gem5/system/alpha/h/machine_defs.h
Nathan Binkert 492fa2ae5e Get the console code to compile correctly
Add support for some thigns that M5 needs
Make this better support Tru64 v5.1

console/Makefile:
    I couldn't figure out the old build system since I was missing
    a bunch of tools at the time, so I kinda rewrote it.
console/console.c:
    Get the includes right, and make things compile
    little bit of cleanup along the way
console/paljtokern.s:
    formatting junk
console/printf.c:
    Formatting
    get const right
h/lib.h:
    fiddle with the includes that we need
console/console.c:
    Get the BOOTDEVICE_NAME right
    Add a bit of support for grabbing console environment variables
2003-11-14 12:32:52 -05:00

635 lines
28 KiB
C

/*
* Copyright (C) 1998 by the Board of Trustees
* of Leland Stanford Junior University.
* Copyright (C) 1998 Digital Equipment Corporation
*
* This file is part of the SimOS distribution.
* See LICENSE file for terms of the license.
*
*/
/***********************************************************************
machine_defs.h
***********************************************************************/
/*************************************************************************
* *
* Copyright (C) 1993-1996 Stanford University *
* *
* These coded instructions, statements, and computer programs contain *
* unpublished proprietary information of Stanford University, and *
* are protected by Federal copyright law. They may not be disclosed *
* to third parties or copied or duplicated in any form, in whole or *
* in part, without the prior written consent of Stanford University. *
* *
*************************************************************************/
#ifndef __DPGCC__
#ifndef _HEADER_STACK_
#define _HEADER_STACK_
#endif
#endif
#ifndef _MACHINE_DEFS_H
#define _MACHINE_DEFS_H
/*
* Created by: Dan Teodosiu, 07/96
*
* This header file defines the OS view of the MAGIC service address space
* and of the device registers.
*
* The service address space addresses used by the OS are VIRTUAL addresses.
* Depending on whether we simulate a 32 bit or a 64 bit processor,
* the service address mappings will be different. MAGIC physical addresses
* are 40 bits wide, so in 32 bit mode (current SimOS) we had to squeeze
* the service address space into less address bits.
*
* There are two kinds of macros in this file:
*
* - MAGIC definitions, pertaining to the services offered by the
* MAGIC node controller. All these macros start with MAGIC_...,
* Those definitions are further subdivided into ones which do not
* depend on the address mappings (such as MAGIC register numbers,
* error codes, etc.), and ones which do (such as the macros that help
* construct MAGIC PPR addresses).
* The current simulated MAGIC only supports doubleword accesses.
*
* - devices register definitions, of the form DEV_... These defs
* describe the various device registers. Devices are accessed by
