URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [powerpc/] [mpc8260/] [v2_0/] [include/] [mpc8260.h] - Rev 403
Go to most recent revision | Compare with Previous | Blame | View Log
#ifndef CYGONCE_HAL_PPC_QUICC2_MPC8260_H #define CYGONCE_HAL_PPC_QUICC2_MPC8260_H //========================================================================== // // mpc8260.h // // PowerPC QUICC2 register definitions // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // Copyright (C) 2002 Gary Thomas // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): Red Hat // Contributors: hmt // Date: 1999-06-08 // Purpose: Provide PPC QUICC2 definitions // Description: Provide PPC QUICC2 definitions // Usage: THIS IS NOT AN EXTERNAL API // This file is in the include dir to share it between // QUICCII serial code and MPC8260 initialization code. // #include <cyg/hal/quicc/mpc8260.h> // ... // // //####DESCRIPTIONEND#### // //========================================================================== /*-------------------------*/ /* Single buffer component */ /*-------------------------*/ typedef struct BufferPool { CYG_BYTE RxBuffer; CYG_BYTE TxBuffer; } LB; /*--------------------------*/ /* Buffer Descriptor Format */ /*--------------------------*/ typedef struct BufferDescriptor { CYG_WORD16 bd_cstatus; /* control and status */ CYG_WORD16 bd_length; /* transfer length */ volatile CYG_BYTE *bd_addr; /* buffer address */ } BD; /*-------------------------------*/ /* Buffer Descriptor Ring format */ /*-------------------------------*/ typedef struct BufferDescRings { BD RxBD; /* Rx BD ring */ BD TxBD; /* Tx BD ring */ } BDRINGS; #define _Packed #define _PackedType __attribute__((packed)) /****************************************************************************** * * PARAMETER RAM (PRAM) FOR EACH PERIPHERAL * * Each subsection contains protocol-specific PRAM for each peripheral, * followed by the PRAM common to all protocols for that peripheral. These * structs are used as needed in the main MPC8260 memory map structure. Note * that different modes of operation will require the use of different PRAM * structs, and that certain structs may overlay and conflict with the use of * other PRAM areas. Consult the MPC8260 User Manual for details as to what * is unavailable when certain protocols are run on certain peripherals. * ******************************************************************************/ /*---------------------------------------------------------------------------*/ /* SERIAL COMMUNICATION CONTROLLER (SCC) */ /*---------------------------------------------------------------------------*/ /*----------*/ /* SCC HDLC */ /*----------*/ typedef _Packed struct { CYG_BYTE reserved1[4]; /* Reserved area */ CYG_WORD c_mask; /* CRC constant */ CYG_WORD c_pres; /* CRC preset */ CYG_WORD16 disfc; /* discarded frame counter */ CYG_WORD16 crcec; /* CRC error counter */ CYG_WORD16 abtsc; /* abort sequence counter */ CYG_WORD16 nmarc; /* nonmatching address rx cnt */ CYG_WORD16 retrc; /* frame transmission counter. */ /* For FCC this area is reserved.*/ CYG_WORD16 mflr; /* maximum frame length reg */ CYG_WORD16 max_cnt; /* maximum length counter */ CYG_WORD16 rfthr; /* received frames threshold */ CYG_WORD16 rfcnt; /* received frames count */ CYG_WORD16 hmask; /* user defined frm addr mask */ CYG_WORD16 haddr1; /* user defined frm address 1 */ CYG_WORD16 haddr2; /* user defined frm address 2 */ CYG_WORD16 haddr3; /* user defined frm address 3 */ CYG_WORD16 haddr4; /* user defined frm address 4 */ CYG_WORD16 tmp; /* temp */ CYG_WORD16 tmp_mb; /* temp */ } _PackedType t_HdlcScc_Pram; /*--------------*/ /* SCC Ethernet */ /*--------------*/ typedef _Packed struct { CYG_WORD c_pres; /* CRC preset */ CYG_WORD c_mask; /* CRC constant mask*/ CYG_WORD crcec; /* CRC error counter */ CYG_WORD alec; /* alignment error counter */ CYG_WORD disfc; /* discarded frame counter */ CYG_WORD16 pads; /* Short frame pad character. */ CYG_WORD16 ret_lim; /* Retry limit threshold. */ CYG_WORD16 ret_cnt; /* Retry limit counter. */ CYG_WORD16 mflr; /* maximum frame length reg */ CYG_WORD16 minflr; /* minimum frame length reg */ CYG_WORD16 maxd1; /* max DMA1 length register. */ CYG_WORD16 maxd2; /* max DMA2 length register. */ CYG_WORD16 maxd; /* Rx max DMA. */ CYG_WORD16 dma_cnt; /* Rx DMA counter. */ CYG_WORD16 max_b; /* max buffer descriptor byte count. */ CYG_WORD16 gaddr1; /* group address filter */ CYG_WORD16 gaddr2; /* group address filter */ CYG_WORD16 gaddr3; /* group address filter */ CYG_WORD16 gaddr4; /* group address filter */ CYG_WORD tbuf0_data0; /* Saved area 0, current frame. */ CYG_WORD tbuf0_data1; /* Saved area 1, current frame. */ CYG_WORD tbuf0_rba0; CYG_WORD tbuf0_crc; CYG_WORD16 tbuf0_bcnt; CYG_WORD16 paddr1_h; /* physical address (MSB) */ CYG_WORD16 paddr1_m; /* physical address */ CYG_WORD16 paddr1_l; /* physical address (LSB) */ CYG_WORD16 p_per; /* persistence */ CYG_WORD16 rfbd_ptr; /* Rx first BD pointer. */ CYG_WORD16 tfbd_ptr; /* Tx first BD pointer. */ CYG_WORD16 tlbd_ptr; /* Tx last BD pointer. */ CYG_WORD tbuf1_data0; /* Saved area 0, next frame. */ CYG_WORD tbuf1_data1; /* Saved area 1, next frame. */ CYG_WORD tbuf1_rba0; CYG_WORD tbuf1_crc; CYG_WORD16 tbuf1_bcnt; CYG_WORD16 tx_len; /* tx frame length counter */ CYG_WORD16 iaddr1; /* individual address filter. */ CYG_WORD16 iaddr2; /* individual address filter. */ CYG_WORD16 iaddr3; /* individual address filter. */ CYG_WORD16 iaddr4; /* individual address filter. */ CYG_WORD16 boff_cnt; /* back-off counter */ CYG_WORD16 taddr_h; /* temp address (MSB) */ CYG_WORD16 taddr_m; /* temp address */ CYG_WORD16 taddr_l; /* temp address (LSB) */ } _PackedType t_EnetScc_Pram; /*----------*/ /* SCC UART */ /*----------*/ typedef _Packed struct { CYG_BYTE reserved1[8]; /* Reserved area */ CYG_WORD16 max_idl; /* maximum idle characters */ CYG_WORD16 idlc; /* rx