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/* |
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* Copyright (C) 2003-2005 Anders Gavare. All rights reserved. |
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* |
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* Redistribution and use in source and binary forms, with or without |
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* modification, are permitted provided that the following conditions are met: |
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* |
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* 1. Redistributions of source code must retain the above copyright |
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* notice, this list of conditions and the following disclaimer. |
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* 2. Redistributions in binary form must reproduce the above copyright |
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* notice, this list of conditions and the following disclaimer in the |
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* documentation and/or other materials provided with the distribution. |
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* 3. The name of the author may not be used to endorse or promote products |
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* derived from this software without specific prior written permission. |
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* |
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND |
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE |
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS |
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) |
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT |
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY |
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF |
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* SUCH DAMAGE. |
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* |
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* |
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* $Id: machine.c,v 1.515 2005/08/16 09:16:26 debug Exp $ |
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* |
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* Emulation of specific machines. |
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* |
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* This module is quite large. Hopefully it is still clear enough to be |
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* easily understood. The main parts are: |
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* |
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* Helper functions. |
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* |
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* Machine specific Interrupt routines. |
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* |
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* Machine specific Initialization routines. |
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*/ |
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|
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#include <stdio.h> |
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#include <stdlib.h> |
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#include <stdarg.h> |
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#ifdef SOLARIS |
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#include <strings.h> |
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#else |
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#include <string.h> |
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#endif |
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#include <time.h> |
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#include <unistd.h> |
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|
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#include "arcbios.h" |
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#include "bus_pci.h" |
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#include "cpu.h" |
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#include "device.h" |
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#include "devices.h" |
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#include "diskimage.h" |
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#include "emul.h" |
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#include "machine.h" |
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#include "memory.h" |
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#include "misc.h" |
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#include "mp.h" |
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#include "net.h" |
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#include "symbol.h" |
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|
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/* For Alpha emulation: */ |
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#include "alpha_rpb.h" |
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|
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/* For SGI and ARC emulation: */ |
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#include "sgi_arcbios.h" |
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#include "crimereg.h" |
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|
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/* For evbmips emulation: */ |
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#include "maltareg.h" |
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|
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/* For DECstation emulation: */ |
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#include "dec_prom.h" |
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#include "dec_bootinfo.h" |
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#include "dec_5100.h" |
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#include "dec_kn01.h" |
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#include "dec_kn02.h" |
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#include "dec_kn03.h" |
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#include "dec_kmin.h" |
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#include "dec_maxine.h" |
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|
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/* HPC: */ |
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#include "hpc_bootinfo.h" |
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#include "vripreg.h" |
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|
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#define BOOTSTR_BUFLEN 1000 |
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#define BOOTARG_BUFLEN 2000 |
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#define ETHERNET_STRING_MAXLEN 40 |
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|
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struct machine_entry_subtype { |
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int machine_subtype;/* Old-style subtype */ |
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const char *name; /* Official name */ |
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int n_aliases; |
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char **aliases; /* Aliases */ |
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}; |
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|
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struct machine_entry { |
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struct machine_entry *next; |
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|
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/* Machine type: */ |
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int arch; |
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int machine_type; /* Old-style type */ |
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const char *name; /* Official name */ |
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int n_aliases; |
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char **aliases; /* Aliases */ |
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|
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/* Machine subtypes: */ |
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int n_subtypes; |
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struct machine_entry_subtype **subtype; |
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}; |
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|
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|
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/* See main.c: */ |
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extern int quiet_mode; |
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|
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|
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/* This is initialized by machine_init(): */ |
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static struct machine_entry *first_machine_entry = NULL; |
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|
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|
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/* |
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* machine_new(): |
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* |
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* Returns a reasonably initialized struct machine. |
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*/ |
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struct machine *machine_new(char *name, struct emul *emul) |
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{ |
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struct machine *m; |
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m = malloc(sizeof(struct machine)); |
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if (m == NULL) { |
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fprintf(stderr, "machine_new(): out of memory\n"); |
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exit(1); |
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} |
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|
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memset(m, 0, sizeof(struct machine)); |
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|
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/* Back pointer: */ |
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m->emul = emul; |
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|
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m->name = strdup(name); |
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|
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/* Sane default values: */ |
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m->serial_nr = 1; |
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m->machine_type = MACHINE_NONE; |
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m->machine_subtype = MACHINE_NONE; |
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#ifdef BINTRANS |
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m->bintrans_enable = 1; |
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m->old_bintrans_enable = 1; |
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#endif |
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m->arch_pagesize = 4096; /* Should be overriden in |
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emul.c for other pagesizes. */ |
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m->dyntrans_alignment_check = 1; |
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m->prom_emulation = 1; |
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m->speed_tricks = 1; |
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m->byte_order_override = NO_BYTE_ORDER_OVERRIDE; |
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m->boot_kernel_filename = ""; |
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m->boot_string_argument = NULL; |
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m->automatic_clock_adjustment = 1; |
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m->x11_scaledown = 1; |
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m->n_gfx_cards = 1; |
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m->dbe_on_nonexistant_memaccess = 1; |
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m->show_symbolic_register_names = 1; |
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m->bintrans_size = DEFAULT_BINTRANS_SIZE_IN_MB * 1048576; |
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symbol_init(&m->symbol_context); |
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|
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return m; |
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} |
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|
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|
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/* |
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* machine_name_to_type(): |
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* |
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* Take a type and a subtype as strings, and convert them into numeric |
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* values used internally throughout the code. |
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* |
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* Return value is 1 on success, 0 if there was no match. |
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* Also, any errors/warnings are printed using fatal()/debug(). |
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*/ |
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int machine_name_to_type(char *stype, char *ssubtype, |
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int *type, int *subtype, int *arch) |
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{ |
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struct machine_entry *me; |
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int i, j, k, nmatches = 0; |
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|
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*type = MACHINE_NONE; |
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*subtype = 0; |
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|
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/* Check stype, and optionally ssubtype: */ |
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me = first_machine_entry; |
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while (me != NULL) { |
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for (i=0; i<me->n_aliases; i++) |
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if (strcasecmp(me->aliases[i], stype) == 0) { |
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/* Found a type: */ |
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*type = me->machine_type; |
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*arch = me->arch; |
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|
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if (me->n_subtypes == 0) |
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return 1; |
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|
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/* Check for subtype: */ |
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for (j=0; j<me->n_subtypes; j++) |
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for (k=0; k<me->subtype[j]->n_aliases; |
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k++) |
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if (strcasecmp(ssubtype, |
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me->subtype[j]->aliases[k] |
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) == 0) { |
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*subtype = me->subtype[ |
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j]->machine_subtype; |
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return 1; |
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} |
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|
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fatal("Unknown subtype '%s' for emulation" |
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" '%s'\n", ssubtype, stype); |
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if (!ssubtype[0]) |
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fatal("(Maybe you forgot the -e" |
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" command line option?)\n"); |
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exit(1); |
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} |
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|
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me = me->next; |
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} |
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|
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/* Not found? Then just check ssubtype: */ |
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me = first_machine_entry; |
