rtems@embedded-brains.de>
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*/
/*********************************************************************
*
* Copyright:
* Freescale Semiconductor, INC. 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 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 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 assumes no responsibility for the
* maintenance and support of this software
*
********************************************************************/
#ifndef LIBCPU_POWERPC_MPC55XX_REGS_EDMA_H
#define LIBCPU_POWERPC_MPC55XX_REGS_EDMA_H
#include <stdint.h>
#include <bspopts.h>
#ifdef __cplusplus
extern "C" {
#endif
/****************************************************************************/
/* MODULE : eDMA */
/****************************************************************************/
struct EDMA_tag {
union EDMA_CR_tag {
uint32_t R;
struct {
#if MPC55XX_CHIP_FAMILY == 566 || MPC55XX_CHIP_FAMILY == 567
uint32_t:14;
uint32_t CX:1;
uint32_t ECX:1;
#else
uint32_t:16;
#endif
uint32_t GRP3PRI:2;
uint32_t GRP2PRI:2;
uint32_t GRP1PRI:2;
uint32_t GRP0PRI:2;
#if MPC55XX_CHIP_FAMILY == 566 || MPC55XX_CHIP_FAMILY == 567
uint32_t EMLM:1;
uint32_t CLM:1;
uint32_t HALT:1;
uint32_t HOE:1;
#else
uint32_t:4;
#endif
uint32_t ERGA:1;
uint32_t ERCA:1;
uint32_t EDBG:1;
uint32_t EBW:1;
} B;
} CR; /* Control Register */
union {
uint32_t R;
struct {
uint32_t VLD:1;
#if MPC55XX_CHIP_FAMILY == 566 || MPC55XX_CHIP_FAMILY == 567
uint32_t:14;
uint32_t ECX:1;
#else
uint32_t:15;
#endif
uint32_t GPE:1;
uint32_t CPE:1;
uint32_t ERRCHN:6;
uint32_t SAE:1;
uint32_t SOE:1;
uint32_t DAE:1;
uint32_t DOE:1;
uint32_t NCE:1;
uint32_t SGE:1;
uint32_t SBE:1;
uint32_t DBE:1;
} B;
} ESR; /* Error Status Register */
union {
uint32_t R;
struct {
uint32_t ERQ63:1;
uint32_t ERQ62:1;
uint32_t ERQ61:1;
uint32_t ERQ60:1;
uint32_t ERQ59:1;
uint32_t ERQ58:1;
uint32_t ERQ57:1;
uint32_t ERQ56:1;
uint32_t ERQ55:1;
uint32_t ERQ54:1;
uint32_t ERQ53:1;
uint32_t ERQ52:1;
uint32_t ERQ51:1;
uint32_t ERQ50:1;
uint32_t ERQ49:1;
uint32_t ERQ48:1;
uint32_t ERQ47:1;
uint32_t ERQ46:1;
uint32_t ERQ45:1;
uint32_t ERQ44:1;
uint32_t ERQ43:1;
uint32_t ERQ42:1;
uint32_t ERQ41:1;
uint32_t ERQ40:1;
uint32_t ERQ39:1;
uint32_t ERQ38:1;
uint32_t ERQ37:1;
uint32_t ERQ36:1;
uint32_t ERQ35:1;
uint32_t ERQ34:1;
uint32_t ERQ33:1;
uint32_t ERQ32:1;
} B;
} ERQRH; /* DMA Enable Request Register High */
union {
uint32_t R;
struct {
uint32_t ERQ31:1;
uint32_t ERQ30:1;
uint32_t ERQ29:1;
uint32_t ERQ28:1;
uint32_t ERQ27:1;
uint32_t ERQ26:1;
uint32_t ERQ25:1;
uint32_t ERQ24:1;
uint32_t ERQ23:1;
uint32_t ERQ22:1;
uint32_t ERQ21:1;
uint32_t ERQ20:1;
uint32_t ERQ19:1;
uint32_t ERQ18:1;
uint32_t ERQ17:1;
uint32_t ERQ16:1;
uint32_t ERQ15:1;
uint32_t ERQ14:1;
uint32_t ERQ13:1;
uint32_t ERQ12:1;
uint32_t ERQ11:1;
uint32_t ERQ10:1;
uint32_t ERQ09:1;
uint32_t ERQ08:1;
uint32_t ERQ07:1;
uint32_t ERQ06:1;
uint32_t ERQ05:1;
uint32_t ERQ04:1;
uint32_t ERQ03:1;
uint32_t ERQ02:1;
uint32_t ERQ01:1;
uint32_t ERQ00:1;
} B;
} ERQRL; /* DMA Enable Request Register Low */
union {
uint32_t R;
struct {
uint32_t EEI63:1;