idle counter (internal) */ CYG_WORD16 brkcr; /* break count register */ CYG_WORD16 parec; /* Rx parity error counter */ CYG_WORD16 frmec; /* Rx framing error counter */ CYG_WORD16 nosec; /* Rx noise counter */ CYG_WORD16 brkec; /* Rx break character counter */ CYG_WORD16 brkln; /* Receive break length */ CYG_WORD16 uaddr1; /* address character 1 */ CYG_WORD16 uaddr2; /* address character 2 */ CYG_WORD16 rtemp; /* temp storage */ CYG_WORD16 toseq; /* Tx out of sequence char */ CYG_WORD16 cc[8]; /* Rx control characters */ CYG_WORD16 rccm; /* Rx control char mask */ CYG_WORD16 rccr; /* Rx control char register */ CYG_WORD16 rlbc; /* Receive last break char */ } _PackedType t_UartScc_Pram; /*-----------------*/ /* SCC Transparent */ /*-----------------*/ typedef _Packed struct { CYG_WORD c_mask; /* CRC constant */ CYG_WORD c_pres; /* CRC preset */ } _PackedType t_TransScc_Pram; /*------------*/ /* SCC Bisync */ /*------------*/ typedef _Packed struct { CYG_BYTE reserved1[4]; /* Reserved area */ CYG_WORD crcc; /* CRC Constant Temp Value */ CYG_WORD16 prcrc; /* Preset Receiver CRC-16/LRC */ CYG_WORD16 ptcrc; /* Preset Transmitter CRC-16/LRC */ CYG_WORD16 parec; /* Receive Parity Error Counter */ CYG_WORD16 bsync; /* BISYNC SYNC Character */ CYG_WORD16 bdle; /* BISYNC DLE Character */ CYG_WORD16 cc[8]; /* Rx control characters */ CYG_WORD16 rccm; /* Receive Control Character Mask */ } _PackedType t_BisyncScc_Pram; /*-----------------*/ /* SCC Common PRAM */ /*-----------------*/ typedef _Packed struct { CYG_WORD16 rbase; /* RX BD base address */ CYG_WORD16 tbase; /* TX BD base address */ CYG_BYTE rfcr; /* Rx function code */ CYG_BYTE tfcr; /* Tx function code */ CYG_WORD16 mrblr; /* Rx buffer length */ CYG_WORD rstate; /* Rx internal state */ CYG_WORD rptr; /* Rx internal data pointer */ CYG_WORD16 rbptr; /* rb BD Pointer */ CYG_WORD16 rcount; /* Rx internal byte count */ CYG_WORD rtemp; /* Rx temp */ CYG_WORD tstate; /* Tx internal state */ CYG_WORD tptr; /* Tx internal data pointer */ CYG_WORD16 tbptr; /* Tx BD pointer */ CYG_WORD16 tcount; /* Tx byte count */ CYG_WORD ttemp; /* Tx temp */ CYG_WORD rcrc; /* temp receive CRC */ CYG_WORD tcrc; /* temp transmit CRC */ union { t_HdlcScc_Pram h; t_EnetScc_Pram e; t_UartScc_Pram u; t_TransScc_Pram t; t_BisyncScc_Pram b; } SpecificProtocol; volatile CYG_BYTE COMPLETE_SIZE_OF_DPRAM_PAGE[0x5c]; } _PackedType t_Scc_Pram; /*---------------------------------------------------------------------------*/ /* FAST COMMUNICATION CONTROLLER (FCC) */ /*---------------------------------------------------------------------------*/ /*----------*/ /* FCC HDLC */ /*----------*/ typedef _Packed struct { CYG_BYTE reserved1[8]; /* Reserved area */ CYG_WORD c_mask; /* CRC constant */ CYG_WORD c_pres; /* CRC preset */ CYG_WORD16 disfc; /* discarded frame counter */ CYG_WORD16 crcec; /* CRC error counter */ CYG_WORD16 abtsc; /* abort sequence counter */ CYG_WORD16 nmarc; /* nonmatching address rx cnt */ CYG_WORD max_cnt; /* maximum length counter */ CYG_WORD16 mflr; /* maximum frame length reg */ CYG_WORD16 rfthr; /* received frames threshold */ CYG_WORD16 rfcnt; /* received frames count */ CYG_WORD16 hmask; /* user defined frm addr mask */ CYG_WORD16 haddr1; /* user defined frm address 1 */ CYG_WORD16 haddr2; /* user defined frm address 2 */ CYG_WORD16 haddr3; /* user defined frm address 3 */ CYG_WORD16 haddr4; /* user defined frm address 4 */ CYG_WORD16 tmp; /* temp */ CYG_WORD16 tmp_mb; /* temp */ } _PackedType t_HdlcFcc_Pram; /*--------------*/ /* FCC Ethernet */ /*--------------*/ typedef _Packed struct { CYG_WORD stat_bus; /* Internal use buffer. */ CYG_WORD cam_ptr; /* CAM address. */ CYG_WORD c_mask; /* CRC constant mask*/ CYG_WORD c_pres; /* CRC preset */ CYG_WORD crcec; /* CRC error counter */ CYG_WORD alec; /* alignment error counter */ CYG_WORD disfc; /* discarded frame counter */ CYG_WORD16 ret_lim; /* Retry limit threshold. */ CYG_WORD16 ret_cnt; /* Retry limit counter. */ CYG_WORD16 p_per; /* persistence */ CYG_WORD16 boff_cnt; /* back-off counter */ CYG_WORD gaddr_h; /* group address filter, high */ CYG_WORD gaddr_l; /* group address filter, low */ CYG_WORD16 tfcstat; /* out of sequece Tx BD staus. */ CYG_WORD16 tfclen; /* out of sequece Tx BD length. */ CYG_WORD tfcptr; /* out of sequece Tx BD data pointer. */ CYG_WORD16 mflr; /* maximum frame length reg */ CYG_WORD16 paddr1_h; /* physical address (MSB) */ CYG_WORD16 paddr1_m; /* physical address */ CYG_WORD16 paddr1_l; /* physical address (LSB) */ CYG_WORD16 ibd_cnt; /* internal BD counter. */ CYG_WORD16 ibd_start; /* internal BD start pointer. */ CYG_WORD16 ibd_end; /* internal BD end pointer. */ CYG_WORD16 tx_len; /* tx frame length counter */ CYG_BYTE ibd_base[0x20]; /* internal micro code usage. */ CYG_WORD iaddr_h; /* individual address filter, high */ CYG_WORD iaddr_l; /* individual address filter, low */ CYG_WORD16 minflr; /* minimum frame length reg */ CYG_WORD16 taddr_h; /* temp address (MSB) */ CYG_WORD16 taddr_m; /* temp address */ CYG_WORD16 taddr_l; /* temp address (LSB) */ CYG_WORD16 pad_ptr; /* pad_ptr. */ CYG_WORD16 cf_type; /* flow control frame type coding. */ CYG_WORD16 cf_range; /* flow control frame range. */ CYG_WORD16 max_b; /* max buffer descriptor byte count. */ CYG_WORD16 maxd1; /* max DMA1 length register. */ CYG_WORD16 maxd2; /* max DMA2 length register. */ CYG_WORD16 maxd; /* Rx max DMA. */ CYG_WORD16 dma_cnt; /* Rx DMA counter. */ /* counter: */ CYG_WORD octc; /* received octets counter. */ CYG_WORD colc; /* estimated number of collisions */ CYG_WORD broc; /* received good packets of broadcast address */ CYG_WORD mulc; /* received good packets of multicast address */ CYG_WORD uspc; /* received packets shorter then 64 octets. */ CYG_WORD frgc; /* as uspc + bad packets */ CYG_WORD ospc; /* received packets longer then 1518 octets. */ CYG_WORD jbrc; /* as ospc + bad