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while (me != NULL) { |
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if (me->n_subtypes == 0) { |
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me = me->next; |
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continue; |
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} |
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|
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/* Check for subtype: */ |
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for (j=0; j<me->n_subtypes; j++) |
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for (k=0; k<me->subtype[j]->n_aliases; k++) |
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if (strcasecmp(ssubtype, me->subtype[j]-> |
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aliases[k]) == 0) { |
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*type = me->machine_type; |
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*arch = me->arch; |
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*subtype = me->subtype[j]-> |
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machine_subtype; |
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nmatches ++; |
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} |
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|
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me = me->next; |
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} |
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|
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switch (nmatches) { |
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case 0: fatal("\nSorry, emulation \"%s\"", stype); |
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if (ssubtype != NULL && ssubtype[0] != '\0') |
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fatal(" (subtype \"%s\")", ssubtype); |
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fatal(" is unknown.\n"); |
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break; |
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case 1: return 1; |
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default:fatal("\nSorry, multiple matches for \"%s\"", stype); |
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if (ssubtype != NULL && ssubtype[0] != '\0') |
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fatal(" (subtype \"%s\")", ssubtype); |
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fatal(".\n"); |
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} |
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|
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*type = MACHINE_NONE; |
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*subtype = 0; |
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|
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fatal("Use the -H command line option to get a list of " |
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"available types and subtypes.\n\n"); |
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|
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return 0; |
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} |
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|
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|
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/* |
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* machine_add_tickfunction(): |
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* |
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* Adds a tick function (a function called every now and then, depending on |
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* clock cycle count) to a machine. |
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*/ |
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void machine_add_tickfunction(struct machine *machine, void (*func) |
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(struct cpu *, void *), void *extra, int clockshift) |
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{ |
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int n = machine->n_tick_entries; |
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|
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if (n >= MAX_TICK_FUNCTIONS) { |
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fprintf(stderr, "machine_add_tickfunction(): too " |
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"many tick functions\n"); |
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exit(1); |
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} |
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|
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/* Don't use too low clockshifts, that would be too inefficient |
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with bintrans. */ |
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if (clockshift < N_SAFE_BINTRANS_LIMIT_SHIFT) |
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fatal("WARNING! clockshift = %i, less than " |
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"N_SAFE_BINTRANS_LIMIT_SHIFT (%i)\n", |
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clockshift, N_SAFE_BINTRANS_LIMIT_SHIFT); |
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|
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machine->ticks_till_next[n] = 0; |
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machine->ticks_reset_value[n] = 1 << clockshift; |
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machine->tick_func[n] = func; |
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machine->tick_extra[n] = extra; |
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|
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machine->n_tick_entries ++; |
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} |
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|
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|
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/**************************************************************************** |
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* * |
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* Helper functions * |
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* * |
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****************************************************************************/ |
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|
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|
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int int_to_bcd(int i) |
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{ |
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return (i/10) * 16 + (i % 10); |
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} |
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|
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|
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/* |
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* dump_mem_string(): |
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* |
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* Dump the contents of emulated RAM as readable text. Bytes that aren't |
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* readable are dumped in [xx] notation, where xx is in hexadecimal. |
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* Dumping ends after DUMP_MEM_STRING_MAX bytes, or when a terminating |
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* zero byte is found. |
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*/ |
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#define DUMP_MEM_STRING_MAX 45 |
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void dump_mem_string(struct cpu *cpu, uint64_t addr) |
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{ |
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int i; |
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for (i=0; i<DUMP_MEM_STRING_MAX; i++) { |
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unsigned char ch = '\0'; |
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|
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cpu->memory_rw(cpu, cpu->mem, addr + i, &ch, sizeof(ch), |
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MEM_READ, CACHE_DATA | NO_EXCEPTIONS); |
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if (ch == '\0') |
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return; |
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if (ch >= ' ' && ch < 126) |
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debug("%c", ch); |
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else |
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debug("[%02x]", ch); |
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} |
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} |
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|
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|
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/* |
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* store_byte(): |
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* |
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* Stores a byte in emulated ram. (Helper function.) |
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*/ |
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void store_byte(struct cpu *cpu, uint64_t addr, uint8_t data) |
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{ |
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if ((addr >> 32) == 0) |
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addr = (int64_t)(int32_t)addr; |
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cpu->memory_rw(cpu, cpu->mem, |
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addr, &data, sizeof(data), MEM_WRITE, CACHE_DATA); |
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} |
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|
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|
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/* |
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* store_string(): |
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* |
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* Stores chars into emulated RAM until a zero byte (string terminating |
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* character) is found. The zero byte is also copied. |
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* (strcpy()-like helper function, host-RAM-to-emulated-RAM.) |
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*/ |
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void store_string(struct cpu *cpu, uint64_t addr, char *s) |
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{ |
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do { |
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store_byte(cpu, addr++, *s); |
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} while (*s++); |
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} |
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|
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|
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/* |
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* add_environment_string(): |
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* |
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* Like store_string(), but advances the pointer afterwards. The most |
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* obvious use is to place a number of strings (such as environment variable |
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* strings) after one-another in emulated memory. |
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*/ |
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void add_environment_string(struct cpu *cpu, char *s, uint64_t *addr) |
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{ |
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store_string(cpu, *addr, s); |
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(*addr) += strlen(s) + 1; |
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} |
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|
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|
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/* |
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* add_environment_string_dual(): |
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* |
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* Add "dual" environment strings, one for the variable name and one for the |
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* value, and update pointers afterwards. |
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*/ |
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void add_environment_string_dual(struct cpu *cpu, |
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uint64_t *ptrp, uint64_t *addrp, char *s1, char *s2) |
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{ |
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uint64_t ptr = *ptrp, addr = *addrp; |
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|
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store_32bit_word(cpu, ptr, addr); |
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ptr += sizeof(uint32_t); |
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if (addr != 0) { |
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store_string(cpu, addr, s1); |
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addr += strlen(s1) + 1; |
406 |
} |
407 |
store_32bit_word(cpu, ptr, addr); |
408 |
ptr += sizeof(uint32_t); |
409 |
if (addr != 0) { |
410 |
store_string(cpu, addr, s2); |
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addr += strlen(s2) + 1; |
412 |
} |
413 |
|
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*ptrp = ptr; |
415 |
*addrp = addr; |
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} |
417 |
|
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|
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/* |
420 |
* store_64bit_word(): |
421 |
* |
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* Stores a 64-bit word in emulated RAM. Byte order is taken into account. |
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* Helper function. |
424 |
*/ |
425 |
int store_64bit_word(struct cpu *cpu, uint64_t addr, uint64_t data64) |
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{ |
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unsigned char data[8]; |
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if ((addr >> 32) == 0) |
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addr = (int64_t)(int32_t)addr; |
430 |
data[0] = (data64 >> 56) & 255; |
431 |
data[1] = (data64 >> 48) & 255; |
432 |
data[2] = (data64 >> 40) & 255; |
433 |
data[3] = (data64 >> 32) & 255; |
434 |
data[4] = (data64 >> 24) & 255; |
435 |
data[5] = (data64 >> 16) & 255; |
436 |
data[6] = (data64 >> 8) & 255; |
437 |
data[7] = (data64) & 255; |
438 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
439 |
int tmp = data[0]; data[0] = data[7]; data[7] = tmp; |
440 |
tmp = data[1]; data[1] = data[6]; data[6] = tmp; |
441 |
tmp = data[2]; data[2] = data[5]; data[5] = tmp; |
442 |
tmp = data[3]; data[3] = data[4]; data[4] = tmp; |
443 |
} |
444 |
return cpu->memory_rw(cpu, cpu->mem, |
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addr, data, sizeof(data), MEM_WRITE, CACHE_DATA); |
446 |
} |
447 |
|
448 |
|
449 |
/* |
450 |
* store_32bit_word(): |
451 |
* |
452 |
* Stores a 32-bit word in emulated RAM. Byte order is taken into account. |
453 |
* (This function takes a 64-bit word as argument, to suppress some |
454 |
* warnings, but only the lowest 32 bits are used.) |
455 |
*/ |
456 |
int store_32bit_word(struct cpu *cpu, uint64_t addr, uint64_t data32) |
457 |
{ |
458 |
unsigned char data[4]; |
459 |
if ((addr >> 32) == 0) |
460 |
addr = (int64_t)(int32_t)addr; |
461 |
data[0] = (data32 >> 24) & 255; |
462 |
data[1] = (data32 >> 16) & 255; |
463 |
data[2] = (data32 >> 8) & 255; |
464 |
data[3] = (data32) & 255; |
465 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
466 |
int tmp = data[0]; data[0] = data[3]; data[3] = tmp; |
467 |
tmp = data[1]; data[1] = data[2]; data[2] = tmp; |
468 |
} |
469 |
return cpu->memory_rw(cpu, cpu->mem, |
470 |
addr, data, sizeof(data), MEM_WRITE, CACHE_DATA); |
471 |
} |
472 |
|
473 |
|
474 |
/* |
475 |
* store_16bit_word(): |
476 |
* |
477 |
* Stores a 16-bit word in emulated RAM. Byte order is taken into account. |
478 |
* (This function takes a 64-bit word as argument, to suppress some |
479 |
* warnings, but only the lowest 16 bits are used.) |
480 |
*/ |
481 |
int store_16bit_word(struct cpu *cpu, uint64_t addr, uint64_t data16) |
482 |
{ |
483 |
unsigned char data[2]; |
484 |
if ((addr >> 32) == 0) |
485 |
addr = (int64_t)(int32_t)addr; |
486 |
data[0] = (data16 >> 8) & 255; |
487 |
data[1] = (data16) & 255; |
488 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
489 |
int tmp = data[0]; data[0] = data[1]; data[1] = tmp; |
490 |
} |
491 |
return cpu->memory_rw(cpu, cpu->mem, |
492 |
addr, data, sizeof(data), MEM_WRITE, CACHE_DATA); |
493 |
} |
494 |
|
495 |
|
496 |
/* |
497 |