uint32_t EEI62:1;
uint32_t EEI61:1;
uint32_t EEI60:1;
uint32_t EEI59:1;
uint32_t EEI58:1;
uint32_t EEI57:1;
uint32_t EEI56:1;
uint32_t EEI55:1;
uint32_t EEI54:1;
uint32_t EEI53:1;
uint32_t EEI52:1;
uint32_t EEI51:1;
uint32_t EEI50:1;
uint32_t EEI49:1;
uint32_t EEI48:1;
uint32_t EEI47:1;
uint32_t EEI46:1;
uint32_t EEI45:1;
uint32_t EEI44:1;
uint32_t EEI43:1;
uint32_t EEI42:1;
uint32_t EEI41:1;
uint32_t EEI40:1;
uint32_t EEI39:1;
uint32_t EEI38:1;
uint32_t EEI37:1;
uint32_t EEI36:1;
uint32_t EEI35:1;
uint32_t EEI34:1;
uint32_t EEI33:1;
uint32_t EEI32:1;
} B;
} EEIRH; /* DMA Enable Error Interrupt Register High */
union {
uint32_t R;
struct {
uint32_t EEI31:1;
uint32_t EEI30:1;
uint32_t EEI29:1;
uint32_t EEI28:1;
uint32_t EEI27:1;
uint32_t EEI26:1;
uint32_t EEI25:1;
uint32_t EEI24:1;
uint32_t EEI23:1;
uint32_t EEI22:1;
uint32_t EEI21:1;
uint32_t EEI20:1;
uint32_t EEI19:1;
uint32_t EEI18:1;
uint32_t EEI17:1;
uint32_t EEI16:1;
uint32_t EEI15:1;
uint32_t EEI14:1;
uint32_t EEI13:1;
uint32_t EEI12:1;
uint32_t EEI11:1;
uint32_t EEI10:1;
uint32_t EEI09:1;
uint32_t EEI08:1;
uint32_t EEI07:1;
uint32_t EEI06:1;
uint32_t EEI05:1;
uint32_t EEI04:1;
uint32_t EEI03:1;
uint32_t EEI02:1;
uint32_t EEI01:1;
uint32_t EEI00:1;
} B;
} EEIRL; /* DMA Enable Error Interrupt Register Low */
union { /* DMA Set Enable Request Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t SERQ:7;
} B;
} SERQR;
union { /* DMA Clear Enable Request Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t CERQ:7;
} B;
} CERQR;
union { /* DMA Set Enable Error Interrupt Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t SEEI:7;
} B;
} SEEIR;
union { /* DMA Clear Enable Error Interrupt Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t CEEI:7;
} B;
} CEEIR;
union { /* DMA Clear Interrupt Request Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t CINT:7;
} B;
} CIRQR;
union { /* DMA Clear error Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t CERR:7;
} B;
} CER;
union { /* Set Start Bit Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t SSB:7;
} B;
} SSBR;
union { /* Clear Done Status Bit Register */
uint8_t R;
struct {
uint8_t NOP:1;
uint8_t CDSB:7;
} B;
} CDSBR;
union {
uint32_t R;
struct {
uint32_t INT63:1;
uint32_t INT62:1;
uint32_t INT61:1;
uint32_t INT60:1;
uint32_t INT59:1;
uint32_t INT58:1;
uint32_t INT57:1;
uint32_t INT56:1;
uint32_t INT55:1;
uint32_t INT54:1;
uint32_t INT53:1;
uint32_t INT52:1;
uint32_t INT51:1;
uint32_t INT50:1;
uint32_t INT49:1;
uint32_t INT48:1;
uint32_t INT47:1;
uint32_t INT46:1;
uint32_t INT45:1;
uint32_t INT44:1;
uint32_t INT43:1;
uint32_t INT42:1;
uint32_t INT41:1;
uint32_t INT40:1;
uint32_t INT39:1;
uint32_t INT38:1;
uint32_t INT37:1;
uint32_t INT36:1;
uint32_t INT35:1;
uint32_t INT34:1;
uint32_t INT33:1;
uint32_t INT32:1;
} B;
} IRQRH; /* DMA Interrupt Request High */
union {
uint32_t R;
struct {
uint32_t INT31:1;
uint32_t INT30:1;
uint32_t INT29:1;
uint32_t INT28:1;
uint32_t INT27:1;
uint32_t INT26:1;
uint32_t INT25:1;
uint32_t INT24:1;
uint32_t INT23:1;
uint32_t INT22:1;
uint32_t INT21:1;
uint32_t INT20:1;
uint32_t INT19:1;
uint32_t INT18:1;
uint32_t INT17:1;
uint32_t INT16:1;