packets */ CYG_WORD p64c; /* received packets of 64 octets.. */ CYG_WORD p65c; /* received packets of 65-128 octets.. */ CYG_WORD p128c; /* received packets of 128-255 octets.. */ CYG_WORD p256c; /* received packets of 256-511 octets.. */ CYG_WORD p512c; /* received packets of 512-1023 octets.. */ CYG_WORD p1024c; /* received packets of 1024-1518 octets.. */ CYG_WORD cam_buf; /* cam respond internal buffer. */ CYG_WORD16 rfthr; /* received frames threshold */ CYG_WORD16 rfcnt; /* received frames count */ } _PackedType t_EnetFcc_Pram; /*-----------------*/ /* FCC Common PRAM */ /*-----------------*/ typedef _Packed struct { CYG_WORD16 riptr; /* Rx internal temporary data pointer. */ CYG_WORD16 tiptr; /* Tx internal temporary data pointer. */ CYG_WORD16 reserved0; /* Reserved */ CYG_WORD16 mrblr; /* Rx buffer length */ CYG_WORD rstate; /* Rx internal state */ CYG_WORD rbase; /* RX BD base address */ CYG_WORD16 rbdstat; /* Rx BD status and control */ CYG_WORD16 rbdlen; /* Rx BD data length */ CYG_WORD rdptr; /* rx BD data pointer */ CYG_WORD tstate; /* Tx internal state */ CYG_WORD tbase; /* TX BD base address */ CYG_WORD16 tbdstat; /* Tx BD status and control */ CYG_WORD16 tbdlen; /* Tx BD data length */ CYG_WORD tdptr; /* Tx data pointer */ CYG_WORD rbptr; /* rx BD pointer */ CYG_WORD tbptr; /* Tx BD pointer */ CYG_WORD rcrc; /* Temp receive CRC */ CYG_WORD reserved_1[0x1]; CYG_WORD tcrc; /* Temp transmit CRC */ union /* Protocol-Specific parameter ram */ { t_HdlcFcc_Pram h; t_EnetFcc_Pram e; } SpecificProtocol; } _PackedType t_Fcc_Pram; /*---------------------------------------------------------------------------*/ /* MULTICHANNEL COMMUNICATION CONTROLLER (MCC) */ /*---------------------------------------------------------------------------*/ /****************************************************************************** * Note that each MCC uses multiple logical channels. We first define the * * PRAM for a logical channel (which can be used in either HDLC or Transparent * * mode; wherever there are differences, it is specified), followed by the * * PRAM for an MCC itself. * ******************************************************************************/ /*---------------------*/ /* MCC Logical Channel */ /*---------------------*/ typedef _Packed struct { CYG_WORD tstate; /* Tx internal state. */ CYG_WORD zistate; /* Zero insertion machine state. */ CYG_WORD zidata0; /* Zero insertion high CYG_WORD16. */ CYG_WORD zidata1; /* Zero insertion low CYG_WORD16. */ CYG_WORD16 tbdflags; /* Tx internal BD flags. */ CYG_WORD16 tbdcnt; /* Tx internal byte count . */ CYG_WORD tbdptr; /* Tx internal data pointer. */ CYG_WORD16 intmask; /* Interrupt mask flags. */ CYG_WORD16 chamr; /* channel mode register. */ CYG_WORD tcrc; /* Transparent: reserved. */ /* Hdlc: Temp receive CRC.*/ CYG_WORD rstate; /* Rx internal state. */ CYG_WORD zdstate; /* Zero deletion machine state. */ CYG_WORD zddata0; /* Zero deletion high CYG_WORD16. */ CYG_WORD zddata1; /* Zero deletion low CYG_WORD16. */ CYG_WORD16 rbdflags; /* Rx internal BD flags. */ CYG_WORD16 rbdcnt; /* Rx internal byte count . */ CYG_WORD rbdptr; /* Rx internal data pointer. */ CYG_WORD16 maxrlen; /* Transparent: Max receive buffer length. */ /* Hdlc: Max receive frame length. */ CYG_WORD16 sync_maxcnt;/* Transparent: Receive synchronization pattern*/ /* Hdlc: Max length counter. */ CYG_WORD rcrc; /* Transparent: reserved. */ /* Hdlc: Temp receive CRC.*/ } _PackedType t_Mch_Pram; /*----------*/ /* MCC PRAM */ /*----------*/ typedef _Packed struct { CYG_WORD mccbase; /* A pointer to starting address of BD rings. */ CYG_WORD16 mccstate; /* Controller state. */ CYG_WORD16 mrblr; /* Maximum receive buffer length. */ CYG_WORD16 grfthr; /* Global receive frame threshold. */ CYG_WORD16 grfcnt; /* Global receive frame counter. */ CYG_WORD rinttmp; /* Temp location for receive interrupt table entry. */ CYG_WORD data0; /* Temporary location for holding data. */ CYG_WORD data1; /* Temporary location for holding data. */ CYG_WORD tintbase; /* Transmit interrupt table base address. */ CYG_WORD tintptr; /* Transmit interrupt table pointer. */ CYG_WORD tinttmp; /* Temp location for receive interrupt table entry. */ CYG_WORD16 sctpbase; /* A pointer to the super channel transmit table*/ CYG_BYTE res0[0x2]; /* Reserved area */ CYG_WORD c_mask32; /* CRC constant. */ CYG_WORD16 xtrabase; /* A pointer to the beginning of extra parameters */ CYG_WORD16 c_mask16; /* CRC constant. */ CYG_WORD rinttmp0; /* Temp location for receive interrupt table entry. */ CYG_WORD rinttmp1; /* Temp location for receive interrupt table entry. */ CYG_WORD rinttmp2; /* Temp location for receive interrupt table entry. */ CYG_WORD rinttmp3; /* Temp location for receive interrupt table entry. */ CYG_WORD rintbase0; /* Receive interrupt table base address. */ CYG_WORD rintptr0; /* Receive interrupt table pointer. */ CYG_WORD rintbase1; /* Receive interrupt table base address. */ CYG_WORD rintptr1; /* Receive interrupt table pointer. */ CYG_WORD rintbase2; /* Receive interrupt table base address. */ CYG_WORD rintptr2; /* Receive interrupt table pointer. */ CYG_WORD rintbase3; /* Receive interrupt table base address. */ CYG_WORD rintptr3; /* Receive interrupt table pointer. */ CYG_BYTE pad[0xa0]; } _PackedType t_Mcc_Pram; /*---------------------------------------------------------------------------*/ /* ATM PARAMETER RAM */ /*---------------------------------------------------------------------------*/ /*--------------------------------------*/ /* Address Compression parameters table */ /*--------------------------------------*/ _Packed struct AddressCompressionPram { volatile CYG_WORD VptBase; /* VP-level addressing table base address */ volatile CYG_WORD VctBase; /* VC-level addressing table base address */ volatile CYG_WORD Vpt1Base; /* VP1-level addressing table base address */ volatile