* performing uncached word (32bit) reads and writes to their registers.
*
* Notes:
* The macro SIMOS64BIT selects the 64 bit version of those definitions;
* by default, you get the 32 bit version. 64 bit is currently not
* implemented.
*
* Related documents:
* - FLASH: Physical Address Layout
* - FLASH: PP Software Services
* - SimOS to FLASH Physical Address Mapping
*
*/
/***************************************************************************
MAGIC defs which do not depend on the virtual -> physical address mapping
***************************************************************************/
/** zone numbering for service address space **/
#define MAGIC_ZONE_FRAM_ALIAS 0
#define MAGIC_ZONE_PPR_ALIAS 1
#define MAGIC_ZONE_PPC_ALIAS 2
#define MAGIC_ZONE_FIREWALL 3
#define MAGIC_ZONE_DMAMAP 4
#define MAGIC_ZONE_SWTLB 5
#define MAGIC_ZONE_MISSCNT 6
#define MAGIC_ZONE_NODEMAP 7
#define MAGIC_ZONE_PPR 8
#define MAGIC_ZONE_PPC 9
#define MAGIC_ZONE_MILO_ALIAS 10
#define MAGIC_ZONE_EV5_ALIAS 10
#define MAGIC_ZONE_NODECOMM 11 /* node communication zone */
/* do not def zone 12: see below why */
#define MAGIC_ZONE_BDOOR_DEV 14 /* backdoor area for devices */
#define MAGIC_ZONE_FPROM_ALIAS 15
#ifndef SIMOS64BIT
#undef MAGIC_ZONE_FPROM_ALIAS /* In 32bit Simos, 0xbfc00000 maps to... */
#define MAGIC_ZONE_FPROM_ALIAS 12 /* ... zone 12 */
#endif
/** PPR numbering **/
/* Individual MAGIC registers */
#define MAGIC_PPR_IECHIGH 0x0000 /* r */
#define MAGIC_PPR_ACKINTERNAL 0x0001 /* w */
#define MAGIC_PPR_IECENABLE 0x0002 /* r/w */
#define MAGIC_PPR_SENDIPI 0x0003 /* w */
#define MAGIC_PPR_OPSPACE 0x0004 /* r/w */
#define MAGIC_PPR_ASID 0x0005 /* r/w */
#define MAGIC_PPR_TLBINVAL 0x0006 /* w */
#define MAGIC_PPR_TLBINUSE 0x0007 /* r */
#define MAGIC_PPR_MSGTAG 0x0008 /* r/w */
#define MAGIC_PPR_STALLOSPC 0x0009 /* r/w */
#define MAGIC_PPR_CYCLECOUNT 0x000a /* r */
#define MAGIC_PPR_NETMSGTIME 0x000b /* r */
#define MAGIC_PPR_RESERVED_C 0x000c /* */
#define MAGIC_PPR_RESERVED_D 0x000d /* */
#define MAGIC_PPR_RESERVED_E 0x000e /* */
#define MAGIC_PPR_RESERVED_F 0x000f /* */
#define MAGIC_PPR_UNUSED10 0x0010 /* r */
#define MAGIC_PPR_PROTVERSION 0x0011 /* r */
#define MAGIC_PPR_HWVERSION 0x0012 /* r */
#define MAGIC_PPR_REMAPMASK 0x0013 /* r/w */
#define MAGIC_PPR_PROTCONTROL 0x0014 /* r/w */
#define MAGIC_PPR_RESERVED_15 0x0015 /* */
#define MAGIC_PPR_RESERVED_16 0x0016 /* */
#define MAGIC_PPR_RESERVED_17 0x0017 /* */
#define MAGIC_PPR_OUTOFRANGE 0x0018 /* r */
#define MAGIC_PPR_INTERVAL 0x0019 /* r/w */
#define MAGIC_PPR_SLOTMAP 0x001a /* r/w */
#define MAGIC_SLOTMAP_SLOT0_OFFS 0
#define MAGIC_SLOTMAP_SLOT0_MASK 0x00000000000000FFLL
#define MAGIC_SLOTMAP_SLOT1_OFFS 8
#define MAGIC_SLOTMAP_SLOT1_MASK 0x000000000000FF00LL
#define MAGIC_SLOTMAP_SLOT2_OFFS 16
#define MAGIC_SLOTMAP_SLOT2_MASK 0x0000000000FF0000LL
#define MAGIC_SLOTMAP_SLOT3_OFFS 24
#define MAGIC_SLOTMAP_SLOT3_MASK 0x00000000FF000000LL
#define MAGIC_PPR_FWSHIFT 0x001b /* r/w */