* store_buf(): |
498 |
* |
499 |
* memcpy()-like helper function, from host RAM to emulated RAM. |
500 |
*/ |
501 |
void store_buf(struct cpu *cpu, uint64_t addr, char *s, size_t len) |
502 |
{ |
503 |
int psize = 1024; /* 1024 256 64 16 4 1 */ |
504 |
|
505 |
if ((addr >> 32) == 0) |
506 |
addr = (int64_t)(int32_t)addr; |
507 |
|
508 |
while (len != 0) { |
509 |
if ((addr & (psize-1)) == 0) { |
510 |
while (len >= psize) { |
511 |
cpu->memory_rw(cpu, cpu->mem, addr, |
512 |
(unsigned char *)s, psize, MEM_WRITE, |
513 |
CACHE_DATA); |
514 |
addr += psize; |
515 |
s += psize; |
516 |
len -= psize; |
517 |
} |
518 |
} |
519 |
psize >>= 2; |
520 |
} |
521 |
|
522 |
while (len-- != 0) |
523 |
store_byte(cpu, addr++, *s++); |
524 |
} |
525 |
|
526 |
|
527 |
/* |
528 |
* store_pointer_and_advance(): |
529 |
* |
530 |
* Stores a 32-bit or 64-bit pointer in emulated RAM, and advances the |
531 |
* target address. (Used by ARC and SGI initialization.) |
532 |
*/ |
533 |
void store_pointer_and_advance(struct cpu *cpu, uint64_t *addrp, |
534 |
uint64_t data, int flag64) |
535 |
{ |
536 |
uint64_t addr = *addrp; |
537 |
if (flag64) { |
538 |
store_64bit_word(cpu, addr, data); |
539 |
addr += 8; |
540 |
} else { |
541 |
store_32bit_word(cpu, addr, data); |
542 |
addr += 4; |
543 |
} |
544 |
*addrp = addr; |
545 |
} |
546 |
|
547 |
|
548 |
/* |
549 |
* load_32bit_word(): |
550 |
* |
551 |
* Helper function. Prints a warning and returns 0, if the read failed. |
552 |
* Emulated byte order is taken into account. |
553 |
*/ |
554 |
uint32_t load_32bit_word(struct cpu *cpu, uint64_t addr) |
555 |
{ |
556 |
unsigned char data[4]; |
557 |
|
558 |
if ((addr >> 32) == 0) |
559 |
addr = (int64_t)(int32_t)addr; |
560 |
cpu->memory_rw(cpu, cpu->mem, |
561 |
addr, data, sizeof(data), MEM_READ, CACHE_DATA); |
562 |
|
563 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
564 |
int tmp = data[0]; data[0] = data[3]; data[3] = tmp; |
565 |
tmp = data[1]; data[1] = data[2]; data[2] = tmp; |
566 |
} |
567 |
|
568 |
return (data[0] << 24) + (data[1] << 16) + (data[2] << 8) + data[3]; |
569 |
} |
570 |
|
571 |
|
572 |
/* |
573 |
* load_16bit_word(): |
574 |
* |
575 |
* Helper function. Prints a warning and returns 0, if the read failed. |
576 |
* Emulated byte order is taken into account. |
577 |
*/ |
578 |
uint16_t load_16bit_word(struct cpu *cpu, uint64_t addr) |
579 |
{ |
580 |
unsigned char data[2]; |
581 |
|
582 |
if ((addr >> 32) == 0) |
583 |
addr = (int64_t)(int32_t)addr; |
584 |
cpu->memory_rw(cpu, cpu->mem, |
585 |
addr, data, sizeof(data), MEM_READ, CACHE_DATA); |
586 |
|
587 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
588 |
int tmp = data[0]; data[0] = data[1]; data[1] = tmp; |
589 |
} |
590 |
|
591 |
return (data[0] << 8) + data[1]; |
592 |
} |
593 |
|
594 |
|
595 |
/* |
596 |
* store_64bit_word_in_host(): |
597 |
* |
598 |
* Stores a 64-bit word in the _host's_ RAM. Emulated byte order is taken |
599 |
* into account. This is useful when building structs in the host's RAM |
600 |
* which will later be copied into emulated RAM. |
601 |
*/ |
602 |
void store_64bit_word_in_host(struct cpu *cpu, |
603 |
unsigned char *data, uint64_t data64) |
604 |
{ |
605 |
data[0] = (data64 >> 56) & 255; |
606 |
data[1] = (data64 >> 48) & 255; |
607 |
data[2] = (data64 >> 40) & 255; |
608 |
data[3] = (data64 >> 32) & 255; |
609 |
data[4] = (data64 >> 24) & 255; |
610 |
data[5] = (data64 >> 16) & 255; |
611 |
data[6] = (data64 >> 8) & 255; |
612 |
data[7] = (data64) & 255; |
613 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
614 |
int tmp = data[0]; data[0] = data[7]; data[7] = tmp; |
615 |
tmp = data[1]; data[1] = data[6]; data[6] = tmp; |
616 |
tmp = data[2]; data[2] = data[5]; data[5] = tmp; |
617 |
tmp = data[3]; data[3] = data[4]; data[4] = tmp; |
618 |
} |
619 |
} |
620 |
|
621 |
|
622 |
/* |
623 |
* store_32bit_word_in_host(): |
624 |
* |
625 |
* See comment for store_64bit_word_in_host(). |
626 |
* |
627 |
* (Note: The data32 parameter is a uint64_t. This is done to suppress |
628 |
* some warnings.) |
629 |
*/ |
630 |
void store_32bit_word_in_host(struct cpu *cpu, |
631 |
unsigned char *data, uint64_t data32) |
632 |
{ |
633 |
data[0] = (data32 >> 24) & 255; |
634 |
data[1] = (data32 >> 16) & 255; |
635 |
data[2] = (data32 >> 8) & 255; |
636 |
data[3] = (data32) & 255; |
637 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
638 |
int tmp = data[0]; data[0] = data[3]; data[3] = tmp; |
639 |
tmp = data[1]; data[1] = data[2]; data[2] = tmp; |
640 |
} |
641 |
} |
642 |
|
643 |
|
644 |
/* |
645 |
* store_16bit_word_in_host(): |
646 |
* |
647 |
* See comment for store_64bit_word_in_host(). |
648 |
*/ |
649 |
void store_16bit_word_in_host(struct cpu *cpu, |
650 |
unsigned char *data, uint16_t data16) |
651 |
{ |
652 |
data[0] = (data16 >> 8) & 255; |
653 |
data[1] = (data16) & 255; |
654 |
if (cpu->byte_order == EMUL_LITTLE_ENDIAN) { |
655 |
int tmp = data[0]; data[0] = data[1]; data[1] = tmp; |
656 |
} |
657 |
} |
658 |
|
659 |
|
660 |
/**************************************************************************** |
661 |
* * |
662 |
* Machine dependant Interrupt routines * |
663 |
* * |
664 |
****************************************************************************/ |
665 |
|
666 |
|
667 |
/* |
668 |
* DECstation KN02 interrupts: |
669 |
*/ |
670 |
void kn02_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
671 |
{ |
672 |
int current; |
673 |
|
674 |
irq_nr -= 8; |
675 |
irq_nr &= 0xff; |
676 |
|
677 |
if (assrt) { |
678 |
/* OR in the irq_nr into the CSR: */ |
679 |
m->md_int.kn02_csr->csr[0] |= irq_nr; |
680 |
} else { |
681 |
/* AND out the irq_nr from the CSR: */ |
682 |
m->md_int.kn02_csr->csr[0] &= ~irq_nr; |
683 |
} |
684 |
|
685 |
current = m->md_int.kn02_csr->csr[0] & m->md_int.kn02_csr->csr[2]; |
686 |
if (current == 0) |
687 |
cpu_interrupt_ack(cpu, 2); |
688 |
else |
689 |
cpu_interrupt(cpu, 2); |
690 |
} |
691 |
|
692 |
|
693 |
/* |
694 |
* DECstation KMIN interrupts: |
695 |
* |
696 |
* TC slot 3 = system slot. |
697 |
*/ |
698 |
void kmin_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
699 |
{ |
700 |
irq_nr -= 8; |
701 |
/* debug("kmin_interrupt(): irq_nr=%i assrt=%i\n", irq_nr, assrt); */ |
702 |
|
703 |
if (assrt) |
704 |
m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] |= irq_nr; |
705 |
else |
706 |
m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] &= ~irq_nr; |
707 |
|
708 |
if (m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] |
709 |
& m->md_int.dec_ioasic_data->reg[(IOASIC_IMSK - IOASIC_SLOT_1_START) / 0x10]) |
710 |
cpu_interrupt(cpu, KMIN_INT_TC3); |
711 |
else |
712 |
cpu_interrupt_ack(cpu, KMIN_INT_TC3); |
713 |
} |
714 |
|
715 |
|
716 |
/* |
717 |
* DECstation KN03 interrupts: |
718 |
*/ |
719 |
void kn03_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
720 |
{ |
721 |
irq_nr -= 8; |
722 |
/* debug("kn03_interrupt(): irq_nr=0x%x assrt=%i\n", irq_nr, assrt); */ |
723 |
|
724 |
if (assrt) |
725 |
m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] |= irq_nr; |
726 |
else |
727 |
m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] &= ~irq_nr; |
728 |
|
729 |
if (m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] |
730 |
& m->md_int.dec_ioasic_data->reg[(IOASIC_IMSK - IOASIC_SLOT_1_START) / 0x10]) |
731 |
cpu_interrupt(cpu, KN03_INT_ASIC); |
732 |
else |
733 |
cpu_interrupt_ack(cpu, KN03_INT_ASIC); |
734 |
} |
735 |
|
736 |
|
737 |
/* |
738 |
* DECstation MAXINE interrupts: |
739 |
*/ |
740 |
void maxine_interrupt(struct machine *m, struct cpu *cpu, |
741 |
int irq_nr, int assrt) |
742 |
{ |
743 |
irq_nr -= 8; |
744 |
debug("maxine_interrupt(): irq_nr=0x%x assrt=%i\n", irq_nr, assrt); |
745 |
|
746 |
if (assrt) |
747 |
m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) |
748 |
/ 0x10] |= irq_nr; |
749 |
else |
750 |
m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) |
751 |
/ 0x10] &= ~irq_nr; |
752 |
|
753 |
if (m->md_int.dec_ioasic_data->reg[(IOASIC_INTR - IOASIC_SLOT_1_START) / 0x10] |
754 |
& m->md_int.dec_ioasic_data->reg[(IOASIC_IMSK - IOASIC_SLOT_1_START) |
755 |
/ 0x10]) |
756 |
cpu_interrupt(cpu, XINE_INT_TC3); |
757 |
else |
758 |
cpu_interrupt_ack(cpu, XINE_INT_TC3); |
759 |
} |
760 |
|
761 |
|
762 |
/* |
763 |
* DECstation KN230 interrupts: |
764 |
*/ |
765 |
void kn230_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
766 |
{ |
767 |
int r2 = 0; |
768 |
|
769 |
m->md_int.kn230_csr->csr |= irq_nr; |
770 |
|
771 |
switch (irq_nr) { |
772 |
case KN230_CSR_INTR_SII: |
773 |
case KN230_CSR_INTR_LANCE: |
774 |
r2 = 3; |
775 |
break; |
776 |
case KN230_CSR_INTR_DZ0: |
777 |
case KN230_CSR_INTR_OPT0: |
778 |
case KN230_CSR_INTR_OPT1: |
779 |
r2 = 2; |
780 |
break; |
781 |
default: |
782 |
fatal("kn230_interrupt(): irq_nr = %i ?\n", irq_nr); |
783 |
} |
784 |
|
785 |
if (assrt) { |
786 |
/* OR in the irq_nr mask into the CSR: */ |
787 |
m->md_int.kn230_csr->csr |= irq_nr; |
788 |
|
789 |
/* Assert MIPS interrupt 2 or 3: */ |
790 |
cpu_interrupt(cpu, r2); |
791 |
} else { |
792 |
/* AND out the irq_nr mask from the CSR: */ |
793 |
m->md_int.kn230_csr->csr &= ~irq_nr; |
794 |
|
795 |
/* If the CSR interrupt bits are all zero, |
796 |
clear the bit in the cause register as well. */ |
797 |
if (r2 == 2) { |
798 |
/* irq 2: */ |
799 |
if ((m->md_int.kn230_csr->csr & (KN230_CSR_INTR_DZ0 |
800 |
| KN230_CSR_INTR_OPT0 | KN230_CSR_INTR_OPT1)) == 0) |
801 |
cpu_interrupt_ack(cpu, r2); |
802 |
} else { |
803 |
/* irq 3: */ |
804 |
if ((m->md_int.kn230_csr->csr & (KN230_CSR_INTR_SII | |
805 |
KN230_CSR_INTR_LANCE)) == 0) |
806 |
cpu_interrupt_ack(cpu, r2); |
807 |
} |
808 |
} |
809 |
} |
810 |
|
811 |
|
812 |
/* |
813 |
* Jazz interrupts (for Acer PICA-61 etc): |
814 |
* |
815 |
* 0..7 MIPS interrupts |
816 |
* 8 + x, where x = 0..15 Jazz interrupts |
817 |
* 8 + x, where x = 16..31 ISA interrupt (irq nr + 16) |
818 |
*/ |
819 |
void jazz_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
820 |
{ |
821 |
uint32_t irq; |
822 |
int isa = 0; |
823 |
|
824 |
irq_nr -= 8; |
825 |
|
826 |
/* debug("jazz_interrupt() irq_nr = %i, assrt = %i\n", |
827 |
irq_nr, assrt); */ |
828 |
|
829 |
if (irq_nr >= 16) { |
830 |
isa = 1; |
831 |
irq_nr -= 16; |
832 |
} |
833 |
|
834 |
irq = 1 << irq_nr; |
835 |
|
836 |
if (isa) { |
837 |
if (assrt) |
838 |
m->md_int.jazz_data->isa_int_asserted |= irq; |
839 |
else |
840 |
m->md_int.jazz_data->isa_int_asserted &= ~irq; |
841 |
} else { |
842 |
if (assrt) |
843 |
m->md_int.jazz_data->int_asserted |= irq; |
844 |
else |
845 |
m->md_int.jazz_data->int_asserted &= ~irq; |
846 |
} |
847 |
|
848 |
/* debug(" %08x %08x\n", m->md_int.jazz_data->int_asserted, |
849 |
m->md_int.jazz_data->int_enable_mask); */ |
850 |
/* debug(" %08x %08x\n", m->md_int.jazz_data->isa_int_asserted, |
851 |
m->md_int.jazz_data->isa_int_enable_mask); */ |
852 |
|
853 |
if (m->md_int.jazz_data->int_asserted |
854 |
/* & m->md_int.jazz_data->int_enable_mask */ & ~0x8000 ) |
855 |
cpu_interrupt(cpu, 3); |
856 |
else |
857 |
cpu_interrupt_ack(cpu, 3); |
858 |
|
859 |
if (m->md_int.jazz_data->isa_int_asserted & |
860 |
m->md_int.jazz_data->isa_int_enable_mask) |
861 |
cpu_interrupt(cpu, 4); |
862 |
else |
863 |
cpu_interrupt_ack(cpu, 4); |
864 |
|
865 |
/* TODO: this "15" (0x8000) is the timer... fix this? */ |
866 |
if (m->md_int.jazz_data->int_asserted & 0x8000) |
867 |
cpu_interrupt(cpu, 6); |
868 |
else |
869 |
cpu_interrupt_ack(cpu, 6); |
870 |
} |
871 |
|
872 |
|
873 |
/* |
874 |
* VR41xx interrupt routine: |
875 |
* |
876 |
* irq_nr = 8 + x |
877 |
* x = 0..15 for level1 |
878 |
* x = 16..31 for level2 |
879 |
* x = 32+y for GIU interrupt y |
880 |
*/ |
881 |
void vr41xx_interrupt(struct machine *m, struct cpu *cpu, |
882 |
int irq_nr, int assrt) |
883 |
{ |
884 |
int giu_irq = 0; |
885 |
|
886 |
irq_nr -= 8; |
887 |
if (irq_nr >= 32) { |
888 |
giu_irq = irq_nr - 32; |
889 |
|
890 |
if (assrt) |
891 |
m->md_int.vr41xx_data->giuint |= (1 << giu_irq); |
892 |
else |
893 |
m->md_int.vr41xx_data->giuint &= ~(1 << giu_irq); |
894 |
} |
895 |
|
896 |
/* TODO: This is wrong. What about GIU bit 8? */ |
897 |
|
898 |
if (irq_nr != 8) { |
899 |
/* If any GIU bit is asserted, then assert the main |
900 |
GIU interrupt: */ |
901 |
if (m->md_int.vr41xx_data->giuint & |
902 |
m->md_int.vr41xx_data->giumask) |
903 |
vr41xx_interrupt(m, cpu, 8 + 8, 1); |
904 |
else |
905 |
vr41xx_interrupt(m, cpu, 8 + 8, 0); |
906 |
} |
907 |
|
908 |
/* debug("vr41xx_interrupt(): irq_nr=%i assrt=%i\n", |
909 |
irq_nr, assrt); */ |
910 |
|
911 |
if (irq_nr < 16) { |
912 |
if (assrt) |
913 |
m->md_int.vr41xx_data->sysint1 |= (1 << irq_nr); |
914 |
else |
915 |
m->md_int.vr41xx_data->sysint1 &= ~(1 << irq_nr); |
916 |
} else if (irq_nr < 32) { |
917 |
irq_nr -= 16; |
918 |
if (assrt) |
919 |
m->md_int.vr41xx_data->sysint2 |= (1 << irq_nr); |
920 |
else |
921 |
m->md_int.vr41xx_data->sysint2 &= ~(1 << irq_nr); |
922 |
} |
923 |
|
924 |
/* TODO: Which hardware interrupt pin? */ |
925 |
|
926 |
/* debug(" sysint1=%04x mask=%04x, sysint2=%04x mask=%04x\n", |
927 |
m->md_int.vr41xx_data->sysint1, m->md_int.vr41xx_data->msysint1, |
928 |
m->md_int.vr41xx_data->sysint2, m->md_int.vr41xx_data->msysint2); */ |
929 |
|
930 |
if ((m->md_int.vr41xx_data->sysint1 & m->md_int.vr41xx_data->msysint1) | |
931 |
(m->md_int.vr41xx_data->sysint2 & m->md_int.vr41xx_data->msysint2)) |
932 |
cpu_interrupt(cpu, 2); |
933 |
else |
934 |
cpu_interrupt_ack(cpu, 2); |
935 |
} |
936 |
|
937 |
|
938 |
/* |
939 |
* Playstation 2 interrupt routine: |
940 |
* |
941 |
* irq_nr = 8 + x normal irq x |
942 |
* 8 + 16 + y dma irq y |
943 |
* 8 + 32 + 0 sbus irq 0 (pcmcia) |
944 |
* 8 + 32 + 1 sbus irq 1 (usb) |
945 |
*/ |
946 |
void ps2_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
947 |
{ |
948 |
irq_nr -= 8; |
949 |
debug("ps2_interrupt(): irq_nr=0x%x assrt=%i\n", irq_nr, assrt); |
950 |
|
951 |
if (irq_nr >= 32) { |
952 |
int msk = 0; |
953 |
switch (irq_nr - 32) { |
954 |
case 0: /* PCMCIA: */ |
955 |
msk = 0x100; |
956 |
break; |
957 |
case 1: /* USB: */ |
958 |
msk = 0x400; |
959 |
break; |
960 |
default: |
961 |
fatal("ps2_interrupt(): bad irq_nr %i\n", irq_nr); |
962 |
} |
963 |
|
964 |
if (assrt) |
965 |
m->md_int.ps2_data->sbus_smflg |= msk; |
966 |
else |
967 |
m->md_int.ps2_data->sbus_smflg &= ~msk; |
968 |
|
969 |
if (m->md_int.ps2_data->sbus_smflg != 0) |
970 |
cpu_interrupt(cpu, 8 + 1); |
971 |
else |
972 |
cpu_interrupt_ack(cpu, 8 + 1); |
973 |
return; |
974 |
} |
975 |
|
976 |
if (assrt) { |
977 |
/* OR into the INTR: */ |
978 |
if (irq_nr < 16) |
979 |
m->md_int.ps2_data->intr |= (1 << irq_nr); |
980 |
else |
981 |
m->md_int.ps2_data->dmac_reg[0x601] |= |
982 |
(1 << (irq_nr-16)); |
983 |
} else { |
984 |
/* AND out of the INTR: */ |
985 |
if (irq_nr < 16) |
986 |
m->md_int.ps2_data->intr &= ~(1 << irq_nr); |
987 |
else |
988 |
m->md_int.ps2_data->dmac_reg[0x601] &= |
989 |
~(1 << (irq_nr-16)); |
990 |
} |
991 |
|
992 |
/* TODO: Hm? How about the mask? */ |
993 |
if (m->md_int.ps2_data->intr /* & m->md_int.ps2_data->imask */ ) |
994 |
cpu_interrupt(cpu, 2); |
995 |
else |
996 |
cpu_interrupt_ack(cpu, 2); |
997 |
|
998 |
/* TODO: mask? */ |
999 |
if (m->md_int.ps2_data->dmac_reg[0x601] & 0xffff) |
1000 |
cpu_interrupt(cpu, 3); |
1001 |
else |
1002 |
cpu_interrupt_ack(cpu, 3); |
1003 |
} |
1004 |
|
1005 |
|
1006 |
/* |
1007 |
* SGI "IP22" interrupt routine: |
1008 |
*/ |
1009 |
void sgi_ip22_interrupt(struct machine *m, struct cpu *cpu, |
1010 |
int irq_nr, int assrt) |
1011 |
{ |
1012 |
/* |
1013 |
* SGI-IP22 specific interrupt stuff: |
1014 |
* |
1015 |
* irq_nr should be 8 + x, where x = 0..31 for local0, |
1016 |
* and 32..63 for local1 interrupts. |
1017 |
* Add 64*y for "mappable" interrupts, where 1<<y is |
1018 |
* the mappable interrupt bitmask. TODO: this misses 64*0 ! |
1019 |
*/ |
1020 |
|
1021 |
uint32_t newmask; |
1022 |
uint32_t stat, mask; |
1023 |
|
1024 |
irq_nr -= 8; |
1025 |
newmask = 1 << (irq_nr & 31); |
1026 |
|
1027 |
if (irq_nr >= 64) { |
1028 |
int ms = irq_nr / 64; |
1029 |
uint32_t new = 1 << ms; |
1030 |
if (assrt) |
1031 |
m->md_int.sgi_ip22_data->reg[4] |= new; |
1032 |
else |
1033 |
m->md_int.sgi_ip22_data->reg[4] &= ~new; |
1034 |
/* TODO: is this enough? */ |
1035 |
irq_nr &= 63; |
1036 |
} |
1037 |
|
1038 |
if (irq_nr < 32) { |
1039 |
if (assrt) |
1040 |
m->md_int.sgi_ip22_data->reg[0] |= newmask; |
1041 |
else |
1042 |
m->md_int.sgi_ip22_data->reg[0] &= ~newmask; |
1043 |
} else { |
1044 |
if (assrt) |
1045 |
m->md_int.sgi_ip22_data->reg[2] |= newmask; |
1046 |
else |
1047 |
m->md_int.sgi_ip22_data->reg[2] &= ~newmask; |
1048 |
} |
1049 |
|
1050 |
/* Read stat and mask for local0: */ |
1051 |
stat = m->md_int.sgi_ip22_data->reg[0]; |
1052 |
mask = m->md_int.sgi_ip22_data->reg[1]; |
1053 |
if ((stat & mask) == 0) |
1054 |
cpu_interrupt_ack(cpu, 2); |
1055 |
else |
1056 |
cpu_interrupt(cpu, 2); |
1057 |
|
1058 |
/* Read stat and mask for local1: */ |
1059 |
stat = m->md_int.sgi_ip22_data->reg[2]; |
1060 |
mask = m->md_int.sgi_ip22_data->reg[3]; |
1061 |
if ((stat & mask) == 0) |
1062 |
cpu_interrupt_ack(cpu, 3); |
1063 |
else |
1064 |
cpu_interrupt(cpu, 3); |
1065 |
} |
1066 |
|
1067 |
|
1068 |
/* |
1069 |
* SGI "IP30" interrupt routine: |
1070 |
* |
1071 |
* irq_nr = 8 + 1 + nr, where nr is: |
1072 |
* 0..49 HEART irqs hardware irq 2,3,4 |