CYG_WORD Vct1Base; /* VC1-level addressing table base address */ volatile CYG_WORD16 VpMask; /* VP mask for address compression look-up */ } _PackedType; /*-------------------------------*/ /* External CAM parameters table */ /*-------------------------------*/ _Packed struct ExtCamPram { volatile CYG_WORD ExtCamBase; /* Base address of the external CAM */ volatile CYG_BYTE reserved00[4]; /* Reserved */ volatile CYG_WORD ExtCam1Base; /* Base address of the external CAM1 */ volatile CYG_BYTE reserved01[6]; /* Reserved */ } _PackedType; /*---------------------------*/ /* ATM mode parameters table */ /*---------------------------*/ typedef _Packed struct AtmPram { volatile CYG_BYTE reserved0[64]; /* Reserved */ volatile CYG_WORD16 RxCellTmpBase; /* Rx cell temporary base address */ volatile CYG_WORD16 TxCellTmpBase; /* Tx cell temporary base address */ volatile CYG_WORD16 UdcTmpBase; /* UDC temp base address (in UDC mode only) */ volatile CYG_WORD16 IntRctBase; /* Internal RTC base address */ volatile CYG_WORD16 IntTctBase; /* Internal TCT base address */ volatile CYG_WORD16 IntTcteBase; /* Internal ACT base address */ volatile CYG_BYTE reserved1[4]; /* reserved four bytes */ volatile CYG_WORD ExtRctBase; /* Extrnal RTC base address */ volatile CYG_WORD ExtTctBase; /* Extrnal TCT base address */ volatile CYG_WORD ExtTcteBase; /* Extrnal ACT base address */ volatile CYG_WORD16 UeadOffset; /* The offset in half-wordunits of the UEAD entry in the UDC extra header. Should be even address. If little-endian format is used, the UeadOffset is of the little-endian format. */ volatile CYG_BYTE reserved2[2]; /* Reserved */ volatile CYG_WORD16 PmtBase; /* Performance monitoring table base address */ volatile CYG_WORD16 ApcParamBase; /* APC Parameters table base address */ volatile CYG_WORD16 FbpParamBase; /* Free buffer pool parameters base address */ volatile CYG_WORD16 IntQParamBase; /* Interrupt queue parameters table base */ volatile CYG_BYTE reserved3[2]; volatile CYG_WORD16 UniStatTableBase; /* UNI statistics table base */ volatile CYG_WORD BdBaseExt; /* BD ring base address extension */ union { struct AddressCompressionPram AddrCompression; struct ExtCamPram ExtCam; } AddrMapping; /* Address look-up mechanism */ volatile CYG_WORD16 VciFiltering; /* VCI filtering enable bits. If bit i is set, the cell with VCI=i will be sent to the raw cell queue. The bits 0-2 and 5 should be zero. */ volatile CYG_WORD16 Gmode; /* Global mode */ volatile CYG_WORD16 CommInfo1; /* The information field associated with the */ volatile CYG_WORD CommInfo2; /* last host command */ volatile CYG_BYTE reserved4[4]; /* Reserved */ volatile CYG_WORD CRC32Preset; /* Preset for CRC32 */ volatile CYG_WORD CRC32Mask; /* Constant mask for CRC32 */ volatile CYG_WORD16 AAL1SnpTableBase; /* AAl1 SNP protection look-up table base */ volatile CYG_WORD16 reserved5; /* Reserved */ volatile CYG_WORD SrtsBase; /* External SRTS logic base address. For AAL1 only. Should be 16 bytes aligned */ volatile CYG_WORD16 IdleBase; /* Idle cell base address */ volatile CYG_WORD16 IdleSize; /* Idle cell size: 52, 56, 60, 64 */ volatile CYG_WORD EmptyCellPayload; /* Empty cell payload (little-indian) */ /* ABR specific only */ volatile CYG_WORD Trm; /* Upper bound on time between F-RM cells for active source */ volatile CYG_WORD16 Nrm; /* Controls the maximum data cells sent for each F-RM cell. */ volatile CYG_WORD16 Mrm; /* Controls bandwidth between F-RM, B-RM and user data cell */ volatile CYG_WORD16 Tcr; /* Tag cell rate */ volatile CYG_WORD16 AbrRxTcte; /* ABR reserved area address (2-CYG_WORD16 aligned)*/ volatile CYG_BYTE reserved7[76]; /* Reserved */ } _PackedType t_Atm_Pram; /*---------------------------------------------------------------------------*/ /* SERIAL MANAGEMENT CHANNEL (SMC) */ /*---------------------------------------------------------------------------*/ typedef _Packed struct { CYG_WORD16 rbase; /* Rx BD Base Address */ CYG_WORD16 tbase; /* Tx BD Base Address */ CYG_BYTE rfcr; /* Rx function code */ CYG_BYTE tfcr; /* Tx function code */ CYG_WORD16 mrblr; /* Rx buffer length */ CYG_WORD rstate; /* Rx internal state */ CYG_WORD rptr; /* Rx internal data pointer */ CYG_WORD16 rbptr; /* rb BD Pointer */ CYG_WORD16 rcount; /* Rx internal byte count */ CYG_WORD rtemp; /* Rx temp */ CYG_WORD tstate; /* Tx internal state */ CYG_WORD tptr; /* Tx internal data pointer */ CYG_WORD16 tbptr; /* Tx BD pointer */ CYG_WORD16 tcount; /* Tx byte count */ CYG_WORD ttemp; /* Tx temp */ /* SMC UART-specific PRAM */ CYG_WORD16 max_idl; /* Maximum IDLE Characters */ CYG_WORD16 idlc; /* Temporary IDLE Counter */ CYG_WORD16 brkln; /* Last Rx Break Length */ CYG_WORD16 brkec; /* Rx Break Condition Counter */ CYG_WORD16 brkcr; /* Break Count Register (Tx) */ CYG_WORD16 r_mask; /* Temporary bit mask */ } _PackedType t_Smc_Pram; /*---------------------------------------------------------------------------*/ /* IDMA PARAMETER RAM */ /*---------------------------------------------------------------------------*/ typedef _Packed struct { CYG_WORD16 ibase; /* IDMA BD Base Address */ CYG_WORD16 dcm; /* DMA channel mode register */ CYG_WORD16 ibdptr; /* next bd ptr */ CYG_WORD16 DPR_buf; /* ptr to internal 64 byte buffer */ CYG_WORD16 BUF_inv; /* The quantity of data in DPR_buf */ CYG_WORD16 SS_max; /* Steady State Max. transfer size */ CYG_WORD16 DPR_in_ptr; /* write ptr for the internal buffer */ CYG_WORD16 sts; /* Source Transfer Size */ CYG_WORD16 DPR_out_ptr; /* read ptr for the internal buffer */ CYG_WORD16 seob; /* Source end of burst */ CYG_WORD16 deob; /* Destination end of burst */ CYG_WORD16 dts; /* Destination Transfer Size */ CYG_WORD16 RetAdd; /* return address when ERM==1 */ CYG_WORD16 Reserved; /* reserved */ CYG_WORD BD_cnt; /* Internal byte count */ CYG_WORD S_ptr; /* source internal data ptr */ CYG_WORD D_ptr; /* destination internal data