#define MAGIC_PPR_RECOVERYSYNC 0x001c /* r */
#define MAGIC_RECOVERYSYNC_PHASE_MASK 0xF000000000000000LL;
#define MAGIC_RECOVERYSYNC_PHASE_SHIFT 60
#define MAGIC_RECOVERYSYNC_PHASE_ZERO (0x0LL << MAGIC_RECOVERYSYNC_PHASE_SHIFT)
#define MAGIC_RECOVERYSYNC_PHASE_ONE (0x1LL << MAGIC_RECOVERYSYNC_PHASE_SHIFT)
#define MAGIC_RECOVERYSYNC_PHASE_TWO (0x2LL << MAGIC_RECOVERYSYNC_PHASE_SHIFT)
#define MAGIC_RECOVERYSYNC_PHASE_THREE (0x3LL << MAGIC_RECOVERYSYNC_PHASE_SHIFT)
#define MAGIC_RECOVERYSYNC_TIMESTAMP_MASK 0x0FFFFFFFFFFFFFFFLL
#define MAGIC_RECOVERYSYNC_TIMESTAMP_SHIFT 0
#define MAGIC_PPR_REPORT_DIAG_RESULT 0x001d /* w */
#define MAGIC_REPORT_PASS_DIAG 0 /* other values indicate fail */
#define MAGIC_PPR_RESERVED_1E 0x001e /* w */
#define MAGIC_PPR_DRAIN_POLL 0x001f /* r */
#define MAGIC_PPR_NODECONFIG 0x0020 /* r */
#define MAGIC_NODECONFIG_THISNODE_OFFS 0
#define MAGIC_NODECONFIG_THISNODE_MASK 0x0000000000000fffLL
#define MAGIC_NODECONFIG_FIRSTNODE_OFFS 12
#define MAGIC_NODECONFIG_FIRSTNODE_MASK 0x0000000000fff000LL
#define MAGIC_NODECONFIG_NODESINCELL_OFFS 24
#define MAGIC_NODECONFIG_NODESINCELL_MASK 0x0000000fff000000LL
#define MAGIC_NODECONFIG_THISCELL_OFFS 36
#define MAGIC_NODECONFIG_THISCELL_MASK 0x0000fff000000000LL
#define MAGIC_NODECONFIG_NCELLS_OFFS 48
#define MAGIC_NODECONFIG_NCELLS_MASK 0x0fff000000000000LL
#define MAGIC_NODECONFIG_THISNODE(val) \
(((val)&MAGIC_NODECONFIG_THISNODE_MASK)>>MAGIC_NODECONFIG_THISNODE_OFFS)
#define MAGIC_NODECONFIG_FIRSTNODE(val) \
(((val)&MAGIC_NODECONFIG_FIRSTNODE_MASK)>>MAGIC_NODECONFIG_FIRSTNODE_OFFS)
#define MAGIC_NODECONFIG_NODESINCELL(val) \
(((val)&MAGIC_NODECONFIG_NODESINCELL_MASK)>>MAGIC_NODECONFIG_NODESINCELL_OFFS)
#define MAGIC_NODECONFIG_THISCELL(val) \
(((val)&MAGIC_NODECONFIG_THISCELL_MASK)>>MAGIC_NODECONFIG_THISCELL_OFFS)
#define MAGIC_NODECONFIG_NCELLS(val) \
(((val)&MAGIC_NODECONFIG_NCELLS_MASK)>>MAGIC_NODECONFIG_NCELLS_OFFS)
#define MAGIC_PPR_ADDRCONFIG 0x0021 /* r */
#define MAGIC_ADDRCONFIG_PAGES_OFFS 0
#define MAGIC_ADDRCONFIG_PAGES_MASK 0x0000ffffffffLL
#define MAGIC_ADDRCONFIG_NNBITS_OFFS 32
#define MAGIC_ADDRCONFIG_NNBITS_MASK 0x00ff00000000LL
#define MAGIC_ADDRCONFIG_MASBITS_OFFS 40
#define MAGIC_ADDRCONFIG_MASBITS_MASK 0xff0000000000LL
#define MAGIC_ADDRCONFIG_PAGES(val) \
(((val)&MAGIC_ADDRCONFIG_PAGES_MASK)>>MAGIC_ADDRCONFIG_PAGES_OFFS)
#define MAGIC_ADDRCONFIG_NNBITS(val) \
(((val)&MAGIC_ADDRCONFIG_NNBITS_MASK)>>MAGIC_ADDRCONFIG_NNBITS_OFFS)
#define MAGIC_ADDRCONFIG_MASBITS(val) \
(((val)&MAGIC_ADDRCONFIG_MASBITS_MASK)>>MAGIC_ADDRCONFIG_MASBITS_OFFS)
/* OSPC mirror in uncached space (used by FPROM) */
#define MAGIC_PPR_OSPC 0x1000 /* r */
/** PPC error codes **/
#define MAGIC_PPC_NOT_SUCCESSFUL_BIT 0x8000000000000000LL /* set for error */
/* these return values should be ORed with the "not successful" bit */
#define MAGIC_PPC_RETRY_CODE 0x00 /* please retry request (default) */
#define MAGIC_PPC_BADGROUP 0x01 /* PPC group was invalid */