1073 |
* 50 HEART timer hardware irq 5 |
1074 |
* 51..63 HEART errors hardware irq 6 |
1075 |
* |
1076 |
* according to Linux/IP30. |
1077 |
*/ |
1078 |
void sgi_ip30_interrupt(struct machine *m, struct cpu *cpu, |
1079 |
int irq_nr, int assrt) |
1080 |
{ |
1081 |
uint64_t newmask; |
1082 |
uint64_t stat, mask; |
1083 |
|
1084 |
irq_nr -= 8; |
1085 |
if (irq_nr == 0) |
1086 |
goto just_assert_and_such; |
1087 |
irq_nr --; |
1088 |
|
1089 |
newmask = (int64_t)1 << irq_nr; |
1090 |
|
1091 |
if (assrt) |
1092 |
m->md_int.sgi_ip30_data->isr |= newmask; |
1093 |
else |
1094 |
m->md_int.sgi_ip30_data->isr &= ~newmask; |
1095 |
|
1096 |
just_assert_and_such: |
1097 |
|
1098 |
cpu_interrupt_ack(cpu, 2); |
1099 |
cpu_interrupt_ack(cpu, 3); |
1100 |
cpu_interrupt_ack(cpu, 4); |
1101 |
cpu_interrupt_ack(cpu, 5); |
1102 |
cpu_interrupt_ack(cpu, 6); |
1103 |
|
1104 |
stat = m->md_int.sgi_ip30_data->isr; |
1105 |
mask = m->md_int.sgi_ip30_data->imask0; |
1106 |
|
1107 |
if ((stat & mask) & 0x000000000000ffffULL) |
1108 |
cpu_interrupt(cpu, 2); |
1109 |
if ((stat & mask) & 0x00000000ffff0000ULL) |
1110 |
cpu_interrupt(cpu, 3); |
1111 |
if ((stat & mask) & 0x0003ffff00000000ULL) |
1112 |
cpu_interrupt(cpu, 4); |
1113 |
if ((stat & mask) & 0x0004000000000000ULL) |
1114 |
cpu_interrupt(cpu, 5); |
1115 |
if ((stat & mask) & 0xfff8000000000000ULL) |
1116 |
cpu_interrupt(cpu, 6); |
1117 |
} |
1118 |
|
1119 |
|
1120 |
/* |
1121 |
* SGI "IP32" interrupt routine: |
1122 |
*/ |
1123 |
void sgi_ip32_interrupt(struct machine *m, struct cpu *cpu, |
1124 |
int irq_nr, int assrt) |
1125 |
{ |
1126 |
/* |
1127 |
* The 64-bit word at crime offset 0x10 is CRIME_INTSTAT, |
1128 |
* which contains the current interrupt bits. CRIME_INTMASK |
1129 |
* contains a mask of which bits are actually in use. |
1130 |
* |
1131 |
* crime hardcoded at 0x14000000, for SGI-IP32. |
1132 |
* If any of these bits are asserted, then physical MIPS |
1133 |
* interrupt 2 should be asserted. |
1134 |
* |
1135 |
* TODO: how should all this be done nicely? |
1136 |
*/ |
1137 |
|
1138 |
uint64_t crime_addr = CRIME_INTSTAT; |
1139 |
uint64_t mace_addr = 0x10; |
1140 |
uint64_t crime_interrupts, crime_interrupts_mask; |
1141 |
uint64_t mace_interrupts, mace_interrupt_mask; |
1142 |
unsigned int i; |
1143 |
unsigned char x[8]; |
1144 |
|
1145 |
/* Read current MACE interrupt assertions: */ |
1146 |
memcpy(x, m->md_int.ip32.mace_data->reg + mace_addr, |
1147 |
sizeof(uint64_t)); |
1148 |
mace_interrupts = 0; |
1149 |
for (i=0; i<sizeof(uint64_t); i++) { |
1150 |
mace_interrupts <<= 8; |
1151 |
mace_interrupts |= x[i]; |
1152 |
} |
1153 |
|
1154 |
/* Read current MACE interrupt mask: */ |
1155 |
memcpy(x, m->md_int.ip32.mace_data->reg + mace_addr + 8, |
1156 |
sizeof(uint64_t)); |
1157 |
mace_interrupt_mask = 0; |
1158 |
for (i=0; i<sizeof(uint64_t); i++) { |
1159 |
mace_interrupt_mask <<= 8; |
1160 |
mace_interrupt_mask |= x[i]; |
1161 |
} |
1162 |
|
1163 |
/* |
1164 |
* This mapping of both MACE and CRIME interrupts into the same |
1165 |
* 'int' is really ugly. |
1166 |
* |
1167 |
* If MACE_PERIPH_MISC or MACE_PERIPH_SERIAL is set, then mask |
1168 |
* that bit out and treat the rest of the word as the mace interrupt |
1169 |
* bitmask. |
1170 |
* |
1171 |
* TODO: fix. |
1172 |
*/ |
1173 |
if (irq_nr & MACE_PERIPH_SERIAL) { |
1174 |
if (assrt) |
1175 |
mace_interrupts |= (irq_nr & ~MACE_PERIPH_SERIAL); |
1176 |
else |
1177 |
mace_interrupts &= ~(irq_nr & ~MACE_PERIPH_SERIAL); |
1178 |
|
1179 |
irq_nr = MACE_PERIPH_SERIAL; |
1180 |
if ((mace_interrupts & mace_interrupt_mask) == 0) |
1181 |
assrt = 0; |
1182 |
else |
1183 |
assrt = 1; |
1184 |
} |
1185 |
|
1186 |
/* Hopefully _MISC and _SERIAL will not be both on at the same time. */ |
1187 |
if (irq_nr & MACE_PERIPH_MISC) { |
1188 |
if (assrt) |
1189 |
mace_interrupts |= (irq_nr & ~MACE_PERIPH_MISC); |
1190 |
else |
1191 |
mace_interrupts &= ~(irq_nr & ~MACE_PERIPH_MISC); |
1192 |
|
1193 |
irq_nr = MACE_PERIPH_MISC; |
1194 |
if ((mace_interrupts & mace_interrupt_mask) == 0) |
1195 |
assrt = 0; |
1196 |
else |
1197 |
assrt = 1; |
1198 |
} |
1199 |
|
1200 |
/* Write back MACE interrupt assertions: */ |
1201 |
for (i=0; i<sizeof(uint64_t); i++) |
1202 |
x[7-i] = mace_interrupts >> (i*8); |
1203 |
memcpy(m->md_int.ip32.mace_data->reg + mace_addr, x, sizeof(uint64_t)); |
1204 |
|
1205 |
/* Read CRIME_INTSTAT: */ |
1206 |
memcpy(x, m->md_int.ip32.crime_data->reg + crime_addr, |
1207 |
sizeof(uint64_t)); |
1208 |
crime_interrupts = 0; |
1209 |
for (i=0; i<sizeof(uint64_t); i++) { |
1210 |
crime_interrupts <<= 8; |
1211 |
crime_interrupts |= x[i]; |
1212 |
} |
1213 |
|
1214 |
if (assrt) |
1215 |
crime_interrupts |= irq_nr; |
1216 |
else |
1217 |
crime_interrupts &= ~irq_nr; |
1218 |
|
1219 |
/* Write back CRIME_INTSTAT: */ |
1220 |
for (i=0; i<sizeof(uint64_t); i++) |
1221 |
x[7-i] = crime_interrupts >> (i*8); |
1222 |
memcpy(m->md_int.ip32.crime_data->reg + crime_addr, x, |
1223 |
sizeof(uint64_t)); |
1224 |
|
1225 |
/* Read CRIME_INTMASK: */ |
1226 |
memcpy(x, m->md_int.ip32.crime_data->reg + CRIME_INTMASK, |
1227 |
sizeof(uint64_t)); |
1228 |
crime_interrupts_mask = 0; |
1229 |
for (i=0; i<sizeof(uint64_t); i++) { |
1230 |
crime_interrupts_mask <<= 8; |
1231 |
crime_interrupts_mask |= x[i]; |
1232 |
} |
1233 |
|
1234 |
if ((crime_interrupts & crime_interrupts_mask) == 0) |
1235 |
cpu_interrupt_ack(cpu, 2); |
1236 |
else |
1237 |
cpu_interrupt(cpu, 2); |
1238 |
|
1239 |
/* printf("sgi_crime_machine_irq(%i,%i): new interrupts = 0x%08x\n", |
1240 |
assrt, irq_nr, crime_interrupts); */ |
1241 |
} |
1242 |
|
1243 |
|
1244 |
/* |
1245 |
* Au1x00 interrupt routine: |
1246 |
* |
1247 |
* TODO: This is just bogus so far. For more info, read this: |
1248 |
* http://www.meshcube.org/cgi-bin/viewcvs.cgi/kernel/linux/arch/mips/au1000/common/ |
1249 |
* |
1250 |
* CPU int 2 = IC 0, request 0 |
1251 |
* CPU int 3 = IC 0, request 1 |
1252 |
* CPU int 4 = IC 1, request 0 |
1253 |
* CPU int 5 = IC 1, request 1 |
1254 |
* |
1255 |
* Interrupts 0..31 are on interrupt controller 0, interrupts 32..63 are |
1256 |
* on controller 1. |
1257 |
* |
1258 |
* Special case: if irq_nr == 64+8, then this just updates the CPU |
1259 |
* interrupt assertions. |
1260 |
*/ |
1261 |
void au1x00_interrupt(struct machine *m, struct cpu *cpu, |
1262 |
int irq_nr, int assrt) |
1263 |
{ |
1264 |
uint32_t ms; |
1265 |
|
1266 |
irq_nr -= 8; |
1267 |
debug("au1x00_interrupt(): irq_nr=%i assrt=%i\n", irq_nr, assrt); |
1268 |
|
1269 |
if (irq_nr < 64) { |
1270 |
ms = 1 << (irq_nr & 31); |
1271 |
|
1272 |
if (assrt) |
1273 |
m->md_int.au1x00_ic_data->request0_int |= ms; |
1274 |
else |
1275 |
m->md_int.au1x00_ic_data->request0_int &= ~ms; |
1276 |
|
1277 |
/* TODO: Controller 1 */ |
1278 |
} |
1279 |
|
1280 |
if ((m->md_int.au1x00_ic_data->request0_int & |
1281 |
m->md_int.au1x00_ic_data->mask) != 0) |
1282 |
cpu_interrupt(cpu, 2); |
1283 |
else |
1284 |
cpu_interrupt_ack(cpu, 2); |
1285 |
|
1286 |
/* TODO: What _is_ request1? */ |
1287 |
|
1288 |
/* TODO: Controller 1 */ |
1289 |
} |
1290 |
|
1291 |
|
1292 |
/* |
1293 |
* Malta (evbmips) interrupts: |
1294 |
* |
1295 |
* ISA interrupts. |
1296 |
* (irq_nr = 16+8 can be used to just reassert/deassert interrupts.) |
1297 |
*/ |
1298 |
void malta_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, |
1299 |
int assrt) |
1300 |
{ |
1301 |
int mask; |
1302 |
|
1303 |
irq_nr -= 8; |
1304 |
mask = 1 << (irq_nr & 7); |
1305 |
|
1306 |
if (irq_nr < 8) { |
1307 |
if (assrt) |
1308 |
m->md_int.isa_pic_data.pic1->irr |= mask; |
1309 |
else |
1310 |
m->md_int.isa_pic_data.pic1->irr &= ~mask; |
1311 |
} else if (irq_nr < 16) { |
1312 |
if (assrt) |
1313 |
m->md_int.isa_pic_data.pic2->irr |= mask; |
1314 |
else |
1315 |
m->md_int.isa_pic_data.pic2->irr &= ~mask; |
1316 |
} |
1317 |
|
1318 |
/* Any interrupt assertions on PIC2 go to irq 2 on PIC1 */ |
1319 |
/* (TODO: don't hardcode this here) */ |
1320 |
if (m->md_int.isa_pic_data.pic2->irr & |
1321 |
~m->md_int.isa_pic_data.pic2->ier) |
1322 |
m->md_int.isa_pic_data.pic1->irr |= 0x04; |
1323 |
else |
1324 |
m->md_int.isa_pic_data.pic1->irr &= ~0x04; |
1325 |
|
1326 |
/* Now, PIC1: */ |
1327 |
if (m->md_int.isa_pic_data.pic1->irr & |
1328 |
~m->md_int.isa_pic_data.pic1->ier) |
1329 |
cpu_interrupt(cpu, 2); |
1330 |
else |
1331 |
cpu_interrupt_ack(cpu, 2); |
1332 |
|
1333 |
/* printf("MALTA: pic1.irr=0x%02x ier=0x%02x pic2.irr=0x%02x " |
1334 |
"ier=0x%02x\n", m->md_int.isa_pic_data.pic1->irr, |
1335 |
m->md_int.isa_pic_data.pic1->ier, |
1336 |
m->md_int.isa_pic_data.pic2->irr, |
1337 |
m->md_int.isa_pic_data.pic2->ier); */ |
1338 |
} |
1339 |
|
1340 |
|
1341 |
/* |
1342 |
* Cobalt interrupts: |
1343 |
* |
1344 |
* (irq_nr = 8 + 16 can be used to just reassert/deassert interrupts.) |
1345 |
*/ |
1346 |
void cobalt_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
1347 |
{ |
1348 |
int mask; |
1349 |
|
1350 |
irq_nr -= 8; |
1351 |
mask = 1 << (irq_nr & 7); |
1352 |
|
1353 |
if (irq_nr < 8) { |
1354 |
if (assrt) |
1355 |
m->md_int.isa_pic_data.pic1->irr |= mask; |
1356 |
else |
1357 |
m->md_int.isa_pic_data.pic1->irr &= ~mask; |
1358 |
} else if (irq_nr < 16) { |
1359 |
if (assrt) |
1360 |
m->md_int.isa_pic_data.pic2->irr |= mask; |
1361 |
else |
1362 |
m->md_int.isa_pic_data.pic2->irr &= ~mask; |
1363 |
} |
1364 |
|
1365 |
/* Any interrupt assertions on PIC2 go to irq 2 on PIC1 */ |
1366 |
/* (TODO: don't hardcode this here) */ |
1367 |
if (m->md_int.isa_pic_data.pic2->irr & |
1368 |
~m->md_int.isa_pic_data.pic2->ier) |
1369 |
m->md_int.isa_pic_data.pic1->irr |= 0x04; |
1370 |
else |
1371 |
m->md_int.isa_pic_data.pic1->irr &= ~0x04; |
1372 |
|
1373 |
/* Now, PIC1: */ |
1374 |
if (m->md_int.isa_pic_data.pic1->irr & |
1375 |
~m->md_int.isa_pic_data.pic1->ier) |
1376 |
cpu_interrupt(cpu, 6); |
1377 |
else |
1378 |
cpu_interrupt_ack(cpu, 6); |
1379 |
|
1380 |
/* printf("COBALT: pic1.irr=0x%02x ier=0x%02x pic2.irr=0x%02x " |
1381 |
"ier=0x%02x\n", m->md_int.isa_pic_data.pic1->irr, |
1382 |
m->md_int.isa_pic_data.pic1->ier, |
1383 |
m->md_int.isa_pic_data.pic2->irr, |
1384 |
m->md_int.isa_pic_data.pic2->ier); */ |
1385 |
} |
1386 |
|
1387 |
|
1388 |
/* |
1389 |
* x86 (PC) interrupts: |
1390 |
* |
1391 |
* (irq_nr = 16 can be used to just reassert/deassert interrupts.) |
1392 |
*/ |
1393 |
void x86_pc_interrupt(struct machine *m, struct cpu *cpu, int irq_nr, int assrt) |
1394 |
{ |
1395 |
int mask = 1 << (irq_nr & 7); |
1396 |
|
1397 |
if (irq_nr < 8) { |
1398 |
if (assrt) |
1399 |
m->md.pc.pic1->irr |= mask; |
1400 |
else |
1401 |
m->md.pc.pic1->irr &= ~mask; |
1402 |
} else if (irq_nr < 16) { |
1403 |
if (m->md.pc.pic2 == NULL) { |
1404 |
fatal("x86_pc_interrupt(): pic2 used (irq_nr = %i), " |
1405 |
"but we are emulating an XT?\n", irq_nr); |
1406 |
return; |
1407 |
} |
1408 |
if (assrt) |
1409 |
m->md.pc.pic2->irr |= mask; |
1410 |
else |
1411 |
m->md.pc.pic2->irr &= ~mask; |
1412 |
} |
1413 |
|
1414 |
if (m->md.pc.pic2 != NULL) { |
1415 |
/* Any interrupt assertions on PIC2 go to irq 2 on PIC1 */ |
1416 |
/* (TODO: don't hardcode this here) */ |
1417 |
if (m->md.pc.pic2->irr & ~m->md.pc.pic2->ier) |
1418 |
m->md.pc.pic1->irr |= 0x04; |
1419 |
else |
1420 |
m->md.pc.pic1->irr &= ~0x04; |
1421 |
} |
1422 |
|
1423 |
/* Now, PIC1: */ |
1424 |
if (m->md.pc.pic1->irr & ~m->md.pc.pic1->ier) |
1425 |
cpu->cd.x86.interrupt_asserted = 1; |
1426 |
else |
1427 |
cpu->cd.x86.interrupt_asserted = 0; |
1428 |
} |
1429 |
|
1430 |
|
1431 |
/**************************************************************************** |
1432 |
* * |
1433 |
* Machine dependant Initialization routines * |
1434 |
* * |
1435 |
****************************************************************************/ |
1436 |
|
1437 |
|
1438 |
/* |
1439 |
* machine_setup(): |
1440 |
* |
1441 |
* This (rather large) function initializes memory, registers, and/or devices |
1442 |
* required by specific machine emulations. |
1443 |
*/ |
1444 |
void machine_setup(struct machine *machine) |
1445 |
{ |
1446 |
uint64_t addr, addr2; |
1447 |
int i, j; |
1448 |
struct memory *mem; |
1449 |
char tmpstr[1000]; |
1450 |
struct cons_data *cons_data; |
1451 |
|
1452 |
/* DECstation: */ |
1453 |
char *framebuffer_console_name, *serial_console_name; |
1454 |
int color_fb_flag; |
1455 |
int boot_scsi_boardnumber = 3, boot_net_boardnumber = 3; |
1456 |
char *turbochannel_default_gfx_card = "PMAG-BA"; |
1457 |
/* PMAG-AA, -BA, -CA/DA/EA/FA, -JA, -RO, PMAGB-BA */ |
1458 |
|
1459 |
/* HPCmips: */ |
1460 |
struct xx { |
1461 |
struct btinfo_magic a; |
1462 |
struct btinfo_bootpath b; |
1463 |
struct btinfo_symtab c; |
1464 |
} xx; |
1465 |
struct hpc_bootinfo hpc_bootinfo; |
1466 |
uint64_t hpcmips_fb_addr = 0; |
1467 |
int hpcmips_fb_bits = 0, hpcmips_fb_encoding = 0; |
1468 |
int hpcmips_fb_xsize = 0; |
1469 |
int hpcmips_fb_ysize = 0; |
1470 |
int hpcmips_fb_xsize_mem = 0; |
1471 |
int hpcmips_fb_ysize_mem = 0; |
1472 |
|
1473 |
/* ARCBIOS stuff: */ |
1474 |
uint64_t sgi_ram_offset = 0; |
1475 |
int arc_wordlen = sizeof(uint32_t); |
1476 |
char *eaddr_string = "eaddr=10:20:30:40:50:60"; /* nonsense */ |
1477 |
unsigned char macaddr[6]; |
1478 |
|
1479 |
/* Generic bootstring stuff: */ |
1480 |
int bootdev_type = 0; |
1481 |
int bootdev_id; |
1482 |
char *bootstr = NULL; |
1483 |
char *bootarg = NULL; |
1484 |
char *init_bootpath; |
1485 |
|
1486 |
/* PCI stuff: */ |
1487 |
struct pci_data *pci_data; |
1488 |
|
1489 |
/* Framebuffer stuff: */ |
1490 |
struct vfb_data *fb; |
1491 |
|
1492 |
/* Abreviation: :-) */ |
1493 |
struct cpu *cpu = machine->cpus[machine->bootstrap_cpu]; |
1494 |
|
1495 |
|
1496 |
bootdev_id = diskimage_bootdev(machine, &bootdev_type); |
1497 |
|
1498 |
mem = cpu->mem; |
1499 |
machine->machine_name = NULL; |
1500 |
|
1501 |
/* TODO: Move this somewhere else? */ |
1502 |
if (machine->boot_string_argument == NULL) { |
1503 |
switch (machine->machine_type) { |
1504 |
case MACHINE_ARC: |
1505 |
machine->boot_string_argument = "-aN"; |
1506 |
break; |
1507 |
case MACHINE_DEC: |
1508 |
machine->boot_string_argument = "-a"; |
1509 |
break; |
1510 |
default: |
1511 |
/* Important, because boot_string_argument should |
1512 |
not be set to NULL: */ |
1513 |
machine->boot_string_argument = ""; |
1514 |
} |
1515 |
} |
1516 |
|
1517 |
switch (machine->machine_type) { |
1518 |
|
1519 |
case MACHINE_NONE: |
1520 |
printf("\nNo emulation type specified.\n"); |
1521 |
exit(1); |
1522 |
|
1523 |
#ifdef ENABLE_MIPS |
1524 |
case MACHINE_BAREMIPS: |
1525 |
/* |
1526 |
* A "bare" MIPS test machine. |
1527 |
* |
1528 |
* NOTE: NO devices at all. |
1529 |
*/ |
1530 |
cpu->byte_order = EMUL_BIG_ENDIAN; |
1531 |
machine->machine_name = "\"Bare\" MIPS machine"; |
1532 |
break; |
1533 |
|
1534 |
case MACHINE_TESTMIPS: |
1535 |
/* |
1536 |
* A MIPS test machine (which happens to work with the |
1537 |
* code in my master's thesis). :-) |
1538 |
* |
1539 |
* IRQ map: |
1540 |
* 7 CPU counter |
1541 |
* 6 SMP IPIs |
1542 |
* 5 not used yet |
1543 |
* 4 not used yet |
1544 |
* 3 ethernet |
1545 |
* 2 serial console |
1546 |
*/ |
1547 |
cpu->byte_order = EMUL_BIG_ENDIAN; |
1548 |
machine->machine_name = "MIPS test machine"; |
1549 |
|
1550 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=2", |
1551 |
(long long)DEV_CONS_ADDRESS); |
1552 |
cons_data = device_add(machine, tmpstr); |
1553 |
machine->main_console_handle = cons_data->console_handle; |
1554 |
|
1555 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
1556 |
(long long)DEV_MP_ADDRESS); |
1557 |
device_add(machine, tmpstr); |
1558 |
|
1559 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
1560 |
640,480, 640,480, 24, "testmips generic"); |
1561 |
|
1562 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
1563 |
(long long)DEV_DISK_ADDRESS); |
1564 |
device_add(machine, tmpstr); |
1565 |
|
1566 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=3", |
1567 |
(long long)DEV_ETHER_ADDRESS); |
1568 |
device_add(machine, tmpstr); |
1569 |
|
1570 |
break; |
1571 |
|
1572 |
case MACHINE_DEC: |
1573 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
1574 |
|
1575 |
/* An R2020 or R3220 memory thingy: */ |
1576 |
cpu->cd.mips.coproc[3] = mips_coproc_new(cpu, 3); |
1577 |
|
1578 |
/* There aren't really any good standard values... */ |
1579 |
framebuffer_console_name = "osconsole=0,3"; |
1580 |
serial_console_name = "osconsole=1"; |
1581 |
|
1582 |
switch (machine->machine_subtype) { |
1583 |
case MACHINE_DEC_PMAX_3100: /* type 1, KN01 */ |
1584 |
/* Supposed to have 12MHz or 16.67MHz R2000 CPU, R2010 FPC, R2020 Memory coprocessor */ |
1585 |
machine->machine_name = "DEC PMAX 3100 (KN01)"; |
1586 |
|
1587 |
/* 12 MHz for 2100, 16.67 MHz for 3100 */ |
1588 |
if (machine->emulated_hz == 0) |
1589 |
machine->emulated_hz = 16670000; |
1590 |
|
1591 |
if (machine->physical_ram_in_mb > 24) |
1592 |
fprintf(stderr, "WARNING! Real DECstation 3100 machines cannot have more than 24MB RAM. Continuing anyway.\n"); |
1593 |
|
1594 |
if ((machine->physical_ram_in_mb % 4) != 0) |
1595 |
fprintf(stderr, "WARNING! Real DECstation 3100 machines have an integer multiple of 4 MBs of RAM. Continuing anyway.\n"); |
1596 |
|
1597 |
color_fb_flag = 1; /* 1 for color, 0 for mono. TODO: command line option? */ |
1598 |
|
1599 |
/* |
1600 |
* According to NetBSD/pmax: |
1601 |
* |
1602 |