uint32_t INT15:1;
uint32_t INT14:1;
uint32_t INT13:1;
uint32_t INT12:1;
uint32_t INT11:1;
uint32_t INT10:1;
uint32_t INT09:1;
uint32_t INT08:1;
uint32_t INT07:1;
uint32_t INT06:1;
uint32_t INT05:1;
uint32_t INT04:1;
uint32_t INT03:1;
uint32_t INT02:1;
uint32_t INT01:1;
uint32_t INT00:1;
} B;
} IRQRL; /* DMA Interrupt Request Low */
union {
uint32_t R;
struct {
uint32_t ERR63:1;
uint32_t ERR62:1;
uint32_t ERR61:1;
uint32_t ERR60:1;
uint32_t ERR59:1;
uint32_t ERR58:1;
uint32_t ERR57:1;
uint32_t ERR56:1;
uint32_t ERR55:1;
uint32_t ERR54:1;
uint32_t ERR53:1;
uint32_t ERR52:1;
uint32_t ERR51:1;
uint32_t ERR50:1;
uint32_t ERR49:1;
uint32_t ERR48:1;
uint32_t ERR47:1;
uint32_t ERR46:1;
uint32_t ERR45:1;
uint32_t ERR44:1;
uint32_t ERR43:1;
uint32_t ERR42:1;
uint32_t ERR41:1;
uint32_t ERR40:1;
uint32_t ERR39:1;
uint32_t ERR38:1;
uint32_t ERR37:1;
uint32_t ERR36:1;
uint32_t ERR35:1;
uint32_t ERR34:1;
uint32_t ERR33:1;
uint32_t ERR32:1;
} B;
} ERH; /* DMA Error High */
union {
uint32_t R;
struct {
uint32_t ERR31:1;
uint32_t ERR30:1;
uint32_t ERR29:1;
uint32_t ERR28:1;
uint32_t ERR27:1;
uint32_t ERR26:1;
uint32_t ERR25:1;
uint32_t ERR24:1;
uint32_t ERR23:1;
uint32_t ERR22:1;
uint32_t ERR21:1;
uint32_t ERR20:1;
uint32_t ERR19:1;
uint32_t ERR18:1;
uint32_t ERR17:1;
uint32_t ERR16:1;
uint32_t ERR15:1;
uint32_t ERR14:1;
uint32_t ERR13:1;
uint32_t ERR12:1;
uint32_t ERR11:1;
uint32_t ERR10:1;
uint32_t ERR09:1;
uint32_t ERR08:1;
uint32_t ERR07:1;
uint32_t ERR06:1;
uint32_t ERR05:1;
uint32_t ERR04:1;
uint32_t ERR03:1;
uint32_t ERR02:1;
uint32_t ERR01:1;
uint32_t ERR00:1;
} B;
} ERL; /* DMA Error Low */
#if MPC55XX_CHIP_FAMILY == 566 || MPC55XX_CHIP_FAMILY == 567
union { /* hardware request status high */
uint32_t R;
struct {
uint32_t HRS63:1;
uint32_t HRS62:1;
uint32_t HRS61:1;
uint32_t HRS60:1;
uint32_t HRS59:1;
uint32_t HRS58:1;
uint32_t HRS57:1;
uint32_t HRS56:1;
uint32_t HRS55:1;
uint32_t HRS54:1;
uint32_t HRS53:1;
uint32_t HRS52:1;
uint32_t HRS51:1;
uint32_t HRS50:1;
uint32_t HRS49:1;
uint32_t HRS48:1;
uint32_t HRS47:1;
uint32_t HRS46:1;
uint32_t HRS45:1;
uint32_t HRS44:1;
uint32_t HRS43:1;
uint32_t HRS42:1;
uint32_t HRS41:1;
uint32_t HRS40:1;
uint32_t HRS39:1;
uint32_t HRS38:1;
uint32_t HRS37:1;
uint32_t HRS36:1;
uint32_t HRS35:1;
uint32_t HRS34:1;
uint32_t HRS33:1;
uint32_t HRS32:1;
} B;
} HRSH;
union { /* hardware request status low */
uint32_t R;
struct {
uint32_t HRS31:1;
uint32_t HRS30:1;
uint32_t HRS29:1;
uint32_t HRS28:1;
uint32_t HRS27:1;
uint32_t HRS26:1;
uint32_t HRS25:1;
uint32_t HRS24:1;
uint32_t HRS23:1;
uint32_t HRS22:1;
uint32_t HRS21:1;
uint32_t HRS20:1;
uint32_t HRS19:1;
uint32_t HRS18:1;
uint32_t HRS17:1;
uint32_t HRS16:1;
uint32_t HRS15:1;
uint32_t HRS14:1;
uint32_t HRS13:1;
uint32_t HRS12:1;
uint32_t HRS11:1;
uint32_t HRS10:1;
uint32_t HRS09:1;
uint32_t HRS08:1;
uint32_t HRS07:1;
uint32_t HRS06:1;
uint32_t HRS05:1;
uint32_t HRS04:1;
uint32_t HRS03:1;
uint32_t HRS02:1;
uint32_t HRS01:1;
uint32_t HRS00:1;
} B;
} HRSL;
uint32_t eDMA_reserved0038[50]; /* 0x0038-0x00FF */
#else
uint32_t edma_reserved1[52];
#endif
union {
uint8_t R;
struct {
uint8_t ECP:1;