#define MAGIC_PPC_BADOPCODE 0x02 /* PPC opcode was invalid */
#define MAGIC_PPC_ARGOUTOFRANGE 0x03 /* some arg to the PPC was bad */
#define MAGIC_PPC_BUSY 0x04 /* operation needed some
* resource that was unavail */
/* these results indicate the request cannot be serviced, and it should
not be retried. The interpretation of these is protocol-dependent
One example is: the physical pages are remote. The application
can't know this, but the sequence was otherwise valid. If a protocol
can't handle remote pages, this is a possibility. So, e.g. fmemcpy
uses PROT_FAIL1 to indicate it can't handle the pages. See the
individual _interface files to describe the interpretation*/
#define MAGIC_PPC_PROT_FAIL1 0x11
#define MAGIC_PPC_PROT_FAIL2 0x12
#define MAGIC_PPC_PROT_FAIL3 0x13
#define MAGIC_PPC_RETRY (MAGIC_PPC_NOT_SUCCESSFUL_BIT|MAGIC_PPC_RETRY_CODE)
/** PPC groups **/
#define MAGIC_PPC_GROUP_KERNEL 0x000
#define MAGIC_PPC_GROUP_MSG 0x001
/** kernel group opcodes **/
#define MAGIC_PPC_OP_SIPSLO 0x000
#define MAGIC_PPC_OP_SIPSHI 0x001
#define MAGIC_PPC_OP_MEMCPY 0x002
#define MAGIC_PPC_OP_IBITWRITE 0x003
#define MAGIC_PPC_OP_IBITREAD 0x004
#define MAGIC_PPC_OP_DONATE 0x005
#define MAGIC_PPC_OP_RESETPOOL 0x006
#define MAGIC_PPC_OP_LOADSTATE 0x007
#define MAGIC_PPC_OP_STORESTATE 0x008
#define MAGIC_PPC_OP_MEMRESET 0x009
#define MAGIC_PPC_OP_VECTORPKT 0x00A
#define MAGIC_PPC_OP_BZERO 0x00B
/* HLL/Diag opcodes within kernel region */
#define MAGIC_PPC_OP_PRINTF1 0x00C
/* config info opcodes within kernel region */
/* note: result has same format as MAGIC_PPR_NODECONFIG and
* MAGIC_PPR_ADDRCONFIG PPR's.
*/
#define MAGIC_PPC_OP_CELLNODECONFIG 0x010
#define MAGIC_PPC_OP_NODEADDRCONFIG 0x011
#define MAGIC_PPC_OP_STARTSLAVENODE 0x012
/** msg group opcodes **/
#define MAGIC_PPC_OP_MEMCPY_V 0x000
#define MAGIC_PPC_OP_SIPS_V 0x001
#define MAGIC_PPC_OP_BZERO_V 0x002
/** OSPC defs **/
/* OSPC opcodes.
*
* Note:
* In the future we will probably add more structure to the header dword...
* for example, in SIPS it would be nice to have the sender CPU from the
* message header there, which authenticates the sender at a lower level
* than the sender cell info in the SIPS header. Because this will happen
* eventually, these opcodes are not defined as 0x01LL.
*/
#define MAGIC_OSPC_LO_NONE 0xff /* no OSPC pending */
#define MAGIC_OSPC_LO_SIPSREQ 0x01 /* lopri SIPS pending */
#define MAGIC_OSPC_LO_CACHECTR 0x02 /* ??? */
#define MAGIC_OSPC_HI_NONE 0xff /* no OSPC pending */
#define MAGIC_OSPC_HI_SIPSREPLY 0x81 /* hipri SIPS pending */
#define MAGIC_OSPC_HI_TLBMISS 0x82 /* ??? */
/* For vector packet payload retrieval... in the future we'll move to some
method other than OSPCs for this. */
#define MAGIC_OSPC_VEC_REQ_NONE 0xff
#define MAGIC_OSPC_VEC_REQ 0xd1
#define MAGIC_OSPC_VEC_REP_NONE 0xff
#define MAGIC_OSPC_VEC_REP 0xe1
/* OSPC offsets */
#define MAGIC_OSPC_SIZE 128 /* OSPC size == 1 cache line */
#define MAGIC_OSPC_LO_OFFS 0*MAGIC_OSPC_SIZE /* lopri SIPS */