* pm0 at ibus0 addr 0xfc00000: 1024x864x1 (or x8 for color) |
1603 |
* dc0 at ibus0 addr 0x1c000000 |
1604 |
* le0 at ibus0 addr 0x18000000: address 00:00:00:00:00:00 |
1605 |
* sii0 at ibus0 addr 0x1a000000 |
1606 |
* mcclock0 at ibus0 addr 0x1d000000: mc146818 or compatible |
1607 |
* 0x1e000000 = system status and control register |
1608 |
*/ |
1609 |
fb = dev_fb_init(machine, mem, KN01_PHYS_FBUF_START, |
1610 |
color_fb_flag? VFB_DEC_VFB02 : VFB_DEC_VFB01, |
1611 |
0,0,0,0,0, color_fb_flag? "VFB02":"VFB01"); |
1612 |
dev_colorplanemask_init(mem, KN01_PHYS_COLMASK_START, &fb->color_plane_mask); |
1613 |
dev_vdac_init(mem, KN01_SYS_VDAC, fb->rgb_palette, color_fb_flag); |
1614 |
dev_le_init(machine, mem, KN01_SYS_LANCE, KN01_SYS_LANCE_B_START, KN01_SYS_LANCE_B_END, KN01_INT_LANCE, 4*1048576); |
1615 |
dev_sii_init(machine, mem, KN01_SYS_SII, KN01_SYS_SII_B_START, KN01_SYS_SII_B_END, KN01_INT_SII); |
1616 |
dev_dc7085_init(machine, mem, KN01_SYS_DZ, KN01_INT_DZ, machine->use_x11); |
1617 |
dev_mc146818_init(machine, mem, KN01_SYS_CLOCK, KN01_INT_CLOCK, MC146818_DEC, 1); |
1618 |
dev_kn01_csr_init(mem, KN01_SYS_CSR, color_fb_flag); |
1619 |
|
1620 |
framebuffer_console_name = "osconsole=0,3"; /* fb,keyb */ |
1621 |
serial_console_name = "osconsole=3"; /* 3 */ |
1622 |
break; |
1623 |
|
1624 |
case MACHINE_DEC_3MAX_5000: /* type 2, KN02 */ |
1625 |
/* Supposed to have 25MHz R3000 CPU, R3010 FPC, */ |
1626 |
/* and a R3220 Memory coprocessor */ |
1627 |
machine->machine_name = "DECstation 5000/200 (3MAX, KN02)"; |
1628 |
|
1629 |
if (machine->emulated_hz == 0) |
1630 |
machine->emulated_hz = 25000000; |
1631 |
|
1632 |
if (machine->physical_ram_in_mb < 8) |
1633 |
fprintf(stderr, "WARNING! Real KN02 machines do not have less than 8MB RAM. Continuing anyway.\n"); |
1634 |
if (machine->physical_ram_in_mb > 480) |
1635 |
fprintf(stderr, "WARNING! Real KN02 machines cannot have more than 480MB RAM. Continuing anyway.\n"); |
1636 |
|
1637 |
/* An R3220 memory thingy: */ |
1638 |
cpu->cd.mips.coproc[3] = mips_coproc_new(cpu, 3); |
1639 |
|
1640 |
/* |
1641 |
* According to NetBSD/pmax: |
1642 |
* asc0 at tc0 slot 5 offset 0x0 |
1643 |
* le0 at tc0 slot 6 offset 0x0 |
1644 |
* ibus0 at tc0 slot 7 offset 0x0 |
1645 |
* dc0 at ibus0 addr 0x1fe00000 |
1646 |
* mcclock0 at ibus0 addr 0x1fe80000: mc146818 |
1647 |
* |
1648 |
* kn02 shared irq numbers (IP) are offset by +8 |
1649 |
* in the emulator |
1650 |
*/ |
1651 |
|
1652 |
/* KN02 interrupts: */ |
1653 |
machine->md_interrupt = kn02_interrupt; |
1654 |
|
1655 |
/* |
1656 |
* TURBOchannel slots 0, 1, and 2 are free for |
1657 |
* option cards. Let's put in zero or more graphics |
1658 |
* boards: |
1659 |
* |
1660 |
* TODO: It's also possible to have larger graphics |
1661 |
* cards that occupy several slots. How to solve |
1662 |
* this nicely? |
1663 |
*/ |
1664 |
dev_turbochannel_init(machine, mem, 0, |
1665 |
KN02_PHYS_TC_0_START, KN02_PHYS_TC_0_END, |
1666 |
machine->n_gfx_cards >= 1? |
1667 |
turbochannel_default_gfx_card : "", |
1668 |
KN02_IP_SLOT0 +8); |
1669 |
|
1670 |
dev_turbochannel_init(machine, mem, 1, |
1671 |
KN02_PHYS_TC_1_START, KN02_PHYS_TC_1_END, |
1672 |
machine->n_gfx_cards >= 2? |
1673 |
turbochannel_default_gfx_card : "", |
1674 |
KN02_IP_SLOT1 +8); |
1675 |
|
1676 |
dev_turbochannel_init(machine, mem, 2, |
1677 |
KN02_PHYS_TC_2_START, KN02_PHYS_TC_2_END, |
1678 |
machine->n_gfx_cards >= 3? |
1679 |
turbochannel_default_gfx_card : "", |
1680 |
KN02_IP_SLOT2 +8); |
1681 |
|
1682 |
/* TURBOchannel slots 3 and 4 are reserved. */ |
1683 |
|
1684 |
/* TURBOchannel slot 5 is PMAZ-AA ("asc" SCSI). */ |
1685 |
dev_turbochannel_init(machine, mem, 5, |
1686 |
KN02_PHYS_TC_5_START, KN02_PHYS_TC_5_END, |
1687 |
"PMAZ-AA", KN02_IP_SCSI +8); |
1688 |
|
1689 |
/* TURBOchannel slot 6 is PMAD-AA ("le" ethernet). */ |
1690 |
dev_turbochannel_init(machine, mem, 6, |
1691 |
KN02_PHYS_TC_6_START, KN02_PHYS_TC_6_END, |
1692 |
"PMAD-AA", KN02_IP_LANCE +8); |
1693 |
|
1694 |
/* TURBOchannel slot 7 is system stuff. */ |
1695 |
machine->main_console_handle = |
1696 |
dev_dc7085_init(machine, mem, |
1697 |
KN02_SYS_DZ, KN02_IP_DZ +8, machine->use_x11); |
1698 |
dev_mc146818_init(machine, mem, |
1699 |
KN02_SYS_CLOCK, KN02_INT_CLOCK, MC146818_DEC, 1); |
1700 |
|
1701 |
machine->md_int.kn02_csr = |
1702 |
dev_kn02_init(cpu, mem, KN02_SYS_CSR); |
1703 |
|
1704 |
framebuffer_console_name = "osconsole=0,7"; |
1705 |
/* fb,keyb */ |
1706 |
serial_console_name = "osconsole=2"; |
1707 |
boot_scsi_boardnumber = 5; |
1708 |
boot_net_boardnumber = 6; /* TODO: 3? */ |
1709 |
break; |
1710 |
|
1711 |
case MACHINE_DEC_3MIN_5000: /* type 3, KN02BA */ |
1712 |
machine->machine_name = "DECstation 5000/112 or 145 (3MIN, KN02BA)"; |
1713 |
if (machine->emulated_hz == 0) |
1714 |
machine->emulated_hz = 33000000; |
1715 |
if (machine->physical_ram_in_mb > 128) |
1716 |
fprintf(stderr, "WARNING! Real 3MIN machines cannot have more than 128MB RAM. Continuing anyway.\n"); |
1717 |
|
1718 |
/* KMIN interrupts: */ |
1719 |
machine->md_interrupt = kmin_interrupt; |
1720 |
|
1721 |
/* |
1722 |
* tc0 at mainbus0: 12.5 MHz clock (0x10000000, slotsize = 64MB) |
1723 |
* tc slot 1: 0x14000000 |
1724 |
* tc slot 2: 0x18000000 |
1725 |
* ioasic0 at tc0 slot 3 offset 0x0 (0x1c000000) slot 0 |
1726 |
* asic regs (0x1c040000) slot 1 |
1727 |
* station's ether address (0x1c080000) slot 2 |
1728 |
* le0 at ioasic0 offset 0xc0000: address 00:00:00:00:00:00 (0x1c0c0000) slot 3 |
1729 |
* scc0 at ioasic0 offset 0x100000 (0x1c100000) slot 4 |
1730 |
* scc1 at ioasic0 offset 0x180000: console (0x1c180000) slot 6 |
1731 |
* mcclock0 at ioasic0 offset 0x200000: mc146818 or compatible (0x1c200000) slot 8 |
1732 |
* asc0 at ioasic0 offset 0x300000: NCR53C94, 25MHz, SCSI ID 7 (0x1c300000) slot 12 |
1733 |
* dma for asc0 (0x1c380000) slot 14 |
1734 |
*/ |
1735 |
machine->md_int.dec_ioasic_data = dev_dec_ioasic_init(cpu, mem, 0x1c000000, 0); |
1736 |
dev_le_init(machine, mem, 0x1c0c0000, 0, 0, KMIN_INTR_LANCE +8, 4*65536); |
1737 |
dev_scc_init(machine, mem, 0x1c100000, KMIN_INTR_SCC_0 +8, machine->use_x11, 0, 1); |
1738 |
dev_scc_init(machine, mem, 0x1c180000, KMIN_INTR_SCC_1 +8, machine->use_x11, 1, 1); |
1739 |
dev_mc146818_init(machine, mem, 0x1c200000, KMIN_INTR_CLOCK +8, MC146818_DEC, 1); |
1740 |
dev_asc_init(machine, mem, 0x1c300000, KMIN_INTR_SCSI +8, |
1741 |
NULL, DEV_ASC_DEC, NULL, NULL); |
1742 |
|
1743 |
/* |
1744 |
* TURBOchannel slots 0, 1, and 2 are free for |
1745 |
* option cards. These are by default filled with |
1746 |
* zero or more graphics boards. |
1747 |
* |
1748 |
* TODO: irqs |
1749 |
*/ |
1750 |
dev_turbochannel_init(machine, mem, 0, |
1751 |
0x10000000, 0x103fffff, |
1752 |
machine->n_gfx_cards >= 1? |
1753 |
turbochannel_default_gfx_card : "", |
1754 |
KMIN_INT_TC0); |
1755 |
|
1756 |
dev_turbochannel_init(machine, mem, 1, |
1757 |
0x14000000, 0x143fffff, |
1758 |
machine->n_gfx_cards >= 2? |
1759 |
turbochannel_default_gfx_card : "", |
1760 |
KMIN_INT_TC1); |
1761 |
|
1762 |
dev_turbochannel_init(machine, mem, 2, |
1763 |
0x18000000, 0x183fffff, |
1764 |
machine->n_gfx_cards >= 3? |
1765 |
turbochannel_default_gfx_card : "", |
1766 |
KMIN_INT_TC2); |
1767 |
|
1768 |
/* (kmin shared irq numbers (IP) are offset by +8 in the emulator) */ |
1769 |
/* kmin_csr = dev_kmin_init(cpu, mem, KMIN_REG_INTR); */ |
1770 |
|
1771 |
framebuffer_console_name = "osconsole=0,3"; /* fb, keyb (?) */ |
1772 |
serial_console_name = "osconsole=3"; /* ? */ |
1773 |
break; |
1774 |
|
1775 |
case MACHINE_DEC_3MAXPLUS_5000: /* type 4, KN03 */ |
1776 |
machine->machine_name = "DECsystem 5900 or 5000 (3MAX+) (KN03)"; |
1777 |
|
1778 |
/* 5000/240 (KN03-GA, R3000): 40 MHz */ |
1779 |
/* 5000/260 (KN05-NB, R4000): 60 MHz */ |
1780 |
/* TODO: are both these type 4? */ |
1781 |
if (machine->emulated_hz == 0) |
1782 |
machine->emulated_hz = 40000000; |
1783 |
if (machine->physical_ram_in_mb > 480) |
1784 |
fprintf(stderr, "WARNING! Real KN03 machines cannot have more than 480MB RAM. Continuing anyway.\n"); |
1785 |
|
1786 |
/* KN03 interrupts: */ |
1787 |
machine->md_interrupt = kn03_interrupt; |
1788 |
|
1789 |
/* |
1790 |
* tc0 at mainbus0: 25 MHz clock (slot 0) (0x1e000000) |
1791 |
* tc0 slot 1 (0x1e800000) |
1792 |
* tc0 slot 2 (0x1f000000) |
1793 |
* ioasic0 at tc0 slot 3 offset 0x0 (0x1f800000) |
1794 |
* something that has to do with interrupts? (?) (0x1f840000 ?) |
1795 |
* le0 at ioasic0 offset 0xc0000 (0x1f8c0000) |
1796 |
* scc0 at ioasic0 offset 0x100000 (0x1f900000) |
1797 |
* scc1 at ioasic0 offset 0x180000: console (0x1f980000) |
1798 |
* mcclock0 at ioasic0 offset 0x200000: mc146818 or compatible (0x1fa00000) |
1799 |
* asc0 at ioasic0 offset 0x300000: NCR53C94, 25MHz, SCSI ID 7 (0x1fb00000) |
1800 |
*/ |
1801 |
machine->md_int.dec_ioasic_data = dev_dec_ioasic_init(cpu, mem, 0x1f800000, 0); |
1802 |
|
1803 |
dev_le_init(machine, mem, KN03_SYS_LANCE, 0, 0, KN03_INTR_LANCE +8, 4*65536); |
1804 |
|
1805 |
machine->md_int.dec_ioasic_data->dma_func[3] = dev_scc_dma_func; |
1806 |
machine->md_int.dec_ioasic_data->dma_func_extra[2] = dev_scc_init(machine, mem, KN03_SYS_SCC_0, KN03_INTR_SCC_0 +8, machine->use_x11, 0, 1); |
1807 |
machine->md_int.dec_ioasic_data->dma_func[2] = dev_scc_dma_func; |
1808 |
machine->md_int.dec_ioasic_data->dma_func_extra[3] = dev_scc_init(machine, mem, KN03_SYS_SCC_1, KN03_INTR_SCC_1 +8, machine->use_x11, 1, 1); |
1809 |
|
1810 |
dev_mc146818_init(machine, mem, KN03_SYS_CLOCK, KN03_INT_RTC, MC146818_DEC, 1); |
1811 |
dev_asc_init(machine, mem, KN03_SYS_SCSI, |
1812 |
KN03_INTR_SCSI +8, NULL, DEV_ASC_DEC, NULL, NULL); |
1813 |
|
1814 |
/* |
1815 |
* TURBOchannel slots 0, 1, and 2 are free for |
1816 |
* option cards. These are by default filled with |
1817 |
* zero or more graphics boards. |
1818 |
* |
1819 |
* TODO: irqs |
1820 |
*/ |
1821 |
dev_turbochannel_init(machine, mem, 0, |
1822 |
KN03_PHYS_TC_0_START, KN03_PHYS_TC_0_END, |
1823 |
machine->n_gfx_cards >= 1? |
1824 |
turbochannel_default_gfx_card : "", |
1825 |
KN03_INTR_TC_0 +8); |
1826 |
|
1827 |
dev_turbochannel_init(machine, mem, 1, |
1828 |
KN03_PHYS_TC_1_START, KN03_PHYS_TC_1_END, |
1829 |
machine->n_gfx_cards >= 2? |
1830 |
turbochannel_default_gfx_card : "", |
1831 |
KN03_INTR_TC_1 +8); |
1832 |
|
1833 |
dev_turbochannel_init(machine, mem, 2, |
1834 |
KN03_PHYS_TC_2_START, KN03_PHYS_TC_2_END, |
1835 |
machine->n_gfx_cards >= 3? |
1836 |
turbochannel_default_gfx_card : "", |
1837 |
KN03_INTR_TC_2 +8); |
1838 |
|
1839 |
/* TODO: interrupts */ |
1840 |
/* shared (turbochannel) interrupts are +8 */ |
1841 |
|
1842 |
framebuffer_console_name = "osconsole=0,3"; /* fb, keyb (?) */ |
1843 |
serial_console_name = "osconsole=3"; /* ? */ |
1844 |
break; |
1845 |
|
1846 |
case MACHINE_DEC_5800: /* type 5, KN5800 */ |
1847 |
machine->machine_name = "DECsystem 5800"; |
1848 |
|
1849 |
/* TODO: this is incorrect, banks multiply by 8 etc */ |
1850 |
if (machine->physical_ram_in_mb < 48) |
1851 |
fprintf(stderr, "WARNING! 5800 will probably not run with less than 48MB RAM. Continuing anyway.\n"); |
1852 |
|
1853 |
/* |
1854 |
* According to http://www2.no.netbsd.org/Ports/pmax/models.html, |
1855 |
* the 5800-series is based on VAX 6000/300. |
1856 |
*/ |
1857 |
|
1858 |
/* |
1859 |
* Ultrix might support SMP on this machine type. |
1860 |
* |
1861 |
* Something at 0x10000000. |
1862 |
* ssc serial console at 0x10140000, interrupt 2 (shared with XMI?). |
1863 |
* xmi 0 at address 0x11800000 (node x at offset x*0x80000) |
1864 |
* Clock uses interrupt 3 (shared with XMI?). |
1865 |
*/ |
1866 |
|
1867 |
machine->md_int.dec5800_csr = dev_dec5800_init(machine, mem, 0x10000000); |
1868 |
dev_decbi_init(mem, 0x10000000); |
1869 |
dev_ssc_init(machine, mem, 0x10140000, 2, machine->use_x11, &machine->md_int.dec5800_csr->csr); |
1870 |
dev_decxmi_init(mem, 0x11800000); |
1871 |
dev_deccca_init(mem, DEC_DECCCA_BASEADDR); |
1872 |
|
1873 |
break; |
1874 |
|
1875 |
case MACHINE_DEC_5400: /* type 6, KN210 */ |
1876 |
machine->machine_name = "DECsystem 5400 (KN210)"; |
1877 |
/* |
1878 |
* Misc. info from the KN210 manual: |
1879 |
* |
1880 |
* Interrupt lines: |
1881 |
* irq5 fpu |
1882 |
* irq4 halt |
1883 |
* irq3 pwrfl -> mer1 -> mer0 -> wear |
1884 |
* irq2 100 Hz -> birq7 |
1885 |
* irq1 dssi -> ni -> birq6 |
1886 |
* irq0 birq5 -> console -> timers -> birq4 |
1887 |
* |
1888 |
* Interrupt status register at 0x10048000. |
1889 |
* Main memory error status register at 0x1008140. |
1890 |
* Interval Timer Register (ITR) at 0x10084010. |
1891 |
* Q22 stuff at 0x10088000 - 0x1008ffff. |
1892 |
* TODR at 0x1014006c. |
1893 |
* TCR0 (timer control register 0) 0x10140100. |
1894 |
* TIR0 (timer interval register 0) 0x10140104. |
1895 |
* TCR1 (timer control register 1) 0x10140110. |
1896 |
* TIR1 (timer interval register 1) 0x10140114. |
1897 |
* VRR0 (Vector Read Register 0) at 0x16000050. |
1898 |
* VRR1 (Vector Read Register 1) at 0x16000054. |
1899 |
* VRR2 (Vector Read Register 2) at 0x16000058. |
1900 |
* VRR3 (Vector Read Register 3) at 0x1600005c. |
1901 |
*/ |
1902 |
/* ln (ethernet) at 0x10084x00 ? and 0x10120000 ? */ |
1903 |
/* error registers (?) at 0x17000000 and 0x10080000 */ |
1904 |
device_add(machine, "kn210 addr=0x10080000"); |
1905 |
dev_ssc_init(machine, mem, 0x10140000, 0, machine->use_x11, NULL); /* TODO: not irq 0 */ |
1906 |
break; |
1907 |
|
1908 |
case MACHINE_DEC_MAXINE_5000: /* type 7, KN02CA */ |
1909 |
machine->machine_name = "Personal DECstation 5000/xxx (MAXINE) (KN02CA)"; |
1910 |
if (machine->emulated_hz == 0) |
1911 |
machine->emulated_hz = 33000000; |
1912 |
|
1913 |
if (machine->physical_ram_in_mb < 8) |
1914 |
fprintf(stderr, "WARNING! Real KN02CA machines do not have less than 8MB RAM. Continuing anyway.\n"); |
1915 |
if (machine->physical_ram_in_mb > 40) |
1916 |
fprintf(stderr, "WARNING! Real KN02CA machines cannot have more than 40MB RAM. Continuing anyway.\n"); |
1917 |
|
1918 |
/* Maxine interrupts: */ |
1919 |
machine->md_interrupt = maxine_interrupt; |
1920 |
|
1921 |
/* |
1922 |
* Something at address 0xca00000. (?) |
1923 |
* Something at address 0xe000000. (?) |
1924 |
* tc0 slot 0 (0x10000000) |
1925 |
* tc0 slot 1 (0x14000000) |
1926 |
* (tc0 slot 2 used by the framebuffer) |
1927 |
* ioasic0 at tc0 slot 3 offset 0x0 (0x1c000000) |
1928 |
* le0 at ioasic0 offset 0xc0000: address 00:00:00:00:00:00 (0x1c0c0000) |
1929 |
* scc0 at ioasic0 offset 0x100000: console <-- serial (0x1c100000) |
1930 |
* mcclock0 at ioasic0 offset 0x200000: mc146818 (0x1c200000) |
1931 |
* isdn at ioasic0 offset 0x240000 not configured (0x1c240000) |
1932 |
* bba0 at ioasic0 offset 0x240000 (audio0 at bba0) <--- which one of isdn and bba0? |
1933 |
* dtop0 at ioasic0 offset 0x280000 (0x1c280000) |
1934 |
* fdc at ioasic0 offset 0x2c0000 not configured <-- floppy (0x1c2c0000) |
1935 |
* asc0 at ioasic0 offset 0x300000: NCR53C94, 25MHz, SCSI ID 7 (0x1c300000) |
1936 |
* xcfb0 at tc0 slot 2 offset 0x0: 1024x768x8 built-in framebuffer (0xa000000) |
1937 |
*/ |
1938 |
machine->md_int.dec_ioasic_data = dev_dec_ioasic_init(cpu, mem, 0x1c000000, 0); |
1939 |
|
1940 |
/* TURBOchannel slots (0 and 1): */ |
1941 |
dev_turbochannel_init(machine, mem, 0, |
1942 |
0x10000000, 0x103fffff, |
1943 |
machine->n_gfx_cards >= 2? |
1944 |
turbochannel_default_gfx_card : "", |
1945 |
XINE_INTR_TC_0 +8); |
1946 |
dev_turbochannel_init(machine, mem, 1, |
1947 |
0x14000000, 0x143fffff, |
1948 |
machine->n_gfx_cards >= 3? |
1949 |
turbochannel_default_gfx_card : "", |
1950 |
XINE_INTR_TC_1 +8); |
1951 |
|
1952 |
/* |
1953 |
* TURBOchannel slot 2 is hardwired to be used by |
1954 |
* the framebuffer: (NOTE: 0x8000000, not 0x18000000) |
1955 |
*/ |
1956 |
dev_turbochannel_init(machine, mem, 2, |
1957 |
0x8000000, 0xbffffff, "PMAG-DV", 0); |
1958 |
|
1959 |
/* |
1960 |
* TURBOchannel slot 3: fixed, ioasic |
1961 |
* (the system stuff), 0x1c000000 |
1962 |
*/ |
1963 |
dev_le_init(machine, mem, 0x1c0c0000, 0, 0, XINE_INTR_LANCE +8, 4*65536); |
1964 |
dev_scc_init(machine, mem, 0x1c100000, |
1965 |
XINE_INTR_SCC_0 +8, machine->use_x11, 0, 1); |
1966 |
dev_mc146818_init(machine, mem, 0x1c200000, |
1967 |
XINE_INT_TOY, MC146818_DEC, 1); |
1968 |
dev_asc_init(machine, mem, 0x1c300000, |
1969 |
XINE_INTR_SCSI +8, NULL, DEV_ASC_DEC, NULL, NULL); |
1970 |
|
1971 |
framebuffer_console_name = "osconsole=3,2"; /* keyb,fb ?? */ |
1972 |
serial_console_name = "osconsole=3"; |
1973 |
break; |
1974 |
|
1975 |
case MACHINE_DEC_5500: /* type 11, KN220 */ |
1976 |
machine->machine_name = "DECsystem 5500 (KN220)"; |
1977 |
|
1978 |
/* |
1979 |
* According to NetBSD's pmax ports page: |
1980 |
* KN220-AA is a "30 MHz R3000 CPU with R3010 FPU" |
1981 |
* with "512 kBytes of Prestoserve battery backed RAM." |
1982 |
*/ |
1983 |
if (machine->emulated_hz == 0) |
1984 |
machine->emulated_hz = 30000000; |
1985 |
|
1986 |
/* |
1987 |
* See KN220 docs for more info. |
1988 |
* |
1989 |
* something at 0x10000000 |
1990 |
* something at 0x10001000 |
1991 |
* something at 0x10040000 |
1992 |
* scc at 0x10140000 |
1993 |
* qbus at (or around) 0x10080000 |
1994 |
* dssi (disk controller) buffers at 0x10100000, registers at 0x10160000. |
1995 |
* sgec (ethernet) registers at 0x10008000, station addresss at 0x10120000. |
1996 |
* asc (scsi) at 0x17100000. |
1997 |
*/ |
1998 |
|