ptr */ CYG_WORD istate; /* Internal state */ } _PackedType t_Idma_Pram; /*-------------------------------------------------------------------*/ /* INTER-INTEGRATED CIRCUIT (I2C) */ /*-------------------------------------------------------------------*/ typedef _Packed struct { CYG_WORD16 rbase; /* RX BD base address */ CYG_WORD16 tbase; /* TX BD base address */ CYG_BYTE rfcr; /* Rx function code */ CYG_BYTE tfcr; /* Tx function code */ CYG_WORD16 mrblr; /* Rx buffer length */ CYG_WORD rstate; /* Rx internal state */ CYG_WORD rptr; /* Rx internal data pointer */ CYG_WORD16 rbptr; /* rb BD Pointer */ CYG_WORD16 rcount; /* Rx internal byte count */ CYG_WORD rtemp; /* Rx temp */ CYG_WORD tstate; /* Tx internal state */ CYG_WORD tptr; /* Tx internal data pointer */ CYG_WORD16 tbptr; /* Tx BD pointer */ CYG_WORD16 tcount; /* Tx byte count */ CYG_WORD ttemp; /* Tx temp */ } _PackedType t_I2c_Pram; /*---------------------------------------------------------------------------*/ /* SERIAL PERIPHERAL INTERFACE (SPI) */ /*---------------------------------------------------------------------------*/ typedef _Packed struct { CYG_WORD16 rbase; /* Rx BD Base Address */ CYG_WORD16 tbase; /* Tx BD Base Address */ CYG_BYTE rfcr; /* Rx function code */ CYG_BYTE tfcr; /* Tx function code */ CYG_WORD16 mrblr; /* Rx buffer length */ CYG_WORD rstate; /* Rx internal state */ CYG_WORD rptr; /* Rx internal data pointer */ CYG_WORD16 rbptr; /* Rx BD Pointer */ CYG_WORD16 rcount; /* Rx internal byte count */ CYG_WORD rtemp; /* Rx temp */ CYG_WORD tstate; /* Tx internal state */ CYG_WORD tptr; /* Tx internal data pointer */ CYG_WORD16 tbptr; /* Tx BD pointer */ CYG_WORD16 tcount; /* Tx byte count */ CYG_WORD ttemp; /* Tx temp */ CYG_BYTE reserved[8]; } _PackedType t_Spi_Pram; /*---------------------------------------------------------------------------*/ /* RISC TIMER PARAMETER RAM */ /*---------------------------------------------------------------------------*/ typedef _Packed struct { CYG_WORD16 tm_base; /* RISC timer table base adr */ CYG_WORD16 tm_ptr; /* RISC timer table pointer */ CYG_WORD16 r_tmr; /* RISC timer mode register */ CYG_WORD16 r_tmv; /* RISC timer valid register */ CYG_WORD tm_cmd; /* RISC timer cmd register */ CYG_WORD tm_cnt; /* RISC timer internal cnt */ } _PackedType t_timer_pram; /*--------------------------------------------------------------------------*/ /* ROM MICROCODE PARAMETER RAM AREA */ /*--------------------------------------------------------------------------*/ typedef _Packed struct { CYG_WORD16 rev_num; /* Ucode Revision Number */ CYG_WORD16 d_ptr; /* MISC Dump area pointer */ } _PackedType t_ucode_pram; /*--------------------------------------------------------------------------*/ /* MAIN DEFINITION OF MPC8260 INTERNAL MEMORY MAP */ /*--------------------------------------------------------------------------*/ typedef _Packed struct { /* cpm_ram */ t_Mch_Pram mch_pram[256]; /* MCC logical channels parameter ram */ volatile CYG_BYTE reserved0[0x4000]; /* Reserved area */ /* DPR_BASE+0x8000*/ union { /*for access to the PRAM structs for SCCs, FCCs, and MCCs */ struct serials { t_Scc_Pram scc_pram[4]; t_Fcc_Pram fcc_pram[3]; t_Mcc_Pram mcc_pram[2]; volatile CYG_BYTE reserved1[0x700]; } serials; /* for access to ATM PRAM structs */ struct atm { volatile CYG_BYTE reserved2[0x400]; t_Atm_Pram atm_pram[2]; volatile CYG_BYTE reserved3[0xa00]; } atm; /* for access to the memory locations holding user-defined base addresses of PRAM for SMCs, IDMA, SPI, and I2C. */ struct standard { volatile CYG_BYTE scc1[0x100]; volatile CYG_BYTE scc2[0x100]; volatile CYG_BYTE scc3[0x100]; volatile CYG_BYTE scc4[0x100]; volatile CYG_BYTE fcc1[0x100]; volatile CYG_BYTE fcc2[0x100]; volatile CYG_BYTE fcc3[0x100]; volatile CYG_BYTE mcc1[0x80]; volatile CYG_BYTE reserved_0[0x7c]; volatile CYG_BYTE smc1[0x2]; volatile CYG_BYTE idma1[0x2]; volatile CYG_BYTE mcc2[0x80]; volatile CYG_BYTE reserved_1[0x7c]; volatile CYG_BYTE smc2[0x2]; volatile CYG_BYTE idma2[0x2]; volatile CYG_BYTE reserved_2[0xfc]; volatile CYG_BYTE spi[0x2]; volatile CYG_BYTE idma3[0x2]; volatile CYG_BYTE reserved_3[0xe0]; volatile CYG_BYTE timers[0x10]; volatile CYG_BYTE Rev_num[0x2]; volatile CYG_BYTE D_ptr[0x2]; volatile CYG_BYTE reserved_4[0x4]; volatile CYG_BYTE rand[0x4]; volatile CYG_BYTE i2c[0x2]; volatile CYG_BYTE idma4[0x2]; volatile CYG_BYTE reserved_5[0x500]; } standard; } pram; volatile CYG_BYTE reserved11[0x2000]; /* Reserved area */ volatile CYG_BYTE cpm_ram_dpram_2[0x1000]; /* Internal RAM */ volatile CYG_BYTE reserved12[0x4000]; /* Reserved area */ /* siu */ volatile CYG_WORD siu_siumcr; /* SIU Module Configuration Register */ volatile CYG_WORD siu_sypcr; /* System Protection Control Register */ volatile CYG_BYTE reserved13[0x6]; /* Reserved area */ volatile CYG_WORD16 siu_swsr; /* Software Service Register */ /* buses */ volatile CYG_BYTE reserved14[0x14]; /* Reserved area */ volatile CYG_WORD bcr; /* Bus Configuration Register */ volatile CYG_BYTE ppc_acr; /* Arbiter Configuration Register */ volatile CYG_BYTE reserved15[0x3]; /* Reserved area */ volatile CYG_WORD ppc_alrh; /* Arbitration level Register (First clients)*/ volatile CYG_WORD ppc_alrl; /* Arbitration Level Register (Next clients) */ volatile CYG_BYTE lcl_acr; /* LCL Arbiter Configuration Register */ volatile CYG_BYTE reserved16[0x3]; /* Reserved area */ volatile CYG_WORD lcl_alrh; /* LCL Arbitration level Register (First clients)*/ volatile CYG_WORD lcl_alrl; /* LCL Arbitration Level Register (Next clients) */ volatile CYG_WORD tescr1; /* PPC bus transfer error status control register 1 */ volatile CYG_WORD tescr2; /* PPC bus transfer error status control register 2 */ volatile CYG_WORD ltescr1; /* Local bus transfer error status control register 1 */ volatile CYG_WORD ltescr2; /* Local bus transfer error status control register 2 */ volatile CYG_WORD