#define MAGIC_OSPC_HI_OFFS 1*MAGIC_OSPC_SIZE /* hipri SIPS */
#define MAGIC_OSPC_VEC_REQ_OFFS 2*MAGIC_OSPC_SIZE /* VP request */
#define MAGIC_OSPC_VEC_REP_OFFS 3*MAGIC_OSPC_SIZE /* VP reply */
/***************************************************************************
MAGIC defs which reflect the virtual -> physical address mapping
***************************************************************************/
/* auxiliary defs -- ONLY FOR INTERNAL USE IN THIS FILE */
#ifndef SIMOS64BIT /* 32 bit address space (current SimOS version) */
/* virtual addresses for start of FPROM and FRAM */
#define FPROM_BASE _SEXT(0xbfc00000)
#define FRAM_BASE _SEXT(0xa0000000)
#ifdef _KERNEL
#define __MAGIC_BASE COMPAT_K1BASE /* KSEG1 */
#define __MAGIC_BASE_32 COMPAT_K1BASE_32 /* KSEG1 */
#define __MAGIC_BASE_ACC COMPAT_K1BASE /* still KSEG1 */
#else
#define __MAGIC_BASE K1BASE /* KSEG1 */
#define __MAGIC_BASE_32 K1BASE_32 /* KSEG1 */
#define __MAGIC_BASE_ACC K1BASE /* still KSEG1 */
#endif
#define __MAGIC_OSPC_BASE (K0BASE+0x1000) /* OSPC right after remap */
#define __MAGIC_OSPC_END (K0BASE+0x2000) /* 1 page-alias for each node */
#define __MAGIC_NODE_BITS 5 /* max. 32 nodes */
#define __MAGIC_NODE_OFFS 24
#define __MAGIC_ZONE_BITS 4 /* 16 zones / node */
#define __MAGIC_ZONE_OFFS 20 /* 1MB / zone */
#define __MAGIC_REG_BITS 17
#define __MAGIC_REG_OFFS 3 /* registers are 64bit */
#define __MAGIC_PPC_SEQ_BITS 7 /* one cache line */
#define __MAGIC_PPC_SEQ_OFFS 0
#define __MAGIC_PPC_OPC_BITS 5 /* group corresponds to a 4K page */
#define __MAGIC_PPC_OPC_OFFS __MAGIC_PPC_SEQ_BITS
#define __MAGIC_PPC_GRP_BITS 8
#define __MAGIC_PPC_GRP_OFFS (__MAGIC_PPC_SEQ_BITS+__MAGIC_PPC_OPC_BITS)
#define __MAGIC_ZONE(node, nbits, zone) \
( __MAGIC_BASE | ((node) << __MAGIC_NODE_OFFS) \
| ((zone) << __MAGIC_ZONE_OFFS) )
#define __MAGIC_ZONE_32(node, nbits, zone) \
( __MAGIC_BASE_32 | ((node) << __MAGIC_NODE_OFFS) \
| ((zone) << __MAGIC_ZONE_OFFS) )
#define __MAGIC_ZONE_ACC(node, nbits, zone) \
( __MAGIC_BASE_ACC | ((node) << __MAGIC_NODE_OFFS) \
| ((zone) << __MAGIC_ZONE_OFFS) )
#define __MAGIC_ZONE_ALIAS(zone) \
( __MAGIC_BASE | ((zone) << __MAGIC_ZONE_OFFS) )
#define __MAGIC_ZONE_ALIAS_ACC(zone) \
( __MAGIC_BASE_ACC | ((zone) << __MAGIC_ZONE_OFFS) )
#define __MAGIC_OSPC_RANGE(node, nbits) \
( __MAGIC_OSPC_BASE )
#define MAGIC_MAX_REMAP_PAGES 1 /* max. sz of remap area (limited
* by OSPC in following page) */
/* offsets in bdoor zone of simulated devices (64KB each) */
#define __MAGIC_BDOOR_CLOCK_OFFS 0x00000000 /* CMOS rt clock */
#define __MAGIC_BDOOR_CNSLE_OFFS 0x00001000 /* console interface */
#define __MAGIC_BDOOR_ETHER_OFFS 0x00002000 /* ethernet controller */
#define __MAGIC_BDOOR_DISKS_OFFS 0x00010000 /* scsi disk controller */
#ifdef TORNADO
#define __MAGIC_BDOOR_GIZMO_OFFS \
((__MAGIC_BDOOR_DISKS_OFFS + sizeof(DevDiskRegisters)*DEV_DISK_MAX_DISKS + \
0x1000 - 1) & ~(0x1000-1)) /* gizmo interface */
#endif
#else /* SIMOS64BIT */ /* 64 bit address space */