1999 |
dev_ssc_init(machine, mem, 0x10140000, 0, machine->use_x11, NULL); /* TODO: not irq 0 */ |
2000 |
|
2001 |
/* something at 0x17000000, ultrix says "cpu 0 panic: DS5500 I/O Board is missing" if this is not here */ |
2002 |
dev_dec5500_ioboard_init(cpu, mem, 0x17000000); |
2003 |
|
2004 |
dev_sgec_init(mem, 0x10008000, 0); /* irq? */ |
2005 |
|
2006 |
/* The asc controller might be TURBOchannel-ish? */ |
2007 |
#if 0 |
2008 |
dev_turbochannel_init(machine, mem, 0, 0x17100000, 0x171fffff, "PMAZ-AA", 0); /* irq? */ |
2009 |
#else |
2010 |
dev_asc_init(machine, mem, 0x17100000, 0, NULL, DEV_ASC_DEC, NULL, NULL); /* irq? */ |
2011 |
#endif |
2012 |
|
2013 |
framebuffer_console_name = "osconsole=0,0"; /* TODO (?) */ |
2014 |
serial_console_name = "osconsole=0"; |
2015 |
break; |
2016 |
|
2017 |
case MACHINE_DEC_MIPSMATE_5100: /* type 12 */ |
2018 |
machine->machine_name = "DEC MIPSMATE 5100 (KN230)"; |
2019 |
if (machine->emulated_hz == 0) |
2020 |
machine->emulated_hz = 20000000; |
2021 |
if (machine->physical_ram_in_mb > 128) |
2022 |
fprintf(stderr, "WARNING! Real MIPSMATE 5100 machines cannot have more than 128MB RAM. Continuing anyway.\n"); |
2023 |
|
2024 |
if (machine->use_x11) |
2025 |
fprintf(stderr, "WARNING! Real MIPSMATE 5100 machines cannot have a graphical framebuffer. Continuing anyway.\n"); |
2026 |
|
2027 |
/* KN230 interrupts: */ |
2028 |
machine->md_interrupt = kn230_interrupt; |
2029 |
|
2030 |
/* |
2031 |
* According to NetBSD/pmax: |
2032 |
* dc0 at ibus0 addr 0x1c000000 |
2033 |
* le0 at ibus0 addr 0x18000000: address 00:00:00:00:00:00 |
2034 |
* sii0 at ibus0 addr 0x1a000000 |
2035 |
*/ |
2036 |
dev_mc146818_init(machine, mem, KN230_SYS_CLOCK, 4, MC146818_DEC, 1); |
2037 |
dev_dc7085_init(machine, mem, KN230_SYS_DZ0, KN230_CSR_INTR_DZ0, machine->use_x11); /* NOTE: CSR_INTR */ |
2038 |
/* dev_dc7085_init(machine, mem, KN230_SYS_DZ1, KN230_CSR_INTR_OPT0, machine->use_x11); */ /* NOTE: CSR_INTR */ |
2039 |
/* dev_dc7085_init(machine, mem, KN230_SYS_DZ2, KN230_CSR_INTR_OPT1, machine->use_x11); */ /* NOTE: CSR_INTR */ |
2040 |
dev_le_init(machine, mem, KN230_SYS_LANCE, KN230_SYS_LANCE_B_START, KN230_SYS_LANCE_B_END, KN230_CSR_INTR_LANCE, 4*1048576); |
2041 |
dev_sii_init(machine, mem, KN230_SYS_SII, KN230_SYS_SII_B_START, KN230_SYS_SII_B_END, KN230_CSR_INTR_SII); |
2042 |
|
2043 |
snprintf(tmpstr, sizeof(tmpstr), |
2044 |
"kn230 addr=0x%llx", (long long)KN230_SYS_ICSR); |
2045 |
machine->md_int.kn230_csr = device_add(machine, tmpstr); |
2046 |
|
2047 |
serial_console_name = "osconsole=0"; |
2048 |
break; |
2049 |
|
2050 |
default: |
2051 |
; |
2052 |
} |
2053 |
|
2054 |
/* |
2055 |
* Most OSes on DECstation use physical addresses below |
2056 |
* 0x20000000, but OSF/1 seems to use 0xbe...... as if it was |
2057 |
* 0x1e......, so we need this hack: |
2058 |
*/ |
2059 |
dev_ram_init(mem, 0xa0000000, 0x20000000, DEV_RAM_MIRROR, 0x0); |
2060 |
|
2061 |
/* DECstation PROM stuff: (TODO: endianness) */ |
2062 |
for (i=0; i<100; i++) |
2063 |
store_32bit_word(cpu, DEC_PROM_CALLBACK_STRUCT + i*4, |
2064 |
DEC_PROM_EMULATION + i*8); |
2065 |
|
2066 |
/* Fill PROM with dummy return instructions: (TODO: make this nicer) */ |
2067 |
for (i=0; i<100; i++) { |
2068 |
store_32bit_word(cpu, DEC_PROM_EMULATION + i*8, |
2069 |
0x03e00008); /* return */ |
2070 |
store_32bit_word(cpu, DEC_PROM_EMULATION + i*8 + 4, |
2071 |
0x00000000); /* nop */ |
2072 |
} |
2073 |
|
2074 |
/* |
2075 |
* According to dec_prom.h from NetBSD: |
2076 |
* |
2077 |
* "Programs loaded by the new PROMs pass the following arguments: |
2078 |
* a0 argc |
2079 |
* a1 argv |
2080 |
* a2 DEC_PROM_MAGIC |
2081 |
* a3 The callback vector defined below" |
2082 |
* |
2083 |
* So we try to emulate a PROM, even though no such thing has been |
2084 |
* loaded. |
2085 |
*/ |
2086 |
|
2087 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = 3; |
2088 |
cpu->cd.mips.gpr[MIPS_GPR_A1] = DEC_PROM_INITIAL_ARGV; |
2089 |
cpu->cd.mips.gpr[MIPS_GPR_A2] = DEC_PROM_MAGIC; |
2090 |
cpu->cd.mips.gpr[MIPS_GPR_A3] = DEC_PROM_CALLBACK_STRUCT; |
2091 |
|
2092 |
store_32bit_word(cpu, INITIAL_STACK_POINTER + 0x10, |
2093 |
BOOTINFO_MAGIC); |
2094 |
store_32bit_word(cpu, INITIAL_STACK_POINTER + 0x14, |
2095 |
BOOTINFO_ADDR); |
2096 |
|
2097 |
store_32bit_word(cpu, DEC_PROM_INITIAL_ARGV, |
2098 |
(DEC_PROM_INITIAL_ARGV + 0x10)); |
2099 |
store_32bit_word(cpu, DEC_PROM_INITIAL_ARGV+4, |
2100 |
(DEC_PROM_INITIAL_ARGV + 0x70)); |
2101 |
store_32bit_word(cpu, DEC_PROM_INITIAL_ARGV+8, |
2102 |
(DEC_PROM_INITIAL_ARGV + 0xe0)); |
2103 |
store_32bit_word(cpu, DEC_PROM_INITIAL_ARGV+12, 0); |
2104 |
|
2105 |
/* |
2106 |
* NetBSD and Ultrix expect the boot args to be like this: |
2107 |
* |
2108 |
* "boot" "bootdev" [args?] |
2109 |
* |
2110 |
* where bootdev is supposed to be "rz(0,0,0)netbsd" for |
2111 |
* 3100/2100 (although that crashes Ultrix :-/), and |
2112 |
* "5/rz0a/netbsd" for all others. The number '5' is the |
2113 |
* slot number of the boot device. |
2114 |
* |
2115 |
* 'rz' for disks, 'tz' for tapes. |
2116 |
* |
2117 |
* TODO: Make this nicer. |
2118 |
*/ |
2119 |
{ |
2120 |
char bootpath[200]; |
2121 |
|
2122 |
#if 0 |
2123 |
if (machine->machine_subtype == MACHINE_DEC_PMAX_3100) |
2124 |
strlcpy(bootpath, "rz(0,0,0)", sizeof(bootpath)); |
2125 |
else |
2126 |
#endif |
2127 |
strlcpy(bootpath, "5/rz1/", sizeof(bootpath)); |
2128 |
|
2129 |
if (bootdev_id < 0 || machine->force_netboot) { |
2130 |
/* tftp boot: */ |
2131 |
strlcpy(bootpath, "5/tftp/", sizeof(bootpath)); |
2132 |
bootpath[0] = '0' + boot_net_boardnumber; |
2133 |
} else { |
2134 |
/* disk boot: */ |
2135 |
bootpath[0] = '0' + boot_scsi_boardnumber; |
2136 |
if (diskimage_is_a_tape(machine, bootdev_id, |
2137 |
bootdev_type)) |
2138 |
bootpath[2] = 't'; |
2139 |
bootpath[4] = '0' + bootdev_id; |
2140 |
} |
2141 |
|
2142 |
init_bootpath = bootpath; |
2143 |
} |
2144 |
|
2145 |
bootarg = malloc(BOOTARG_BUFLEN); |
2146 |
if (bootarg == NULL) { |
2147 |
fprintf(stderr, "out of memory\n"); |
2148 |
exit(1); |
2149 |
} |
2150 |
strlcpy(bootarg, init_bootpath, BOOTARG_BUFLEN); |
2151 |
if (strlcat(bootarg, machine->boot_kernel_filename, |
2152 |
BOOTARG_BUFLEN) > BOOTARG_BUFLEN) { |
2153 |
fprintf(stderr, "bootarg truncated?\n"); |
2154 |
exit(1); |
2155 |
} |
2156 |
|
2157 |
bootstr = "boot"; |
2158 |
|
2159 |
store_string(cpu, DEC_PROM_INITIAL_ARGV+0x10, bootstr); |
2160 |
store_string(cpu, DEC_PROM_INITIAL_ARGV+0x70, bootarg); |
2161 |
store_string(cpu, DEC_PROM_INITIAL_ARGV+0xe0, |
2162 |
machine->boot_string_argument); |
2163 |
|
2164 |
/* Decrease the nr of args, if there are no args :-) */ |
2165 |
if (machine->boot_string_argument == NULL || |
2166 |
machine->boot_string_argument[0] == '\0') |
2167 |
cpu->cd.mips.gpr[MIPS_GPR_A0] --; |
2168 |
|
2169 |
if (machine->boot_string_argument[0] != '\0') { |
2170 |
strlcat(bootarg, " ", BOOTARG_BUFLEN); |
2171 |
if (strlcat(bootarg, machine->boot_string_argument, |
2172 |
BOOTARG_BUFLEN) >= BOOTARG_BUFLEN) { |
2173 |
fprintf(stderr, "bootstr truncated?\n"); |
2174 |
exit(1); |
2175 |
} |
2176 |
} |
2177 |
|
2178 |
xx.a.common.next = (char *)&xx.b - (char *)&xx; |
2179 |
xx.a.common.type = BTINFO_MAGIC; |
2180 |
xx.a.magic = BOOTINFO_MAGIC; |
2181 |
|
2182 |
xx.b.common.next = (char *)&xx.c - (char *)&xx.b; |
2183 |
xx.b.common.type = BTINFO_BOOTPATH; |
2184 |
strlcpy(xx.b.bootpath, bootstr, sizeof(xx.b.bootpath)); |
2185 |
|
2186 |
xx.c.common.next = 0; |
2187 |
xx.c.common.type = BTINFO_SYMTAB; |
2188 |
xx.c.nsym = 0; |
2189 |
xx.c.ssym = 0; |
2190 |
xx.c.esym = machine->file_loaded_end_addr; |
2191 |
|
2192 |
store_buf(cpu, BOOTINFO_ADDR, (char *)&xx, sizeof(xx)); |
2193 |
|
2194 |
/* |
2195 |
* The system's memmap: (memmap is a global variable, in |
2196 |
* dec_prom.h) |
2197 |
*/ |
2198 |
store_32bit_word_in_host(cpu, |
2199 |
(unsigned char *)&memmap.pagesize, 4096); |
2200 |
{ |
2201 |
unsigned int i; |
2202 |
for (i=0; i<sizeof(memmap.bitmap); i++) |
2203 |
memmap.bitmap[i] = ((int)i * 4096*8 < |
2204 |
1048576*machine->physical_ram_in_mb)? |
2205 |
0xff : 0x00; |
2206 |
} |
2207 |
store_buf(cpu, DEC_MEMMAP_ADDR, (char *)&memmap, sizeof(memmap)); |
2208 |
|
2209 |
/* Environment variables: */ |
2210 |
addr = DEC_PROM_STRINGS; |
2211 |
|
2212 |
if (machine->use_x11 && machine->n_gfx_cards > 0) |
2213 |
/* (0,3) Keyboard and Framebuffer */ |
2214 |
add_environment_string(cpu, framebuffer_console_name, &addr); |
2215 |
else |
2216 |
/* Serial console */ |
2217 |
add_environment_string(cpu, serial_console_name, &addr); |
2218 |
|
2219 |
/* |
2220 |
* The KN5800 (SMP system) uses a CCA (console communications |
2221 |
* area): (See VAX 6000 documentation for details.) |
2222 |
*/ |
2223 |
{ |
2224 |
char tmps[300]; |
2225 |
snprintf(tmps, sizeof(tmps), "cca=%x", |
2226 |
(int)(DEC_DECCCA_BASEADDR + 0xa0000000ULL)); |
2227 |
add_environment_string(cpu, tmps, &addr); |
2228 |
} |
2229 |
|
2230 |
/* These are needed for Sprite to boot: */ |
2231 |
{ |
2232 |
char tmps[500]; |
2233 |
|
2234 |
snprintf(tmps, sizeof(tmps), "boot=%s", bootarg); |
2235 |
tmps[sizeof(tmps)-1] = '\0'; |
2236 |
add_environment_string(cpu, tmps, &addr); |
2237 |
|
2238 |
snprintf(tmps, sizeof(tmps), "bitmap=0x%x", (uint32_t)(( |
2239 |
DEC_MEMMAP_ADDR + sizeof(memmap.pagesize)) |
2240 |
& 0xffffffffULL)); |
2241 |
tmps[sizeof(tmps)-1] = '\0'; |
2242 |
add_environment_string(cpu, tmps, &addr); |
2243 |
|
2244 |
snprintf(tmps, sizeof(tmps), "bitmaplen=0x%x", |
2245 |
machine->physical_ram_in_mb * 1048576 / 4096 / 8); |
2246 |
tmps[sizeof(tmps)-1] = '\0'; |
2247 |
add_environment_string(cpu, tmps, &addr); |
2248 |
} |
2249 |
|
2250 |
add_environment_string(cpu, "scsiid0=7", &addr); |
2251 |
add_environment_string(cpu, "bootmode=a", &addr); |
2252 |
add_environment_string(cpu, "testaction=q", &addr); |
2253 |
add_environment_string(cpu, "haltaction=h", &addr); |
2254 |
add_environment_string(cpu, "more=24", &addr); |
2255 |
|
2256 |
/* Used in at least Ultrix on the 5100: */ |
2257 |
add_environment_string(cpu, "scsiid=7", &addr); |
2258 |
add_environment_string(cpu, "baud0=9600", &addr); |
2259 |
add_environment_string(cpu, "baud1=9600", &addr); |
2260 |
add_environment_string(cpu, "baud2=9600", &addr); |
2261 |
add_environment_string(cpu, "baud3=9600", &addr); |
2262 |
add_environment_string(cpu, "iooption=0x1", &addr); |
2263 |
|
2264 |
/* The end: */ |
2265 |
add_environment_string(cpu, "", &addr); |
2266 |
|
2267 |
break; |
2268 |
|
2269 |
case MACHINE_COBALT: |
2270 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
2271 |
machine->machine_name = "Cobalt"; |
2272 |
|
2273 |
/* |
2274 |
* Interrupts seem to be the following: |
2275 |
* (according to http://www.funet.fi/pub/Linux/PEOPLE/Linus/v2.4/patch-html/patch-2.4.19/linux-2.4.19_arch_mips_cobalt_irq.c.html) |
2276 |
* |
2277 |
* 2 Galileo chip (timer) |
2278 |
* 3 Tulip 0 + NCR SCSI |
2279 |
* 4 Tulip 1 |
2280 |
* 5 16550 UART (serial console) |
2281 |
* 6 VIA southbridge PIC |
2282 |
* 7 PCI (Note: Not used. The PCI controller |
2283 |
* interrupts at ISA interrupt 9.) |
2284 |
*/ |
2285 |
|
2286 |
/* ISA interrupt controllers: */ |
2287 |
snprintf(tmpstr, sizeof(tmpstr), "8259 irq=24 addr=0x10000020"); |
2288 |
machine->md_int.isa_pic_data.pic1 = device_add(machine, tmpstr); |
2289 |
snprintf(tmpstr, sizeof(tmpstr), "8259 irq=24 addr=0x100000a0"); |
2290 |
machine->md_int.isa_pic_data.pic2 = device_add(machine, tmpstr); |
2291 |
machine->md_interrupt = cobalt_interrupt; |
2292 |
|
2293 |
dev_mc146818_init(machine, mem, 0x10000070, 0, MC146818_PC_CMOS, 4); |
2294 |
|
2295 |
machine->main_console_handle = (size_t) |
2296 |
device_add(machine, "ns16550 irq=5 addr=0x1c800000 name2=tty0 in_use=1"); |
2297 |
|
2298 |
#if 0 |
2299 |
device_add(machine, "ns16550 irq=0 addr=0x1f000010 name2=tty1 in_use=0"); |
2300 |
#endif |
2301 |
|
2302 |
/* |
2303 |
* According to NetBSD/cobalt: |
2304 |
* |
2305 |
* pchb0 at pci0 dev 0 function 0: Galileo GT-64111 System Controller, rev 1 (NOTE: added by dev_gt_init()) |
2306 |
* tlp0 at pci0 dev 7 function 0: DECchip 21143 Ethernet, pass 4.1 |
2307 |
* Symbios Logic 53c860 (SCSI mass storage, revision 0x02) at pci0 dev 8 |
2308 |
* pcib0 at pci0 dev 9 function 0, VIA Technologies VT82C586 (Apollo VP) PCI-ISA Bridge, rev 37 |
2309 |
* pciide0 at pci0 dev 9 function 1: VIA Technologies VT82C586 (Apollo VP) ATA33 cr |
2310 |
* tlp1 at pci0 dev 12 function 0: DECchip 21143 Ethernet, pass 4.1 |
2311 |
* |
2312 |
* The PCI controller interrupts at ISA interrupt 9. |
2313 |
*/ |
2314 |
pci_data = dev_gt_init(machine, mem, 0x14000000, 2, 8 + 9, 11); |
2315 |
/* bus_pci_add(machine, pci_data, mem, 0, 7, 0, pci_dec21143_init, pci_dec21143_rr); */ |
2316 |
bus_pci_add(machine, pci_data, mem, 0, 8, 0, NULL, NULL); /* PCI_VENDOR_SYMBIOS, PCI_PRODUCT_SYMBIOS_860 */ |
2317 |
bus_pci_add(machine, pci_data, mem, 0, 9, 0, pci_vt82c586_isa_init, pci_vt82c586_isa_rr); |
2318 |
bus_pci_add(machine, pci_data, mem, 0, 9, 1, pci_vt82c586_ide_init, pci_vt82c586_ide_rr); |
2319 |
/* bus_pci_add(machine, pci_data, mem, 0, 12, 0, pci_dec21143_init, pci_dec21143_rr); */ |
2320 |
|
2321 |
/* |
2322 |
* NetBSD/cobalt expects memsize in a0, but it seems that what |
2323 |
* it really wants is the end of memory + 0x80000000. |
2324 |
* |
2325 |
* The bootstring is stored 512 bytes before the end of |
2326 |
* physical ram. |
2327 |
*/ |
2328 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = |
2329 |
machine->physical_ram_in_mb * 1048576 + 0xffffffff80000000ULL; |
2330 |
bootstr = "root=/dev/hda1 ro"; |
2331 |
/* bootstr = "nfsroot=/usr/cobalt/"; */ |
2332 |
/* TODO: bootarg, and/or automagic boot device detection */ |
2333 |
store_string(cpu, cpu->cd.mips.gpr[MIPS_GPR_A0] - 512, bootstr); |
2334 |
break; |
2335 |
|
2336 |
case MACHINE_HPCMIPS: |
2337 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
2338 |
memset(&hpc_bootinfo, 0, sizeof(hpc_bootinfo)); |
2339 |
/* TODO: set platid from netbsd/usr/src/sys/arch/hpc/include/platid* */ |
2340 |
/* |
2341 |
#define PLATID_FLAGS_SHIFT 0 |
2342 |
#define PLATID_CPU_SUBMODEL_SHIFT 8 |
2343 |
#define PLATID_CPU_MODEL_SHIFT 14 |
2344 |
#define PLATID_CPU_SERIES_SHIFT 20 |
2345 |
#define PLATID_CPU_ARCH_SHIFT 26 |
2346 |
|
2347 |
#define PLATID_SUBMODEL_SHIFT 0 |
2348 |
#define PLATID_MODEL_SHIFT 8 |
2349 |
#define PLATID_SERIES_SHIFT 16 |
2350 |
#define PLATID_VENDOR_SHIFT 22 |
2351 |
*/ |
2352 |
|
2353 |
/* |
2354 |
NOTE: See http://forums.projectmayo.com/viewtopic.php?topic=2743&forum=23 |
2355 |
for info on framebuffer addresses. |
2356 |
*/ |
2357 |
|
2358 |
switch (machine->machine_subtype) { |
2359 |
case MACHINE_HPCMIPS_CASIO_BE300: |
2360 |
/* 166MHz VR4131 */ |
2361 |
machine->machine_name = "Casio Cassiopeia BE-300"; |
2362 |
hpcmips_fb_addr = 0x0a200000; |
2363 |
hpcmips_fb_xsize = 240; |
2364 |
hpcmips_fb_ysize = 320; |
2365 |
hpcmips_fb_xsize_mem = 256; |
2366 |
hpcmips_fb_ysize_mem = 320; |
2367 |
hpcmips_fb_bits = 15; |
2368 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2369 |
|
2370 |
/* TODO: irq? */ |
2371 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=0 addr=0x0a008680 addr_mult=4 in_use=%i", machine->use_x11? 0 : 1); |
2372 |
machine->main_console_handle = (size_t)device_add(machine, tmpstr); |
2373 |
|
2374 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4131); |
2375 |
machine->md_interrupt = vr41xx_interrupt; |
2376 |
|
2377 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2378 |
(1 << 26) /* 1 = MIPS */ |
2379 |
+ (1 << 20) /* 1 = VR */ |
2380 |
+ (1 << 14) /* 1 = VR41XX */ |
2381 |
+ (6 << 8) /* 6 = VR4131 */ |
2382 |
); |
2383 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2384 |
(3 << 22) /* 22: vendor 3=casio */ |
2385 |
+ (1 << 16) /* 16: series 1=CASSIOPEIAE*/ |
2386 |
+ (2 << 8) /* 8: model 2=EXXX*/ |
2387 |
+ (3) /* 0: submodel 3=E500 */ |
2388 |
); |
2389 |
/* TODO: Don't use model number for E500, it's a BE300! */ |
2390 |
break; |
2391 |
case MACHINE_HPCMIPS_CASIO_E105: |
2392 |
/* 131MHz VR4121 */ |
2393 |
machine->machine_name = "Casio Cassiopeia E-105"; |
2394 |
hpcmips_fb_addr = 0x0a200000; /* TODO? */ |
2395 |
hpcmips_fb_xsize = 240; |
2396 |
hpcmips_fb_ysize = 320; |
2397 |
hpcmips_fb_xsize_mem = 256; |
2398 |
hpcmips_fb_ysize_mem = 320; |
2399 |
hpcmips_fb_bits = 16; |
2400 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2401 |
|
2402 |
/* TODO: irq? */ |
2403 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=0 addr=0x0a008680 addr_mult=4 in_use=%i", machine->use_x11? 0 : 1); |
2404 |
machine->main_console_handle = (size_t)device_add(machine, tmpstr); |
2405 |
|
2406 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4121); |
2407 |
machine->md_interrupt = vr41xx_interrupt; |
2408 |
|
2409 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2410 |
(1 << 26) /* 1 = MIPS */ |
2411 |
+ (1 << 20) /* 1 = VR */ |
2412 |
+ (1 << 14) /* 1 = VR41XX */ |
2413 |
+ (3 << 8) /* 3 = VR4121 */ |
2414 |
); |
2415 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2416 |
(3 << 22) /* 22: vendor 3=casio */ |
2417 |
+ (1 << 16) /* 16: series 1=CASSIOPEIAE*/ |
2418 |
+ (2 << 8) /* 8: model 2=EXXX*/ |
2419 |
+ (2) /* 0: submodel 2=E105 */ |
2420 |
); |
2421 |
break; |
2422 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_770: |
2423 |
/* 131 MHz VR4121 */ |
2424 |