pdtea; /* PPC bus DMA Transfer Error Address */ volatile CYG_BYTE pdtem; /* PPC bus DMA Transfer Error MSNUM */ volatile CYG_BYTE reserved17[0x3]; /* Reserved area */ volatile CYG_WORD ldtea; /* PPC bus DMA Transfer Error Address */ volatile CYG_BYTE ldtem; /* PPC bus DMA Transfer Error MSNUM */ volatile CYG_BYTE reserved18[0xa3]; /* Reserved area */ /* memc */ struct mem_regs { volatile CYG_WORD memc_br; /* Base Register */ volatile CYG_WORD memc_or; /* Option Register */ } mem_regs[12]; volatile CYG_BYTE reserved19[0x8]; /* Reserved area */ volatile CYG_WORD memc_mar; /* Memory Address Register */ volatile CYG_BYTE reserved20[0x4]; /* Reserved area */ volatile CYG_WORD memc_mamr; /* Machine A Mode Register */ volatile CYG_WORD memc_mbmr; /* Machine B Mode Register */ volatile CYG_WORD memc_mcmr; /* Machine C Mode Register */ volatile CYG_WORD memc_mdmr; /* Machine D Mode Register */ volatile CYG_BYTE reserved21[0x4]; /* Reserved area */ volatile CYG_WORD16 memc_mptpr; /* Memory Periodic Timer Prescaler */ volatile CYG_BYTE reserved22[0x2]; /* Reserved area */ volatile CYG_WORD memc_mdr; /* Memory Data Register */ volatile CYG_BYTE reserved23[0x4]; /* Reserved area */ volatile CYG_WORD memc_psdmr; /* PowerPC Bus SDRAM machine Mode Register */ volatile CYG_WORD memc_lsdmr; /* Local Bus SDRAM machine Mode Registe */ volatile CYG_BYTE memc_purt; /* PowerPC Bus assigned UPM Refresh Timer */ volatile CYG_BYTE reserved24[0x3]; /* Reserved area */ volatile CYG_BYTE memc_psrt; /* PowerPC BusBus assigned SDRAM Refresh Timer */ volatile CYG_BYTE reserved25[0x3]; /* Reserved area */ volatile CYG_BYTE memc_lurt; /* Local Bus assigned UPM Refresh Timer */ volatile CYG_BYTE reserved26[0x3]; /* Reserved area */ volatile CYG_BYTE memc_lsrt; /* Local Bus assigned SDRAM Refresh Timer */ volatile CYG_BYTE reserved27[0x3]; /* Reserved area */ volatile CYG_WORD memc_immr; /* Internal Memory Map Register */ /* pci */ volatile CYG_WORD pcibr0; /* Base address+valid for PCI window 1 */ volatile CYG_WORD pcibr1; /* Base address+valid for PCI window 2 */ volatile CYG_BYTE reserved28[0x10]; /* Reserved area */ volatile CYG_WORD pcimsk0; /* Mask for PCI window 1 */ volatile CYG_WORD pcimsk1; /* Mask for PCI window 2 */ volatile CYG_BYTE reserved29[0x54]; /* Reserved area */ /* si_timers */ volatile CYG_WORD16 si_timers_tmcntsc; /* Time Counter Status and Control Register */ volatile CYG_BYTE reserved30[0x2]; /* Reserved area */ volatile CYG_WORD si_timers_tmcnt; /* Time Counter Register */ volatile CYG_WORD si_timers_tmcntsec; /* Time Counter Seconds*/ volatile CYG_WORD si_timers_tmcntal; /* Time Counter Alarm Register */ volatile CYG_BYTE reserved31[0x10]; /* Reserved area */ volatile CYG_WORD16 si_timers_piscr; /* Periodic Interrupt Status and Control Reg. */ volatile CYG_BYTE reserved32[0x2]; /* Reserved area */ volatile CYG_WORD si_timers_pitc; /* Periodic Interrupt Count Register */ volatile CYG_WORD si_timers_pitr; /* Periodic Interrupt Timer Register */ volatile CYG_BYTE reserved33[0x54]; /* Reserved area */ /* test module registers */ volatile CYG_WORD tstmhr; volatile CYG_WORD tstmlr; volatile CYG_WORD16 tster; volatile CYG_BYTE reserved34[0x156]; /* Reserved area */ /* pci, part 2 */ volatile CYG_WORD pci_pci; /* PCI Configuration space */ volatile CYG_BYTE reserved35[0x7fc]; /* Reserved area */ /* ic */ volatile CYG_WORD16 ic_sicr; /* Interrupt Configuration Register */ volatile CYG_BYTE reserved36[0x2]; /* Reserved area */ volatile CYG_WORD ic_sivec; /* CP Interrupt Vector Register */ volatile CYG_WORD ic_sipnr_h; /* Interrupt Pending Register (HIGH) */ volatile CYG_WORD ic_sipnr_l; /* Interrupt Pending Register (LOW) */ volatile CYG_WORD ic_siprr; /* SIU Interrupt Priority Register */ volatile CYG_WORD ic_scprr_h; /* Interrupt Priority Register (HIGH) */ volatile CYG_WORD ic_scprr_l; /* Interrupt Priority Register (LOW) */ volatile CYG_WORD ic_simr_h; /* Interrupt Mask Register (HIGH) */ volatile CYG_WORD ic_simr_l; /* Interrupt Mask Register (LOW) */ volatile CYG_WORD ic_siexr; /* External Interrupt Control Register */ volatile CYG_BYTE reserved37[0x58]; /* Reserved area */ /* clocks */ volatile CYG_WORD clocks_sccr; /* System Clock Control Register */ volatile CYG_BYTE reserved38[0x4]; /* Reserved area */ volatile CYG_WORD clocks_scmr; /* System Clock Mode Register */ volatile CYG_BYTE reserved39[0x4]; /* Reserved area */ volatile CYG_WORD clocks_rsr; /* Reset Status Register */ volatile CYG_WORD clocks_rmr; /* Reset Moode Register */ volatile CYG_BYTE reserved40[0x68]; /* Reserved area */ /* io_ports */ struct io_regs { volatile CYG_WORD pdir; /* Port A-D Data Direction Register */ volatile CYG_WORD ppar; /* Port A-D Pin Assignment Register */ volatile CYG_WORD psor; /* Port A-D Special Operation Register */ volatile CYG_WORD podr; /* Port A-D Open Drain Register */ volatile CYG_WORD pdat; /* Port A-D Data Register */ volatile CYG_BYTE reserved41[0xc]; /* Reserved area */ } io_regs[4]; /* cpm_timers */ volatile CYG_BYTE cpm_timers_tgcr1; /* Timer Global Configuration Register */ volatile CYG_BYTE reserved42[0x3]; /* Reserved area */ volatile CYG_BYTE cpm_timers_tgcr2; /* Timer Global Configuration Register */ volatile CYG_BYTE reserved43[0xb]; /* Reserved area */ volatile CYG_WORD16 cpm_timers_tmr1; /* Timer Mode Register */ volatile CYG_WORD16 cpm_timers_tmr2; /* Timer Mode Register */ volatile CYG_WORD16 cpm_timers_trr1; /* Timer Reference Register */ volatile CYG_WORD16 cpm_timers_trr2; /* Timer Reference Register */ volatile CYG_WORD16 cpm_timers_tcr1; /* Timer Capture Register */ volatile CYG_WORD16 cpm_timers_tcr2; /* Timer Capture Register */ volatile CYG_WORD16 cpm_timers_tcn1; /* Timer Counter */ volatile CYG_WORD16 cpm_timers_tcn2; /* Timer Counter */ volatile CYG_WORD16 cpm_timers_tmr3; /* Timer Mode Register */ volatile CYG_WORD16 cpm_timers_tmr4; /* Timer Mode Register */ volatile