not yet implemented, will not compile;
#endif /* SIMOS64BIT */
#ifdef LANGUAGE_ASSEMBLY
#define MagicRegister int
#define MAGICREGP_CAST
#else
typedef uint64 MagicRegister;
#define MAGICREGP_CAST (MagicRegister *)
#endif
/* PPR access */
#define MAGIC_PPR(node, nbits, reg) \
((MagicRegister*) \
(__MAGIC_ZONE(node,nbits,MAGIC_ZONE_PPR) | ((reg) << __MAGIC_REG_OFFS)))
#define MAGIC_PPR_ALIAS(reg) \
(MAGICREGP_CAST \
(__MAGIC_ZONE_ALIAS(MAGIC_ZONE_PPR_ALIAS) | ((reg) << __MAGIC_REG_OFFS)))
#define MAGIC_PPR_NODE(addr, nbits) \
( ((addr) >> __MAGIC_NODE_OFFS) & ((1LL << (nbits)) - 1) )
#define MAGIC_PPR_ZONE(addr) \
( ((addr) >> __MAGIC_ZONE_OFFS) & ((1LL << __MAGIC_ZONE_BITS) - 1) )
#define MAGIC_PPR_REG(addr) \
( ((addr) >> __MAGIC_REG_OFFS) & ((1LL << __MAGIC_REG_BITS) - 1) )
/* PPC access */
#define MAGIC_PPC(node, nbits, grp, opc) \
((MagicRegister*) \
( __MAGIC_ZONE(node,nbits,MAGIC_ZONE_PPC) | \
((grp) << __MAGIC_PPC_GRP_OFFS) | \
((opc) << __MAGIC_PPC_OPC_OFFS) ))
#define MAGIC_PPC_ACC(node, nbits, grp, opc) \
((MagicRegister*) \
( __MAGIC_ZONE_ACC(node,nbits,MAGIC_ZONE_PPC) | \
((grp) << __MAGIC_PPC_GRP_OFFS) | \
((opc) << __MAGIC_PPC_OPC_OFFS) ))
#define MAGIC_PPC_ALIAS(grp, opc) \
(MAGICREGP_CAST \
( __MAGIC_ZONE_ALIAS(MAGIC_ZONE_PPC_ALIAS) \
| ((grp) << __MAGIC_PPC_GRP_OFFS) \
| ((opc) << __MAGIC_PPC_OPC_OFFS) ))
#define MAGIC_PPC_ALIAS_ACC(grp, opc) \
((MagicRegister*) \
( __MAGIC_ZONE_ALIAS_ACC(MAGIC_ZONE_PPC_ALIAS) \
| ((grp) << __MAGIC_PPC_GRP_OFFS) \
| ((opc) << __MAGIC_PPC_OPC_OFFS) ))
#define MAGIC_PPC_NODE(addr,nbits) \
( ((addr) >> __MAGIC_NODE_OFFS) & ((1LL << (nbits)) - 1) )
#define MAGIC_PPC_ZONE(addr) \
( ((addr) >> __MAGIC_ZONE_OFFS) & ((1LL << __MAGIC_ZONE_BITS) - 1) )
#define MAGIC_PPC_GRP(addr) \
( ((addr) >> __MAGIC_PPC_GRP_OFFS) & ((1LL << __MAGIC_PPC_GRP_BITS) - 1) )
#define MAGIC_PPC_OPC(addr) \
( ((addr) >> __MAGIC_PPC_OPC_OFFS) & ((1LL << __MAGIC_PPC_OPC_BITS) - 1) )
/* Nodemap access */
#define MAGIC_NODEMAP(node, nbits, reg) \
((MagicRegister*) \
(__MAGIC_ZONE(node,nbits,MAGIC_ZONE_NODEMAP) | ((reg) << __MAGIC_REG_OFFS)))
/* Nodecomm access */
#define MAGIC_NODECOMM(node, nbits, n) \
((MagicRegister*) \
(__MAGIC_ZONE(node,nbits,MAGIC_ZONE_NODECOMM) | ((n) << __MAGIC_REG_OFFS)))
/* OSPC access */
#define MAGIC_OSPC(node, nbits, ospc) \
( (MagicRegister*)(__MAGIC_OSPC_RANGE(node, nbits) + (ospc)) )
#define MAGIC_UNCACHED_OSPC(node, nbits, offs) \
MAGIC_PPR(node, nbits, MAGIC_PPR_OSPC + ((offs) >> __MAGIC_REG_OFFS))
#define MAGIC_UNCACHED_OSPC_ALIAS(offs) \
MAGIC_PPR_ALIAS(MAGIC_PPR_OSPC + ((offs) >> __MAGIC_REG_OFFS))
#define MAGIC_OSPC_OPCODE(val) ((int)((val) & ((MagicRegister)0xff)))
/* firewall access */
#define MAGIC_FW_RANGE(node, nbits) \
((MagicRegister*) __MAGIC_ZONE(node,nbits,MAGIC_ZONE_FIREWALL))
/***************************************************************************
definitions of the simulated devices and of various parameters
which depend on the simulator.