#if MPC55XX_CHIP_FAMILY == 566 || MPC55XX_CHIP_FAMILY == 567
uint8_t DPA:1;
#else
uint8_t:1;
#endif
uint8_t GRPPRI:2;
uint8_t CHPRI:4;
} B;
} CPR[64];
uint32_t edma_reserved2[944];
/****************************************************************************/
/* DMA2 Transfer Control Descriptor */
/****************************************************************************/
struct tcd_t {
uint32_t SADDR; /* source address */
/* Source and destination fields */
union tcd_SDF_tag {
uint32_t R;
struct {
uint16_t SMOD:5; /* source address modulo */
uint16_t SSIZE:3; /* source transfer size */
uint16_t DMOD:5; /* destination address modulo */
uint16_t DSIZE:3; /* destination transfer size */
int16_t SOFF; /* signed source address offset */
} B;
} SDF;
uint32_t NBYTES; /* inner (minor) byte count */
int32_t SLAST; /* last destination address adjustment, or
scatter/gather address (if e_sg = 1) */
uint32_t DADDR; /* destination address */
/* CITER and destination fields */
union tcd_CDF_tag {
uint32_t R;
struct {
uint16_t CITERE_LINK:1;
uint16_t CITER:15;
int16_t DOFF; /* signed destination address offset */
} B;
struct {
uint16_t CITERE_LINK:1;
uint16_t CITERLINKCH:6;
uint16_t CITER:9;
int16_t DOFF;
} B_ALT;
struct {
uint16_t CITER;
int16_t DOFF;
} B_NOLINK;
} CDF;
int32_t DLAST_SGA;
/* BITER and misc fields */
union tcd_BMF_tag {
uint32_t R;
struct {
uint32_t BITERE_LINK:1; /* beginning ("major") iteration count */
uint32_t BITER:15;
uint32_t BWC:2; /* bandwidth control */
uint32_t MAJORLINKCH:6; /* enable channel-to-channel link */
uint32_t DONE:1; /* channel done */
uint32_t ACTIVE:1; /* channel active */
uint32_t MAJORE_LINK:1; /* enable channel-to-channel link */
uint32_t E_SG:1; /* enable scatter/gather descriptor */
uint32_t D_REQ:1; /* disable ipd_req when done */
uint32_t INT_HALF:1; /* interrupt on citer = (biter >> 1) */
uint32_t INT_MAJ:1; /* interrupt on major loop completion */
uint32_t START:1; /* explicit channel start */
} B;
struct {
uint32_t BITERE_LINK:1;
uint32_t BITERLINKCH:6;
uint32_t BITER:9;
uint32_t BWC:2;
uint32_t MAJORLINKCH:6;
uint32_t DONE:1;
uint32_t ACTIVE:1;
uint32_t MAJORE_LINK:1;
uint32_t E_SG:1;
uint32_t D_REQ:1;
uint32_t INT_HALF:1;
uint32_t INT_MAJ:1;
uint32_t START:1;
} B_ALT;
struct {
uint16_t BITER;
uint16_t BWC:2;
uint16_t MAJORLINKCH:6;
uint16_t DONE:1;
uint16_t ACTIVE:1;
uint16_t MAJORE_LINK:1;
uint16_t E_SG:1;
uint16_t D_REQ:1;
uint16_t INT_HALF:1;
uint16_t INT_MAJ:1;
uint16_t START:1;
} B_NOLINK;
} BMF;
} TCD[64]; /* transfer_control_descriptor */
};
#ifndef __cplusplus
static const struct tcd_t EDMA_TCD_DEFAULT = {
.SADDR = 0,
.SDF = { .R = 0 },
.NBYTES = 0,
.SLAST = 0,
.DADDR = 0,
.CDF = { .R = 0 },
.DLAST_SGA = 0,
.BMF = { .R = 0 }
};
#endif /* __cplusplus */
#define EDMA_TCD_BITER_MASK 0x7fff
#define EDMA_TCD_BITER_SIZE (EDMA_TCD_BITER_MASK + 1)
#define EDMA_TCD_BITER_LINKED_MASK 0x1ff
#define EDMA_TCD_BITER_LINKED_SIZE (EDMA_TCD_BITER_LINKED_MASK + 1)
#define EDMA_TCD_LINK_AND_BITER(link, biter) \
(((link) << 9) + ((biter) & EDMA_TCD_BITER_LINKED_MASK))
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* LIBCPU_POWERPC_MPC55XX_REGS_EDMA_H */