CYG_WORD16 cpm_timers_trr3; /* Timer Reference Register */ volatile CYG_WORD16 cpm_timers_trr4; /* Timer Reference Register */ volatile CYG_WORD16 cpm_timers_tcr3; /* Timer Capture Register */ volatile CYG_WORD16 cpm_timers_tcr4; /* Timer Capture Register */ volatile CYG_WORD16 cpm_timers_tcn3; /* Timer Counter */ volatile CYG_WORD16 cpm_timers_tcn4; /* Timer Counter */ volatile CYG_WORD16 cpm_timers_ter[4]; /* Timer Event Register */ volatile CYG_BYTE reserved44[0x260]; /* Reserved area */ /* sdma general */ volatile CYG_BYTE sdma_sdsr; /* SDMA Status Register */ volatile CYG_BYTE reserved45[0x3]; /* Reserved area */ volatile CYG_BYTE sdma_sdmr; /* SDMA Mask Register */ volatile CYG_BYTE reserved46[0x3]; /* Reserved area */ /* idma */ volatile CYG_BYTE idma_idsr1; /* IDMA Status Register */ volatile CYG_BYTE reserved47[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idmr1; /* IDMA Mask Register */ volatile CYG_BYTE reserved48[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idsr2; /* IDMA Status Register */ volatile CYG_BYTE reserved49[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idmr2; /* IDMA Mask Register */ volatile CYG_BYTE reserved50[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idsr3; /* IDMA Status Register */ volatile CYG_BYTE reserved51[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idmr3; /* IDMA Mask Register */ volatile CYG_BYTE reserved52[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idsr4; /* IDMA Status Register */ volatile CYG_BYTE reserved53[0x3]; /* Reserved area */ volatile CYG_BYTE idma_idmr4; /* IDMA Mask Register */ volatile CYG_BYTE reserved54[0x2c3]; /* Reserved area */ /* fcc */ struct fcc_regs { volatile CYG_WORD fcc_gfmr; /* FCC General Mode Register */ volatile CYG_WORD fcc_psmr; /* FCC Protocol Specific Mode Register */ volatile CYG_WORD16 fcc_todr; /* FCC Transmit On Demand Register */ volatile CYG_BYTE reserved55[0x2]; /* Reserved area */ volatile CYG_WORD16 fcc_dsr; /* FCC Data Sync. Register */ volatile CYG_BYTE reserved56[0x2]; /* Reserved area */ volatile CYG_WORD fcc_fcce; /* FCC Event Register */ volatile CYG_WORD fcc_fccm; /* FCC Mask Register */ volatile CYG_BYTE fcc_fccs; /* FCC Status Register */ volatile CYG_BYTE reserved57[0x3]; /* Reserved area */ volatile CYG_WORD fcc_ftprr; /* FCC Transmit Partial Rate Register */ } fcc_regs[3]; volatile CYG_BYTE reserved58[0x290]; /* Reserved area */ /* brgs 5 through 8 */ volatile CYG_WORD brgs_brgc5; /* Baud Rate Generator 5 Config Register */ volatile CYG_WORD brgs_brgc6; /* Baud Rate Generator 6 Config Register */ volatile CYG_WORD brgs_brgc7; /* Baud Rate Generator 7 Config Register */ volatile CYG_WORD brgs_brgc8; /* Baud Rate Generator 8 Config Register */ volatile CYG_BYTE reserved59[0x260]; /* Reserved area */ /* i2c */ volatile CYG_BYTE i2c_i2mod; /* IC Mode Register */ volatile CYG_BYTE reserved60[0x3]; /* Reserved area */ volatile CYG_BYTE i2c_i2add; /* IC Address Register */ volatile CYG_BYTE reserved61[0x3]; /* Reserved area */ volatile CYG_BYTE i2c_i2brg; /* IC BRG Register */ volatile CYG_BYTE reserved62[0x3]; /* Reserved area */ volatile CYG_BYTE i2c_i2com; /* IC Command Register */ volatile CYG_BYTE reserved63[0x3]; /* Reserved area */ volatile CYG_BYTE i2c_i2cer; /* IC Event Register */ volatile CYG_BYTE reserved64[0x3]; /* Reserved area */ volatile CYG_BYTE i2c_i2cmr; /* IC Mask Register */ volatile CYG_BYTE reserved65[0x14b]; /* Reserved area */ /* cpm */ volatile CYG_WORD cpm_cpcr; /* Communication Processor Command Register */ volatile CYG_WORD cpm_rccr; /* RISC Configuration Register */ volatile CYG_WORD cpm_rmdr; /* RISC Microcode Dev. Support Control Reg. */ volatile CYG_WORD16 cpm_rctr1; /* RISC Controller Trap Register */ volatile CYG_WORD16 cpm_rctr2; /* RISC Controller Trap Register */ volatile CYG_WORD16 cpm_rctr3; /* RISC Controller Trap Register */ volatile CYG_WORD16 cpm_rctr4; /* RISC Controller Trap Register */ volatile CYG_BYTE reserved66[0x2]; /* Reserved area */ volatile CYG_WORD16 cpm_rter; /* RISC Timers Event Register */ volatile CYG_BYTE reserved67[0x2]; /* Reserved area */ volatile CYG_WORD16 cpm_rtmr; /* RISC Timers Mask Register */ volatile CYG_WORD16 cpm_rtscr; /* RISC Time-Stamp Timer Control Register */ volatile CYG_WORD16 cpm_rmds; /* RISC Development Support Status Register */ volatile CYG_WORD cpm_rtsr; /* RISC Time-Stamp Register */ volatile CYG_BYTE reserved68[0xc]; /* Reserved area */ /* brgs 1 through 4 */ volatile CYG_WORD brgs_brgc1; /* Baud Rate Generator 5 Config Register */ volatile CYG_WORD brgs_brgc2; /* Baud Rate Generator 2 Config Register */ volatile CYG_WORD brgs_brgc3; /* Baud Rate Generator 3 Config Register */ volatile CYG_WORD brgs_brgc4; /* Baud Rate Generator 4 Config Register */ /* scc */ struct scc_regs_8260 { volatile CYG_WORD gsmr_l; /* SCC General Mode Register */ volatile CYG_WORD gsmr_h; /* SCC General Mode Register */ volatile CYG_WORD16 psmr; /* SCC Protocol Specific Mode Register */ volatile CYG_BYTE reserved69[0x2]; /* Reserved area */ volatile CYG_WORD16 todr; /* SCC Transmit-On-Demand Register */ volatile CYG_WORD16 dsr; /* SCC Data Synchronization Register */ volatile CYG_WORD16 scce; /* SCC Event Register */ volatile CYG_BYTE reserved70[0x2]; /* Reserved area */ volatile CYG_WORD16 sccm; /* SCC Mask Register */ volatile CYG_BYTE reserved71; /* Reserved area */ volatile CYG_BYTE sccs; /* SCC Status Register */ volatile CYG_BYTE reserved72[0x8]; /* Reserved area */ } scc_regs[4]; /* smc */ struct smc_regs_8260 { volatile CYG_BYTE reserved73[0x2]; /* Reserved area */ volatile CYG_WORD16 smc_smcmr; /* SMC Mode Register */ volatile CYG_BYTE reserved74[0x2]; /* Reserved area */ volatile CYG_BYTE smc_smce; /* SMC Event Register */ volatile CYG_BYTE reserved75[0x3]; /* Reserved area */ volatile CYG_BYTE smc_smcm; /* SMC Mask Register */ volatile CYG_BYTE reserved76[0x5]; /* Reserved