***************************************************************************/
#define MAGIC_MAX_CPUS 32 /* max no of nodes in a simulation */
#define MAGIC_MAX_CELLS 32 /* max no of cells in a simulation */
/* needed so assembly files can include machine_defs */
#ifndef LANGUAGE_ASSEMBLY
typedef unsigned int DevRegister;
/* disk device:
* there is currently one controller per cell. The controller
* can be accessed through the backdoor zone of the first node
* in the cell.
*/
#define DEV_DISK_CMD_SIZE 12
#define DEV_DISK_MAX_DMA_LENGTH 1024 /* max no of pages for one request */
#define DEV_DISK_MAX_DISKS 128 /* max disks per controller (cell) */
typedef struct DevDiskRegisters {
DevRegister intr_pending; /* r:int posted for this disk / w:ack int */
DevRegister errnoVal; /* status of last i/o */
DevRegister bytesTransferred; /* bytes transferred during last i/o */
DevRegister interruptNode; /* node to interrupt upon completion */
DevRegister k0Addr[DEV_DISK_MAX_DMA_LENGTH]; /* page addresses */
DevRegister offset; /* page offset for first page */
DevRegister command[DEV_DISK_CMD_SIZE]; /* i/o command */
DevRegister startIO; /* write here causes i/o initiation */
DevRegister doneIO; /* tells when i/o complete */
DevRegister filler[16]; /* filler: resize when you add new regs */
} DevDiskRegisters;
#define DEV_DISK_REGISTERS(node, nbits, disk) \
( ((volatile DevDiskRegisters*) \
(__MAGIC_ZONE(node, nbits, MAGIC_ZONE_BDOOR_DEV) + \
__MAGIC_BDOOR_DISKS_OFFS)) + \
(disk) )
/* console device:
* there is currently one console per cell. The console registers
* can be accessed through the backdoor zone of the first node
* in the cell. The console always interrupts this node.
*/
#define DEV_CNSLE_TX_INTR 0x01 /* intr enable / state bits */
#define DEV_CNSLE_RX_INTR 0x02
typedef struct DevConsoleRegisters {
DevRegister intr_status; /* r: intr state / w: intr enable */
DevRegister data; /* r: current char / w: send char */
} DevConsoleRegisters;
#define DEV_CONSOLE_REGISTERS(node, nbits) \
( ((volatile DevConsoleRegisters*) \
(__MAGIC_ZONE(node, nbits, MAGIC_ZONE_BDOOR_DEV) + \
__MAGIC_BDOOR_CNSLE_OFFS)) )
/* ethernet device:
* there is currently one ether interface per cell. The ether registers
* can be accessed through the backdoor zone of the first node
* in the cell. The ether interface always interrupts this node.