machine->machine_name = "NEC MobilePro 770"; |
2425 |
/* TODO: */ |
2426 |
hpcmips_fb_addr = 0xa000000; |
2427 |
hpcmips_fb_xsize = 640; |
2428 |
hpcmips_fb_ysize = 240; |
2429 |
hpcmips_fb_xsize_mem = 800; |
2430 |
hpcmips_fb_ysize_mem = 240; |
2431 |
hpcmips_fb_bits = 16; |
2432 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2433 |
|
2434 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4121); |
2435 |
machine->md_interrupt = vr41xx_interrupt; |
2436 |
|
2437 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2438 |
(1 << 26) /* 1 = MIPS */ |
2439 |
+ (1 << 20) /* 1 = VR */ |
2440 |
+ (1 << 14) /* 1 = VR41XX */ |
2441 |
+ (3 << 8) /* 3 = VR4121 */ |
2442 |
); |
2443 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2444 |
(1 << 22) /* 22: vendor 1=NEC */ |
2445 |
+ (2 << 16) /* 16: series 2="NEC MCR" */ |
2446 |
+ (2 << 8) /* 8: model 2="MCR 5XX" */ |
2447 |
+ (4) /* 0: submodel 4="MCR 520A" */ |
2448 |
); |
2449 |
break; |
2450 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_780: |
2451 |
/* 166 (or 168) MHz VR4121 */ |
2452 |
machine->machine_name = "NEC MobilePro 780"; |
2453 |
/* TODO: */ |
2454 |
hpcmips_fb_addr = 0xa180100; |
2455 |
hpcmips_fb_xsize = 640; |
2456 |
hpcmips_fb_ysize = 240; |
2457 |
hpcmips_fb_xsize_mem = 640; |
2458 |
hpcmips_fb_ysize_mem = 240; |
2459 |
hpcmips_fb_bits = 16; |
2460 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2461 |
|
2462 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4121); |
2463 |
machine->md_interrupt = vr41xx_interrupt; |
2464 |
|
2465 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2466 |
(1 << 26) /* 1 = MIPS */ |
2467 |
+ (1 << 20) /* 1 = VR */ |
2468 |
+ (1 << 14) /* 1 = VR41XX */ |
2469 |
+ (3 << 8) /* 3 = VR4121 */ |
2470 |
); |
2471 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2472 |
(1 << 22) /* 22: vendor 1=NEC */ |
2473 |
+ (2 << 16) /* 16: series 2="NEC MCR" */ |
2474 |
+ (2 << 8) /* 8: model 2="MCR 5XX" */ |
2475 |
+ (8) /* 0: submodel 8="MCR 530A" */ |
2476 |
); |
2477 |
break; |
2478 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_800: |
2479 |
/* 131 MHz VR4121 */ |
2480 |
machine->machine_name = "NEC MobilePro 800"; |
2481 |
/* TODO: */ |
2482 |
hpcmips_fb_addr = 0xa000000; |
2483 |
hpcmips_fb_xsize = 800; |
2484 |
hpcmips_fb_ysize = 600; |
2485 |
hpcmips_fb_xsize_mem = 800; |
2486 |
hpcmips_fb_ysize_mem = 600; |
2487 |
hpcmips_fb_bits = 16; |
2488 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2489 |
|
2490 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4121); |
2491 |
machine->md_interrupt = vr41xx_interrupt; |
2492 |
|
2493 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2494 |
(1 << 26) /* 1 = MIPS */ |
2495 |
+ (1 << 20) /* 1 = VR */ |
2496 |
+ (1 << 14) /* 1 = VR41XX */ |
2497 |
+ (3 << 8) /* 3 = VR4121 */ |
2498 |
); |
2499 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2500 |
(1 << 22) /* 22: vendor 1=NEC */ |
2501 |
+ (2 << 16) /* 16: series 2="NEC MCR" */ |
2502 |
+ (3 << 8) /* 8: model 3="MCR 7XX" */ |
2503 |
+ (2) /* 0: submodel 2="MCR 700A" */ |
2504 |
); |
2505 |
break; |
2506 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_880: |
2507 |
/* 168 MHz VR4121 */ |
2508 |
machine->machine_name = "NEC MobilePro 880"; |
2509 |
/* TODO: */ |
2510 |
hpcmips_fb_addr = 0xa0ea600; |
2511 |
hpcmips_fb_xsize = 800; |
2512 |
hpcmips_fb_ysize = 600; |
2513 |
hpcmips_fb_xsize_mem = 800; |
2514 |
hpcmips_fb_ysize_mem = 600; |
2515 |
hpcmips_fb_bits = 16; |
2516 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2517 |
|
2518 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4121); |
2519 |
machine->md_interrupt = vr41xx_interrupt; |
2520 |
|
2521 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2522 |
(1 << 26) /* 1 = MIPS */ |
2523 |
+ (1 << 20) /* 1 = VR */ |
2524 |
+ (1 << 14) /* 1 = VR41XX */ |
2525 |
+ (3 << 8) /* 3 = VR4121 */ |
2526 |
); |
2527 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2528 |
(1 << 22) /* 22: vendor 1=NEC */ |
2529 |
+ (2 << 16) /* 16: series 2="NEC MCR" */ |
2530 |
+ (3 << 8) /* 8: model 3="MCR 7XX" */ |
2531 |
+ (4) /* 0: submodel 4="MCR 730A" */ |
2532 |
); |
2533 |
break; |
2534 |
case MACHINE_HPCMIPS_AGENDA_VR3: |
2535 |
/* 66 MHz VR4181 */ |
2536 |
machine->machine_name = "Agenda VR3"; |
2537 |
/* TODO: */ |
2538 |
hpcmips_fb_addr = 0x1000; |
2539 |
hpcmips_fb_xsize = 160; |
2540 |
hpcmips_fb_ysize = 240; |
2541 |
hpcmips_fb_xsize_mem = 160; |
2542 |
hpcmips_fb_ysize_mem = 240; |
2543 |
hpcmips_fb_bits = 4; |
2544 |
hpcmips_fb_encoding = BIFB_D4_M2L_F; |
2545 |
|
2546 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4181); |
2547 |
machine->md_interrupt = vr41xx_interrupt; |
2548 |
|
2549 |
/* TODO: Hm... irq 17 according to linux, but |
2550 |
VRIP_INTR_SIU (=9) here? */ |
2551 |
{ |
2552 |
int x; |
2553 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=%i addr=0x0c000010", 8 + VRIP_INTR_SIU); |
2554 |
x = (size_t)device_add(machine, tmpstr); |
2555 |
|
2556 |
if (!machine->use_x11) |
2557 |
machine->main_console_handle = x; |
2558 |
} |
2559 |
|
2560 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2561 |
(1 << 26) /* 1 = MIPS */ |
2562 |
+ (1 << 20) /* 1 = VR */ |
2563 |
+ (1 << 14) /* 1 = VR41XX */ |
2564 |
+ (4 << 8) /* 4 = VR4181 */ |
2565 |
); |
2566 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2567 |
(15 << 22) /* 22: vendor 15=Agenda */ |
2568 |
+ (1 << 16) /* 16: series 2=VR */ |
2569 |
+ (1 << 8) /* 8: model 1=VR3 */ |
2570 |
+ (0) /* 0: submodel 0="VR3" */ |
2571 |
); |
2572 |
|
2573 |
dev_ram_init(mem, 0x0f000000, 0x01000000, DEV_RAM_MIRROR, 0x0); |
2574 |
break; |
2575 |
case MACHINE_HPCMIPS_IBM_WORKPAD_Z50: |
2576 |
/* 131 MHz VR4121 */ |
2577 |
machine->machine_name = "IBM Workpad Z50"; |
2578 |
/* TODO: */ |
2579 |
hpcmips_fb_addr = 0xa000000; |
2580 |
hpcmips_fb_xsize = 640; |
2581 |
hpcmips_fb_ysize = 480; |
2582 |
hpcmips_fb_xsize_mem = 640; |
2583 |
hpcmips_fb_ysize_mem = 480; |
2584 |
hpcmips_fb_bits = 16; |
2585 |
hpcmips_fb_encoding = BIFB_D16_0000; |
2586 |
|
2587 |
machine->md_int.vr41xx_data = dev_vr41xx_init(machine, mem, 4121); |
2588 |
machine->md_interrupt = vr41xx_interrupt; |
2589 |
|
2590 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_cpu, |
2591 |
(1 << 26) /* 1 = MIPS */ |
2592 |
+ (1 << 20) /* 1 = VR */ |
2593 |
+ (1 << 14) /* 1 = VR41XX */ |
2594 |
+ (3 << 8) /* 3 = VR4121 */ |
2595 |
); |
2596 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.platid_machine, |
2597 |
(9 << 22) /* 22: vendor 9=IBM */ |
2598 |
+ (1 << 16) /* 16: series 1=WorkPad */ |
2599 |
+ (1 << 8) /* 8: model 1=Z50 */ |
2600 |
+ (0) /* 0: submodel 0 */ |
2601 |
); |
2602 |
break; |
2603 |
default: |
2604 |
printf("Unimplemented hpcmips machine number.\n"); |
2605 |
exit(1); |
2606 |
} |
2607 |
|
2608 |
if (machine->use_x11) |
2609 |
machine->main_console_handle = |
2610 |
machine->md_int.vr41xx_data->kiu_console_handle; |
2611 |
|
2612 |
/* NetBSD/hpcmips and possibly others expects the following: */ |
2613 |
|
2614 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = 1; /* argc */ |
2615 |
cpu->cd.mips.gpr[MIPS_GPR_A1] = machine->physical_ram_in_mb * 1048576 |
2616 |
+ 0xffffffff80000000ULL - 512; /* argv */ |
2617 |
cpu->cd.mips.gpr[MIPS_GPR_A2] = machine->physical_ram_in_mb * 1048576 |
2618 |
+ 0xffffffff80000000ULL - 256; /* ptr to hpc_bootinfo */ |
2619 |
|
2620 |
bootstr = machine->boot_kernel_filename; |
2621 |
store_32bit_word(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 16); |
2622 |
store_32bit_word(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 4, 0); |
2623 |
store_string(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 16, bootstr); |
2624 |
|
2625 |
/* Special case for the Agenda VR3: */ |
2626 |
if (machine->machine_subtype == MACHINE_HPCMIPS_AGENDA_VR3) { |
2627 |
const int tmplen = 1000; |
2628 |
char *tmp = malloc(tmplen); |
2629 |
|
2630 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = 2; /* argc */ |
2631 |
|
2632 |
store_32bit_word(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 4, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 64); |
2633 |
store_32bit_word(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 8, 0); |
2634 |
|
2635 |
snprintf(tmp, tmplen, "root=/dev/rom video=vr4181fb:xres:160,yres:240,bpp:4," |
2636 |
"gray,hpck:3084,inv ether=0,0x03fe0300,eth0"); |
2637 |
tmp[tmplen-1] = '\0'; |
2638 |
|
2639 |
if (!machine->use_x11) |
2640 |
snprintf(tmp+strlen(tmp), tmplen-strlen(tmp), " console=ttyS0,115200"); |
2641 |
tmp[tmplen-1] = '\0'; |
2642 |
|
2643 |
if (machine->boot_string_argument[0]) |
2644 |
snprintf(tmp+strlen(tmp), tmplen-strlen(tmp), " %s", machine->boot_string_argument); |
2645 |
tmp[tmplen-1] = '\0'; |
2646 |
|
2647 |
store_string(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 64, tmp); |
2648 |
|
2649 |
bootarg = tmp; |
2650 |
} else if (machine->boot_string_argument[0]) { |
2651 |
cpu->cd.mips.gpr[MIPS_GPR_A0] ++; /* argc */ |
2652 |
|
2653 |
store_32bit_word(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 4, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 64); |
2654 |
store_32bit_word(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 8, 0); |
2655 |
|
2656 |
store_string(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 512 + 64, |
2657 |
machine->boot_string_argument); |
2658 |
|
2659 |
bootarg = machine->boot_string_argument; |
2660 |
} |
2661 |
|
2662 |
store_16bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.length, sizeof(hpc_bootinfo)); |
2663 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.magic, HPC_BOOTINFO_MAGIC); |
2664 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.fb_addr, 0x80000000 + hpcmips_fb_addr); |
2665 |
store_16bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.fb_line_bytes, hpcmips_fb_xsize_mem * (((hpcmips_fb_bits-1)|7)+1) / 8); |
2666 |
store_16bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.fb_width, hpcmips_fb_xsize); |
2667 |
store_16bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.fb_height, hpcmips_fb_ysize); |
2668 |
store_16bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.fb_type, hpcmips_fb_encoding); |
2669 |
store_16bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.bi_cnuse, BI_CNUSE_BUILTIN); /* _BUILTIN or _SERIAL */ |
2670 |
|
2671 |
/* printf("hpc_bootinfo.platid_cpu = 0x%08x\n", hpc_bootinfo.platid_cpu); |
2672 |
printf("hpc_bootinfo.platid_machine = 0x%08x\n", hpc_bootinfo.platid_machine); */ |
2673 |
store_32bit_word_in_host(cpu, (unsigned char *)&hpc_bootinfo.timezone, 0); |
2674 |
store_buf(cpu, 0x80000000 + machine->physical_ram_in_mb * 1048576 - 256, (char *)&hpc_bootinfo, sizeof(hpc_bootinfo)); |
2675 |
|
2676 |
if (hpcmips_fb_addr != 0) { |
2677 |
dev_fb_init(machine, mem, hpcmips_fb_addr, VFB_HPCMIPS, |
2678 |
hpcmips_fb_xsize, hpcmips_fb_ysize, |
2679 |
hpcmips_fb_xsize_mem, hpcmips_fb_ysize_mem, |
2680 |
hpcmips_fb_bits, "HPCmips"); |
2681 |
|
2682 |
/* NetBSD/hpcmips uses framebuffer at physical |
2683 |
address 0x8.......: */ |
2684 |
dev_ram_init(mem, 0x80000000, 0x20000000, |
2685 |
DEV_RAM_MIRROR, 0x0); |
2686 |
} |
2687 |
|
2688 |
break; |
2689 |
|
2690 |
case MACHINE_PS2: |
2691 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
2692 |
machine->machine_name = "Playstation 2"; |
2693 |
|
2694 |
if (machine->physical_ram_in_mb != 32) |
2695 |
fprintf(stderr, "WARNING! Playstation 2 machines are supposed to have exactly 32 MB RAM. Continuing anyway.\n"); |
2696 |
if (!machine->use_x11) |
2697 |
fprintf(stderr, "WARNING! Playstation 2 without -X is pretty meaningless. Continuing anyway.\n"); |
2698 |
|
2699 |
/* |
2700 |
* According to NetBSD: |
2701 |
* Hardware irq 0 is timer/interrupt controller |
2702 |
* Hardware irq 1 is dma controller |
2703 |
* |
2704 |
* Some things are not yet emulated (at all), and hence are detected incorrectly: |
2705 |
* sbus0 at mainbus0: controller type 2 |
2706 |
* ohci0 at sbus0 (at 0x1f801600, according to linux) |
2707 |
* ohci0: OHCI version 1.0 |
2708 |
*/ |
2709 |
|
2710 |
machine->md_int.ps2_data = dev_ps2_stuff_init(machine, mem, 0x10000000); |
2711 |
device_add(machine, "ps2_gs addr=0x12000000"); |
2712 |
device_add(machine, "ps2_ether addr=0x14001000"); |
2713 |
dev_ram_init(mem, 0x1c000000, 4 * 1048576, DEV_RAM_RAM, 0); /* TODO: how much? */ |
2714 |
/* irq = 8 + 32 + 1 (SBUS/USB) */ |
2715 |
device_add(machine, "ohci addr=0x1f801600 irq=41"); |
2716 |
|
2717 |
machine->md_interrupt = ps2_interrupt; |
2718 |
|
2719 |
add_symbol_name(&machine->symbol_context, |
2720 |
PLAYSTATION2_SIFBIOS, 0x10000, "[SIFBIOS entry]", 0, 0); |
2721 |
store_32bit_word(cpu, PLAYSTATION2_BDA + 0, PLAYSTATION2_SIFBIOS); |
2722 |
store_buf(cpu, PLAYSTATION2_BDA + 4, "PS2b", 4); |
2723 |
|
2724 |
/* Set the Harddisk controller present flag, if either |
2725 |
disk 0 or 1 is present: */ |
2726 |
if (diskimage_exist(machine, 0, DISKIMAGE_IDE) || |
2727 |
diskimage_exist(machine, 1, DISKIMAGE_IDE)) { |
2728 |
store_32bit_word(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x0, 0x100); |
2729 |
dev_ps2_spd_init(machine, mem, 0x14000000); |
2730 |
} |
2731 |
|
2732 |
store_32bit_word(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x4, PLAYSTATION2_OPTARGS); |
2733 |
{ |
2734 |
int tmplen = 1000; |
2735 |
char *tmp = malloc(tmplen); |
2736 |
if (tmp == NULL) { |
2737 |
fprintf(stderr, "out of memory\n"); |
2738 |
exit(1); |
2739 |
} |
2740 |
|
2741 |
strlcpy(tmp, "root=/dev/hda1 crtmode=vesa0,60", tmplen); |
2742 |
|
2743 |
if (machine->boot_string_argument[0]) |
2744 |
snprintf(tmp+strlen(tmp), tmplen-strlen(tmp), |
2745 |
" %s", machine->boot_string_argument); |
2746 |
tmp[tmplen-1] = '\0'; |
2747 |
|
2748 |
bootstr = tmp; |
2749 |
store_string(cpu, PLAYSTATION2_OPTARGS, bootstr); |
2750 |
} |
2751 |
|
2752 |
/* TODO: netbsd's bootinfo.h, for symbolic names */ |
2753 |
{ |
2754 |
time_t timet; |
2755 |
struct tm *tmp; |
2756 |
|
2757 |
/* RTC data given by the BIOS: */ |
2758 |
timet = time(NULL) + 9*3600; /* PS2 uses Japanese time */ |
2759 |
tmp = gmtime(&timet); |
2760 |
/* TODO: are these 0- or 1-based? */ |
2761 |
store_byte(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x10 + 1, int_to_bcd(tmp->tm_sec)); |
2762 |
store_byte(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x10 + 2, int_to_bcd(tmp->tm_min)); |
2763 |
store_byte(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x10 + 3, int_to_bcd(tmp->tm_hour)); |
2764 |
store_byte(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x10 + 5, int_to_bcd(tmp->tm_mday)); |
2765 |
store_byte(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x10 + 6, int_to_bcd(tmp->tm_mon + 1)); |
2766 |
store_byte(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x10 + 7, int_to_bcd(tmp->tm_year - 100)); |
2767 |
} |
2768 |
|
2769 |
/* "BOOTINFO_PCMCIA_TYPE" in NetBSD's bootinfo.h. This contains the sbus controller type. */ |
2770 |
store_32bit_word(cpu, 0xa0000000 + machine->physical_ram_in_mb*1048576 - 0x1000 + 0x1c, 2); |
2771 |
|
2772 |
break; |
2773 |
|
2774 |
case MACHINE_SGI: |
2775 |
case MACHINE_ARC: |
2776 |
/* |
2777 |
* SGI and ARC emulation share a lot of code. (SGI is a special case of |
2778 |
* "almost ARC".) |
2779 |
* |
2780 |
* http://obsolete.majix.org/computers/sgi/iptable.shtml contains a pretty |
2781 |
* detailed list of IP ("Inhouse Processor") model numbers. |
2782 |
* (Or http://hardware.majix.org/computers/sgi/iptable.shtml) |
2783 |
*/ |
2784 |
machine->machine_name = malloc(MACHINE_NAME_MAXBUF); |
2785 |
if (machine->machine_name == NULL) { |
2786 |
fprintf(stderr, "out of memory\n"); |
2787 |
exit(1); |
2788 |
} |
2789 |
|
2790 |
if (machine->machine_type == MACHINE_SGI) { |
2791 |
cpu->byte_order = EMUL_BIG_ENDIAN; |
2792 |
snprintf(machine->machine_name, MACHINE_NAME_MAXBUF, |
2793 |
"SGI-IP%i", machine->machine_subtype); |
2794 |
|
2795 |
sgi_ram_offset = 1048576 * machine->memory_offset_in_mb; |
2796 |
|
2797 |
/* Special cases for IP20,22,24,26 memory offset: */ |
2798 |
if (machine->machine_subtype == 20 || machine->machine_subtype == 22 || |
2799 |
machine->machine_subtype == 24 || machine->machine_subtype == 26) { |
2800 |
dev_ram_init(mem, 0x00000000, 0x10000, DEV_RAM_MIRROR, sgi_ram_offset); |
2801 |
dev_ram_init(mem, 0x00050000, sgi_ram_offset-0x50000, DEV_RAM_MIRROR, sgi_ram_offset + 0x50000); |
2802 |
} |
2803 |
|
2804 |
/* Special cases for IP28,30 memory offset: */ |
2805 |
if (machine->machine_subtype == 28 || machine->machine_subtype == 30) { |
2806 |
/* TODO: length below should maybe not be 128MB? */ |
2807 |
dev_ram_init(mem, 0x00000000, 128*1048576, DEV_RAM_MIRROR, sgi_ram_offset); |
2808 |
} |
2809 |
} else { |
2810 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
2811 |
snprintf(machine->machine_name, |
2812 |
MACHINE_NAME_MAXBUF, "ARC"); |
2813 |
} |
2814 |
|
2815 |
if (machine->machine_type == MACHINE_SGI) { |
2816 |
/* TODO: Other SGI machine types? */ |
2817 |
switch (machine->machine_subtype) { |
2818 |
case 12: |
2819 |
strlcat(machine->machine_name, |
2820 |
" (Iris Indigo IP12)", MACHINE_NAME_MAXBUF); |
2821 |
|
2822 |
/* TODO */ |
2823 |
/* 33 MHz R3000, according to http://www.irisindigo.com/ */ |
2824 |
/* "capable of addressing up to 96MB of memory." */ |
2825 |
|
2826 |
break; |
2827 |
case 19: |
2828 |
strlcat(machine->machine_name, |
2829 |
" (Everest IP19)", MACHINE_NAME_MAXBUF); |
2830 |
machine->main_console_handle = |