area */ } smc_regs[2]; /* spi */ volatile CYG_WORD16 spi_spmode; /* SPI Mode Register */ volatile CYG_BYTE reserved77[0x4]; /* Reserved area */ volatile CYG_BYTE spi_spie; /* SPI Event Register */ volatile CYG_BYTE reserved78[0x3]; /* Reserved area */ volatile CYG_BYTE spi_spim; /* SPI Mask Register */ volatile CYG_BYTE reserved79[0x2]; /* Reserved area */ volatile CYG_BYTE spi_spcom; /* SPI Command Register */ volatile CYG_BYTE reserved80[0x52]; /* Reserved area */ /* cpm_mux */ volatile CYG_BYTE cpm_mux_cmxsi1cr; /* CPM MUX SI Clock Route Register */ volatile CYG_BYTE reserved81; /* Reserved area */ volatile CYG_BYTE cpm_mux_cmxsi2cr; /* CPM MUX SI Clock Route Register */ volatile CYG_BYTE reserved82; /* Reserved area */ volatile CYG_WORD cpm_mux_cmxfcr; /* CPM MUX FCC Clock Route Register */ volatile CYG_WORD cpm_mux_cmxscr; /* CPM MUX SCC Clock Route Register */ volatile CYG_BYTE cpm_mux_cmxsmr; /* CPM MUX SMC Clock Route Register */ volatile CYG_BYTE reserved83; /* Reserved area */ volatile CYG_WORD16 cpm_mux_cmxuar; /* CPM MUX UTOPIA Address Register */ volatile CYG_BYTE reserved84[0x10]; /* Reserved area */ /* si */ struct si_regs { volatile CYG_WORD16 si_si1mr[4]; /* SI TDM Mode Registers */ volatile CYG_BYTE si_si1gmr; /* SI Global Mode Register */ volatile CYG_BYTE reserved85; /* Reserved area */ volatile CYG_BYTE si_si1cmdr; /* SI Command Register */ volatile CYG_BYTE reserved86; /* Reserved area */ volatile CYG_BYTE si_si1str; /* SI Status Register */ volatile CYG_BYTE reserved87; /* Reserved area */ volatile CYG_WORD16 si_si1rsr; /* SI RAM Shadow Address Register */ volatile CYG_WORD16 mcc_mcce; /* MCC Event Register */ volatile CYG_BYTE reserved88[0x2]; /* Reserved area */ volatile CYG_WORD16 mcc_mccm; /* MCC Mask Register */ volatile CYG_BYTE reserved89[0x2]; /* Reserved area */ volatile CYG_BYTE mcc_mccf; /* MCC Configuration Register */ volatile CYG_BYTE reserved90[0x7]; /* Reserved area */ } si_regs[2]; volatile CYG_BYTE reserved91[0x4a0]; /* Reserved area */ /* si_ram */ struct si_ram { CYG_WORD16 si1_ram_si1_tx_ram[0x100]; /* SI Transmit Routing RAM */ volatile CYG_BYTE reserved92[0x200]; /* Reserved area */ CYG_WORD16 si1_ram_si1_rx_ram[0x100]; /* SI Receive Routing RAM */ volatile CYG_BYTE reserved93[0x200]; /* Reserved area */ } si_ram[2]; volatile CYG_BYTE reserved94[0x1000]; /* Reserved area */ } _PackedType t_PQ2IMM; /***************************************************************************/ /* General Global Definitions */ /***************************************************************************/ #define PAGE1 0 /* SCC1 Index into SCC Param RAM Array */ #define PAGE2 1 /* SCC2 Index into SCC Param RAM Array */ #define PAGE3 2 /* SCC3 Index into SCC Param RAM Array */ #define PAGE4 3 /* SCC4 Index into SCC Param RAM Array */ #define SCC1 0 /* SCC1 Index into SCC Regs Array */ #define SCC2 1 /* SCC2 Index into SCC Regs Array */ #define SCC3 2 /* SCC3 Index into SCC Regs Array */ #define SCC4 3 /* SCC4 Index into SCC Regs Array */ #define SMC1 0 /* SMC1 Index into SMC Regs Array */ #define SMC2 1 /* SMC2 Index into SMC Regs Array */ #define PORT_A 0 /* Parallel port A registers */ #define PORT_B 1 /* Parallel port B registers */ #define PORT_C 2 /* Parallel port C registers */ #define PORT_D 3 /* Parallel port D registers */ /*--------------------------------*/ /* KEEP ALIVE POWER REGISTERS KEY */ /*--------------------------------*/ #define KEEP_ALIVE_KEY 0x55ccaa33 /*------------------------------------------* * CPM Command Register (CPCR) * *-------------------------------------------* * NOTE: This register is cleared by reset. * * See MPC8260 User's Manual. * *-------------------------------------------*/ #define CPCR_RST 0x80000000 /* Software Reset Command */ #define CPCR_FLG 0x00010000 /* Command Semaphore Flag */ /*-----------------------------------------------*/ /* Definitions for SCC CPCR Subblock/Page codes. */ /*-----------------------------------------------*/ #define SCC1_PAGE_SUBBLOCK 0x00800000 /* page 0, code = 4 */ #define SCC2_PAGE_SUBBLOCK 0x04A00000 /* page 1, code = 5 */ #define SCC3_PAGE_SUBBLOCK 0x08C00000 /* page 2, code = 6 */ #define SCC4_PAGE_SUBBLOCK 0x0CE00000 /* page 3, code = 7 */ /*-----------------------------------------------*/ /* Definitions for SMC CPCR Subblock/Page codes. */ /*-----------------------------------------------*/ #define SMC1_PAGE_SUBBLOCK 0x1D000000 /* page 7, code = 8 */ #define SMC2_PAGE_SUBBLOCK 0x21200000 /* page 8, code = 9 */ /*-----------------------------*/ /* Opcode definitions for SCCs, opcodes for SMC's are the same * except not all codes are valid for SMC */ /*-----------------------------*/ #define CPCR_INIT_TX_RX_PARAMS 0x00000000 /* Opcode 0 */ #define CPCR_INIT_RX_PARAMS 0x00000001 /* Opcode 1 */ #define CPCR_INIT_TX_PARAMS 0x00000002 /* Opcode 2 */ #define CPCR_ENTER_HUNT_MODE 0x00000003 /* Opcode 3 */ #define CPCR_STOP_TX 0x00000004 /* Opcode 4 */ #define CPCR_GRACEFUL_STOP_TX 0x00000005 /* Opcode 5 */ #define CPCR_RESTART_TX 0x00000006 /* Opcode 6 */ #define CPCR_CLOSE_RX_BD 0x00000007 /* Opcode 7 */ #define CPCR_SET_GRP_ADDR 0x00000008 /* Opcode 8 */ #define CPCR_RESET_BCS 0x0000000A /* Opcode 10 */ /*-----------------------------------------------------*/ /* General Definitions for SCC CPCR Command Operations */ /*-----------------------------------------------------*/ #define READY_TO_RX_CMD 0x00000000 /*-------------------------*/ /* General SCC Definitions */ /*-------------------------*/ #define DISABLE_TX_RX 0xFFFFFFCF /* Clear the ENT/ENR bits in the GSMR Disables the transmit & Receive port */ #define GSMR_L1_ENT 0x00000010 /* ENT bit for the GSMR low register */ #define GSMR_L1_ENR 0x00000020 /* ENR bit for the GSMR low register */ #define ALL_ONES 0xFFFF #endif // ifndef CYGONCE_HAL_PPC_QUICC2_MPC8260_H
Go to most recent revision | Compare with Previous | Blame | View Log