*/
#define DEV_ETHER_MAX_RCV_ENTRIES 64
#define DEV_ETHER_MAX_SND_ENTRIES 64
#define DEV_ETHER_MAX_SND_CHUNKS 128
#define DEV_ETHER_MAX_TRANSFER_SIZE 1800
typedef struct DevEtherRegisters {
DevRegister etheraddr[6]; /* controller tells OS its ethernet addr */
DevRegister numRcvEntries; /* read by OS, indicates how many receive
* ring buffer entries will be used. OS must
* allocate a receive buffer for each of
* these entries */
DevRegister numSndEntries; /* read by OS, indicates how many send ring
* buffer entries will be used so it knows
* when to wrap its index pointer */
DevRegister numSndChunks; /* same as numSndEntries */
struct {
DevRegister pAddr;
DevRegister maxLen;
DevRegister len;
DevRegister flag;
} rcvEntries[ DEV_ETHER_MAX_RCV_ENTRIES ];
struct {
DevRegister firstChunk;
DevRegister lastChunk;
DevRegister flag; /* triggers send */
} sndEntries[ DEV_ETHER_MAX_SND_ENTRIES ];
struct {
DevRegister pAddr;
DevRegister len;
} sndChunks[ DEV_ETHER_MAX_SND_CHUNKS ];
/* note: sndChunks is last because we might extend the number of
* send chunks in the future and don't want to break OS compatibility when
* we do it */
} DevEtherRegisters;
/* values for flag field */
#define DEV_ETHER_OS_OWNED (DevRegister)1
#define DEV_ETHER_CONTROLLER_OWNED (DevRegister)2
#define DEV_ETHER_REGISTERS(node, nbits) \
( ((volatile DevEtherRegisters*) \
(__MAGIC_ZONE(node, nbits, MAGIC_ZONE_BDOOR_DEV) + \
__MAGIC_BDOOR_ETHER_OFFS)) )
/* CMOS RT clock device:
* This simulates a very primitive CMOS clock. This device only
* has one register that contains the time since January 1, 1970
* (same as the Unix gettimeofday() result).
*/
typedef struct DevClockRegisters {
DevRegister ctime; /* current time */
} DevClockRegisters;
#define DEV_CLOCK_REGISTERS(node, nbits) \
( ((volatile DevClockRegisters*) \
(__MAGIC_ZONE(node, nbits, MAGIC_ZONE_BDOOR_DEV) + \
__MAGIC_BDOOR_CLOCK_OFFS)) )
#endif /* LANGUAGE_ASSEMBLY */
/* Interrupt bit assignments:
*
* There are 64 external interrupt lines coming into MAGIC. The
* following defines show to what interrupt line each device is
* connected.
*
* NOTE: when MAGIC posts an interrupt, the IEChigh register will
* contain the bit number of the highest level interrupt pending,
* so the bit numbers are also IEC's (Interrupt Exception Codes).
*/
#define DEV_IEC_SCSI 0x08 /* scsi disk controller */
#define DEV_IEC_ETHER 0x09 /* ether controller */
#define DEV_IEC_OSPC_LO 0x0a /* low-priority SIPS */
#define DEV_IEC_VEC_REQ 0x0b /* vector packet request */
#define DEV_IEC_KEYBDMOUSE 0x10 /* console */
#define DEV_IEC_DUART 0x11 /* serial line on FLASH board */
#define DEV_IEC_OSPC_HI 0x12 /* high-priority SIPS */
#define DEV_IEC_RECOVERY 0x13 /* recov int (posted by MAGIC) */
#define DEV_IEC_VEC_REPLY 0x14 /* vector packet reply */
#define DEV_IEC_CLOCK 0x18 /* clock */
#define DEV_IEC_IPI 0x20 /* inter-processor interrupt */
#define DEV_IEC_DEBUG 0x21 /* ??? */
#define DEV_IEC_PROFTIM 0x28 /* prof timer (currently unused) */
#define DEV_IEC_MAGICWARN 0x29 /* ??? */
#define DEV_IEC_MAGICERR 0x31 /* ??? */
#define DEV_IEC_POWERFAIL 0x38 /* ??? */
#define DEV_IEC_MAX 0x3f /* 64 bits */
/* PCI slot assignments:
*
* NOTE:
* On the real system these slot assignments wouldn't be fixed (you
* could plug a card into any slot on the I/O bus) but this isn't
* particularly interesting to model.
*/
#define DEV_PCI_DISK_SLOT 0
#define DEV_PCI_ETHER_SLOT 1
#define DEV_PCI_CONSOLE_SLOT 2
#endif /* _MACHINE_DEFS_H */