2831 |
dev_zs_init(machine, mem, 0x1fbd9830, 0, 1, "serial zs"); /* serial? netbsd? */ |
2832 |
dev_scc_init(machine, mem, 0x10086000, 0, machine->use_x11, 0, 8); /* serial? irix? */ |
2833 |
|
2834 |
device_add(machine, "sgi_ip19 addr=0x18000000"); |
2835 |
|
2836 |
/* Irix' <everest_du_init+0x130> reads this device: */ |
2837 |
device_add(machine, "random addr=0x10006000 len=16"); |
2838 |
|
2839 |
/* Irix' get_mpconf() looks for this: (TODO) */ |
2840 |
store_32bit_word(cpu, 0xa0000000 + 0x3000, |
2841 |
0xbaddeed2); |
2842 |
|
2843 |
/* Memory size, not 4096 byte pages, but 256 bytes? (16 is size of kernel... approx) */ |
2844 |
store_32bit_word(cpu, 0xa0000000 + 0x26d0, |
2845 |
30000); /* (machine->physical_ram_in_mb - 16) * (1048576 / 256)); */ |
2846 |
|
2847 |
break; |
2848 |
case 20: |
2849 |
strlcat(machine->machine_name, |
2850 |
" (Indigo)", MACHINE_NAME_MAXBUF); |
2851 |
|
2852 |
/* |
2853 |
* Guesses based on NetBSD 2.0 beta, 20040606. |
2854 |
* |
2855 |
* int0 at mainbus0 addr 0x1fb801c0: bus 1MHz, CPU 2MHz |
2856 |
* imc0 at mainbus0 addr 0x1fa00000: revision 0 |
2857 |
* gio0 at imc0 |
2858 |
* unknown GIO card (product 0x00 revision 0x00) at gio0 slot 0 addr 0x1f400000 not configured |
2859 |
* unknown GIO card (product 0x00 revision 0x00) at gio0 slot 1 addr 0x1f600000 not configured |
2860 |
* unknown GIO card (product 0x00 revision 0x00) at gio0 slot 2 addr 0x1f000000 not configured |
2861 |
* hpc0 at gio0 addr 0x1fb80000: SGI HPC1 |
2862 |
* zsc0 at hpc0 offset 0xd10 (channels 0 and 1, channel 1 for console) |
2863 |
* zsc1 at hpc0 offset 0xd00 (2 channels) |
2864 |
* sq0 at hpc0 offset 0x100: SGI Seeq 80c03 |
2865 |
* wdsc0 at hpc0 offset 0x11f |
2866 |
* dpclock0 at hpc0 offset 0xe00 |
2867 |
*/ |
2868 |
|
2869 |
/* int0 at mainbus0 addr 0x1fb801c0 */ |
2870 |
machine->md_int.sgi_ip20_data = dev_sgi_ip20_init(cpu, mem, DEV_SGI_IP20_BASE); |
2871 |
|
2872 |
/* imc0 at mainbus0 addr 0x1fa00000: revision 0: TODO (or in dev_sgi_ip20?) */ |
2873 |
|
2874 |
dev_zs_init(machine, mem, 0x1fbd9830, 0, 1, "zs console"); |
2875 |
|
2876 |
/* This is the zsc0 reported by NetBSD: TODO: irqs */ |
2877 |
machine->main_console_handle = dev_zs_init(machine, mem, 0x1fb80d10, 0, 1, "zsc0"); /* zsc0 */ |
2878 |
dev_zs_init(machine, mem, 0x1fb80d00, 0, 1, "zsc1"); /* zsc1 */ |
2879 |
|
2880 |
/* WDSC SCSI controller: */ |
2881 |
dev_wdsc_init(machine, mem, 0x1fb8011f, 0, 0); |
2882 |
|
2883 |
/* Return memory read errors so that hpc1 |
2884 |
and hpc2 are not detected: */ |
2885 |
device_add(machine, "unreadable addr=0x1fb00000 len=0x10000"); |
2886 |
device_add(machine, "unreadable addr=0x1f980000 len=0x10000"); |
2887 |
|
2888 |
/* Return nothing for gio slots 0, 1, and 2: */ |
2889 |
device_add(machine, "unreadable addr=0x1f400000 len=0x1000"); /* gio0 slot 0 */ |
2890 |
device_add(machine, "unreadable addr=0x1f600000 len=0x1000"); /* gio0 slot 1 */ |
2891 |
device_add(machine, "unreadable addr=0x1f000000 len=0x1000"); /* gio0 slot 2 */ |
2892 |
|
2893 |
break; |
2894 |
case 21: |
2895 |
strlcat(machine->machine_name, /* TODO */ |
2896 |
" (uknown SGI-IP21 ?)", MACHINE_NAME_MAXBUF); |
2897 |
/* NOTE: Special case for arc_wordlen: */ |
2898 |
arc_wordlen = sizeof(uint64_t); |
2899 |
|
2900 |
device_add(machine, "random addr=0x418000200, len=0x20000"); |
2901 |
|
2902 |
break; |
2903 |
case 22: |
2904 |
case 24: |
2905 |
if (machine->machine_subtype == 22) { |
2906 |
strlcat(machine->machine_name, |
2907 |
" (Indy, Indigo2, Challenge S; Full-house)", |
2908 |
MACHINE_NAME_MAXBUF); |
2909 |
machine->md_int.sgi_ip22_data = dev_sgi_ip22_init(machine, mem, 0x1fbd9000, 0); |
2910 |
} else { |
2911 |
strlcat(machine->machine_name, |
2912 |
" (Indy, Indigo2, Challenge S; Guiness)", |
2913 |
MACHINE_NAME_MAXBUF); |
2914 |
machine->md_int.sgi_ip22_data = dev_sgi_ip22_init(machine, mem, 0x1fbd9880, 1); |
2915 |
} |
2916 |
|
2917 |
/* |
2918 |
Why is this here? TODO |
2919 |
dev_ram_init(mem, 0x88000000ULL, |
2920 |
128 * 1048576, DEV_RAM_MIRROR, 0x08000000); |
2921 |
*/ |
2922 |
machine->md_interrupt = sgi_ip22_interrupt; |
2923 |
|
2924 |
/* |
2925 |
* According to NetBSD 1.6.2: |
2926 |
* |
2927 |
* imc0 at mainbus0 addr 0x1fa00000, Revision 0 |
2928 |
* gio0 at imc0 |
2929 |
* hpc0 at gio0 addr 0x1fb80000: SGI HPC3 |
2930 |
* zsc0 at hpc0 offset 0x59830 |
2931 |
* zstty0 at zsc0 channel 1 (console i/o) |
2932 |
* zstty1 at zsc0 channel 0 |
2933 |
* sq0 at hpc0 offset 0x54000: SGI Seeq 80c03 (Ethernet) |
2934 |
* wdsc0 at hpc0 offset 0x44000: WD33C93 SCSI, rev=0, target 7 |
2935 |
* scsibus2 at wdsc0: 8 targets, 8 luns per target |
2936 |
* dsclock0 at hpc0 offset 0x60000 |
2937 |
* |
2938 |
* According to Linux/IP22: |
2939 |
* tty00 at 0xbfbd9830 (irq = 45) is a Zilog8530 |
2940 |
* tty01 at 0xbfbd9838 (irq = 45) is a Zilog8530 |
2941 |
* |
2942 |
* and according to NetBSD 2.0_BETA (20040606): |
2943 |
* |
2944 |
* haltwo0 at hpc0 offset 0x58000: HAL2 revision 0.0.0 |
2945 |
* audio0 at haltwo0: half duplex |
2946 |
* |
2947 |
* IRQ numbers are of the form 8 + x, where x = 0..31 for local0 |
2948 |
* interrupts, and 32..63 for local1. + y*65 for "mappable". |
2949 |
*/ |
2950 |
|
2951 |
/* zsc0 serial console. */ |
2952 |
i = dev_zs_init(machine, mem, 0x1fbd9830, |
2953 |
8 + 32 + 3 + 64*5, 1, "zsc0"); |
2954 |
|
2955 |
/* Not supported by NetBSD 1.6.2, but by 2.0_BETA: */ |
2956 |
j = dev_pckbc_init(machine, mem, 0x1fbd9840, PCKBC_8242, |
2957 |
0, 0, machine->use_x11, 0); /* TODO: irq numbers */ |
2958 |
|
2959 |
if (machine->use_x11) |
2960 |
machine->main_console_handle = j; |
2961 |
|
2962 |
/* sq0: Ethernet. TODO: This should have irq_nr = 8 + 3 */ |
2963 |
/* dev_sq_init... */ |
2964 |
|
2965 |
/* wdsc0: SCSI */ |
2966 |
dev_wdsc_init(machine, mem, 0x1fbc4000, 0, 8 + 1); |
2967 |
|
2968 |
/* wdsc1: SCSI TODO: irq nr */ |
2969 |
dev_wdsc_init(machine, mem, 0x1fbcc000, 1, 8 + 1); |
2970 |
|
2971 |
/* dsclock0: TODO: possibly irq 8 + 33 */ |
2972 |
|
2973 |
/* Return memory read errors so that hpc1 and hpc2 are not detected: */ |
2974 |
device_add(machine, "unreadable addr=0x1fb00000, len=0x10000"); |
2975 |
device_add(machine, "unreadable addr=0x1f980000, len=0x10000"); |
2976 |
|
2977 |
/* Similarly for gio slots 0, 1, and 2: */ |
2978 |
device_add(machine, "unreadable addr=0x1f400000, len=0x1000"); /* gio0 slot 0 */ |
2979 |
device_add(machine, "unreadable addr=0x1f600000, len=0x1000"); /* gio0 slot 1 */ |
2980 |
device_add(machine, "unreadable addr=0x1f000000, len=0x1000"); /* gio0 slot 2 */ |
2981 |
|
2982 |
break; |
2983 |
case 25: |
2984 |
/* NOTE: Special case for arc_wordlen: */ |
2985 |
arc_wordlen = sizeof(uint64_t); |
2986 |
strlcat(machine->machine_name, |
2987 |
" (Everest IP25)", MACHINE_NAME_MAXBUF); |
2988 |
|
2989 |
/* serial? irix? */ |
2990 |
dev_scc_init(machine, mem, |
2991 |
0x400086000ULL, 0, machine->use_x11, 0, 8); |
2992 |
|
2993 |
/* NOTE: ip19! (perhaps not really the same */ |
2994 |
device_add(machine, "sgi_ip19 addr=0x18000000"); |
2995 |
|
2996 |
/* |
2997 |
* Memory size, not 4096 byte pages, but 256 |
2998 |
* bytes? (16 is size of kernel... approx) |
2999 |
*/ |
3000 |
store_32bit_word(cpu, 0xa0000000ULL + 0x26d0, |
3001 |
30000); /* (machine->physical_ram_in_mb - 16) |
3002 |
* (1048576 / 256)); */ |
3003 |
|
3004 |
break; |
3005 |
case 26: |
3006 |
/* NOTE: Special case for arc_wordlen: */ |
3007 |
arc_wordlen = sizeof(uint64_t); |
3008 |
strlcat(machine->machine_name, |
3009 |
" (uknown SGI-IP26 ?)", |
3010 |
MACHINE_NAME_MAXBUF); /* TODO */ |
3011 |
machine->main_console_handle = |
3012 |
dev_zs_init(machine, mem, 0x1fbd9830, |
3013 |
0, 1, "zs console"); |
3014 |
break; |
3015 |
case 27: |
3016 |
strlcat(machine->machine_name, |
3017 |
" (Origin 200/2000, Onyx2)", |
3018 |
MACHINE_NAME_MAXBUF); |
3019 |
arc_wordlen = sizeof(uint64_t); |
3020 |
/* 2 cpus per node */ |
3021 |
|
3022 |
machine->main_console_handle = |
3023 |
dev_zs_init(machine, mem, 0x1fbd9830, |
3024 |
0, 1, "zs console"); |
3025 |
break; |
3026 |
case 28: |
3027 |
/* NOTE: Special case for arc_wordlen: */ |
3028 |
arc_wordlen = sizeof(uint64_t); |
3029 |
strlcat(machine->machine_name, |
3030 |
" (Impact Indigo2 ?)", MACHINE_NAME_MAXBUF); |
3031 |
|
3032 |
device_add(machine, "random addr=0x1fbe0000, len=1"); |
3033 |
|
3034 |
/* Something at paddr 0x1880fb0000. */ |
3035 |
|
3036 |
break; |
3037 |
case 30: |
3038 |
/* NOTE: Special case for arc_wordlen: */ |
3039 |
arc_wordlen = sizeof(uint64_t); |
3040 |
strlcat(machine->machine_name, |
3041 |
" (Octane)", MACHINE_NAME_MAXBUF); |
3042 |
|
3043 |
machine->md_int.sgi_ip30_data = dev_sgi_ip30_init(machine, mem, 0x0ff00000); |
3044 |
machine->md_interrupt = sgi_ip30_interrupt; |
3045 |
|
3046 |
dev_ram_init(mem, 0xa0000000ULL, |
3047 |
128 * 1048576, DEV_RAM_MIRROR, 0x00000000); |
3048 |
|
3049 |
dev_ram_init(mem, 0x80000000ULL, |
3050 |
32 * 1048576, DEV_RAM_RAM, 0x00000000); |
3051 |
|
3052 |
/* |
3053 |
* Something at paddr=1f022004: TODO |
3054 |
* Something at paddr=813f0510 - paddr=813f0570 ? |
3055 |
* Something at paddr=813f04b8 |
3056 |
* Something at paddr=f8000003c used by Linux/Octane |
3057 |
* |
3058 |
* 16550 serial port at paddr=1f620178, addr mul 1 |
3059 |
* (Error messages are printed to this serial port by the PROM.) |
3060 |
* |
3061 |
* There seems to also be a serial port at 1f620170. The "symmon" |
3062 |
* program dumps something there, but it doesn't look like |
3063 |
* readable text. (TODO) |
3064 |
*/ |
3065 |
|
3066 |
/* TODO: irq! */ |
3067 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=0 addr=0x1f620170 name2=tty0 in_use=%i", machine->use_x11? 0 : 1); |
3068 |
machine->main_console_handle = (size_t)device_add(machine, tmpstr); |
3069 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=0 addr=0x1f620178 name2=tty1 in_use=0"); |
3070 |
device_add(machine, tmpstr); |
3071 |
|
3072 |
/* MardiGras graphics: */ |
3073 |
device_add(machine, "sgi_mardigras addr=0x1c000000"); |
3074 |
|
3075 |
break; |
3076 |
case 32: |
3077 |
strlcat(machine->machine_name, |
3078 |
" (O2)", MACHINE_NAME_MAXBUF); |
3079 |
|
3080 |
/* TODO: Find out where the physical ram is actually located. */ |
3081 |
dev_ram_init(mem, 0x07ffff00ULL, 256, DEV_RAM_MIRROR, 0x03ffff00); |
3082 |
dev_ram_init(mem, 0x10000000ULL, 256, DEV_RAM_MIRROR, 0x00000000); |
3083 |
dev_ram_init(mem, 0x11ffff00ULL, 256, DEV_RAM_MIRROR, 0x01ffff00); |
3084 |
dev_ram_init(mem, 0x12000000ULL, 256, DEV_RAM_MIRROR, 0x02000000); |
3085 |
dev_ram_init(mem, 0x17ffff00ULL, 256, DEV_RAM_MIRROR, 0x03ffff00); |
3086 |
dev_ram_init(mem, 0x20000000ULL, 128 * 1048576, DEV_RAM_MIRROR, 0x00000000); |
3087 |
dev_ram_init(mem, 0x40000000ULL, 128 * 1048576, DEV_RAM_MIRROR, 0x10000000); |
3088 |
|
3089 |
machine->md_int.ip32.crime_data = dev_crime_init(machine, mem, 0x14000000, 2, machine->use_x11); /* crime0 */ |
3090 |
dev_sgi_mte_init(mem, 0x15000000); /* mte ??? memory thing */ |
3091 |
dev_sgi_gbe_init(machine, mem, 0x16000000); /* gbe? framebuffer? */ |
3092 |
|
3093 |
/* |
3094 |
* A combination of NetBSD and Linux info: |
3095 |
* |
3096 |
* 17000000 vice (Video Image Compression Engine) |
3097 |
* 1f000000 mace |
3098 |
* 1f080000 macepci |
3099 |
* 1f100000 vin1 |
3100 |
* 1f180000 vin2 |
3101 |
* 1f200000 vout |
3102 |
* 1f280000 enet (mec0, MAC-110 Ethernet) |
3103 |
* 1f300000 perif: |
3104 |
* 1f300000 audio |
3105 |
* 1f310000 isa |
3106 |
* 1f318000 (accessed by Irix' pciio_pio_write64) |
3107 |
* 1f320000 kbdms |
3108 |
* 1f330000 i2c |
3109 |
* 1f340000 ust |
3110 |
* 1f380000 isa ext |
3111 |
* 1f390000 com0 (serial) |
3112 |
* 1f398000 com1 (serial) |
3113 |
* 1f3a0000 mcclock0 |
3114 |
*/ |
3115 |
|
3116 |
machine->md_int.ip32.mace_data = dev_mace_init(mem, 0x1f310000, 2); |
3117 |
machine->md_interrupt = sgi_ip32_interrupt; |
3118 |
|
3119 |
/* |
3120 |
* IRQ mapping is really ugly. TODO: fix |
3121 |
* |
3122 |
* com0 at mace0 offset 0x390000 intr 4 intrmask 0x3f00000: ns16550a, working fifo |
3123 |
* com1 at mace0 offset 0x398000 intr 4 intrmask 0xfc000000: ns16550a, working fifo |
3124 |
* pckbc0 at mace0 offset 0x320000 intr 5 intrmask 0x0 |
3125 |
* mcclock0 at mace0 offset 0x3a0000 intrmask 0x0 |
3126 |
* macepci0 at mace0 offset 0x80000 intr 7 intrmask 0x0: rev 1 |
3127 |
* |
3128 |
* intr 4 = MACE_PERIPH_SERIAL |
3129 |
* intr 5 = MACE_PERIPH_MISC |
3130 |
* intr 7 = MACE_PCI_BRIDGE |
3131 |
*/ |
3132 |
|
3133 |
#if 0 |
3134 |
i = dev_pckbc_init(machine, mem, 0x1f320000, |
3135 |
PCKBC_8242, 0x200 + MACE_PERIPH_MISC, |
3136 |
0x800 + MACE_PERIPH_MISC, machine->use_x11, 0); |
3137 |
/* keyb+mouse (mace irq numbers) */ |
3138 |
#endif |
3139 |
|
3140 |
net_generate_unique_mac(machine, macaddr); |
3141 |
eaddr_string = malloc(ETHERNET_STRING_MAXLEN); |
3142 |
if (eaddr_string == NULL) { |
3143 |
fprintf(stderr, "out of memory\n"); |
3144 |
exit(1); |
3145 |
} |
3146 |
snprintf(eaddr_string, ETHERNET_STRING_MAXLEN, |
3147 |
"eaddr=%02x:%02x:%02x:%02x:%02x:%02x", |
3148 |
macaddr[0], macaddr[1], macaddr[2], |
3149 |
macaddr[3], macaddr[4], macaddr[5]); |
3150 |
dev_sgi_mec_init(machine, mem, 0x1f280000, |
3151 |
MACE_ETHERNET, macaddr); |
3152 |
|
3153 |
dev_sgi_ust_init(mem, 0x1f340000); /* ust? */ |
3154 |
|
3155 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=%i addr=0x1f390000 addr_mult=0x100 in_use=%i name2=tty0", |
3156 |
(1<<20) + MACE_PERIPH_SERIAL, machine->use_x11? 0 : 1); |
3157 |
j = (size_t)device_add(machine, tmpstr); |
3158 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=%i addr=0x1f398000 addr_mult=0x100 in_use=%i name2=tty1", |
3159 |
(1<<26) + MACE_PERIPH_SERIAL, 0); |
3160 |
device_add(machine, tmpstr); |
3161 |
#if 0 |
3162 |
if (machine->use_x11) |
3163 |
machine->main_console_handle = i; |
3164 |
else |
3165 |
#endif |
3166 |
machine->main_console_handle = j; |
3167 |
|
3168 |
dev_mc146818_init(machine, mem, 0x1f3a0000, (1<<8) + MACE_PERIPH_MISC, MC146818_SGI, 0x40); /* mcclock0 */ |
3169 |
dev_zs_init(machine, mem, 0x1fbd9830, 0, 1, "zs console"); |
3170 |
|
3171 |
/* |
3172 |
* PCI devices: (according to NetBSD's GENERIC config file for sgimips) |
3173 |
* |
3174 |
* ne* at pci? dev ? function ? |
3175 |
* ahc0 at pci0 dev 1 function ? |
3176 |
* ahc1 at pci0 dev 2 function ? |
3177 |
*/ |
3178 |
|
3179 |
pci_data = dev_macepci_init(mem, 0x1f080000, MACE_PCI_BRIDGE); /* macepci0 */ |
3180 |
/* bus_pci_add(machine, pci_data, mem, 0, 0, 0, pci_ne2000_init, pci_ne2000_rr); TODO */ |
3181 |
|
3182 |
/* TODO: make this nicer */ |
3183 |
if (diskimage_exist(machine, 0, DISKIMAGE_SCSI) || |
3184 |
diskimage_exist(machine, 1, DISKIMAGE_SCSI) || |
3185 |
diskimage_exist(machine, 2, DISKIMAGE_SCSI) || |
3186 |
diskimage_exist(machine, 3, DISKIMAGE_SCSI) || |
3187 |
diskimage_exist(machine, 4, DISKIMAGE_SCSI) || |
3188 |
diskimage_exist(machine, 5, DISKIMAGE_SCSI) || |
3189 |
diskimage_exist(machine, 6, DISKIMAGE_SCSI) || |
3190 |
diskimage_exist(machine, 7, DISKIMAGE_SCSI)) |
3191 |
bus_pci_add(machine, pci_data, mem, 0, 1, 0, pci_ahc_init, pci_ahc_rr); |
3192 |
|
3193 |
/* TODO: second ahc */ |
3194 |
/* bus_pci_add(machine, pci_data, mem, 0, 2, 0, pci_ahc_init, pci_ahc_rr); */ |
3195 |
|
3196 |
break; |
3197 |
case 35: |
3198 |
strlcat(machine->machine_name, |
3199 |
" (Origin 3000)", MACHINE_NAME_MAXBUF); |
3200 |
/* 4 cpus per node */ |
3201 |
|
3202 |
machine->main_console_handle = |
3203 |
dev_zs_init(machine, mem, 0x1fbd9830, |
3204 |
0, 1, "zs console"); |
3205 |
break; |
3206 |
case 53: |
3207 |
strlcat(machine->machine_name, |
3208 |
" (Origin 350)", MACHINE_NAME_MAXBUF); |
3209 |
/* |
3210 |
* According to http://kumba.drachentekh.net/xml/myguide.html |
3211 |
* Origin 350, Tezro IP53 R16000 |
3212 |
*/ |
3213 |
break; |
3214 |
default: |
3215 |
fatal("unimplemented SGI machine type IP%i\n", |
3216 |
machine->machine_subtype); |
3217 |
exit(1); |
3218 |
} |
3219 |
} else { |
3220 |
switch (machine->machine_subtype) { |
3221 |
|
3222 |
case MACHINE_ARC_NEC_RD94: |
3223 |
case MACHINE_ARC_NEC_R94: |
3224 |
case MACHINE_ARC_NEC_R96: |
3225 |
/* |
3226 |
* "NEC-RD94" (NEC RISCstation 2250) |
3227 |
* "NEC-R94" (NEC RISCstation 2200) |
3228 |
* "NEC-R96" (NEC Express RISCserver) |
3229 |
* |
3230 |
* http://mirror.aarnet.edu.au/pub/NetBSD/misc/chs/arcdiag.out (NEC-R96) |
3231 |
*/ |
3232 |
|
3233 |
switch (machine->machine_subtype) { |
3234 |
case MACHINE_ARC_NEC_RD94: |
3235 |
strlcat(machine->machine_name, |
3236 |
" (NEC-RD94, NEC RISCstation 2250)", |
3237 |
MACHINE_NAME_MAXBUF); |
3238 |
break; |
3239 |
case MACHINE_ARC_NEC_R94: |
3240 |
strlcat(machine->machine_name, " (NEC-R94; NEC RISCstation 2200)", |
3241 |
MACHINE_NAME_MAXBUF); |
3242 |
break; |
3243 |
case MACHINE_ARC_NEC_R96: |
3244 |
strlcat(machine->machine_name, " (NEC-R96; NEC Express RISCserver)", |
3245 |
MACHINE_NAME_MAXBUF); |
3246 |
break; |
3247 |
} |
3248 |
|
3249 |
/* TODO: interrupt controller! */ |
3250 |
|
3251 |
pci_data = device_add(machine, |
3252 |
"rd94 addr=0x80000000, irq=0"); |
3253 |
|
3254 |
device_add(machine, "sn addr=0x80001000 irq=0"); |
3255 |
dev_mc146818_init(machine, mem, 0x80004000ULL, 0, MC146818_ARC_NEC, 1); |
3256 |
i = dev_pckbc_init(machine, mem, 0x80005000ULL, PCKBC_8042, 0, 0, machine->use_x11, 0); |
3257 |
|
3258 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=3 addr=0x80006000 in_use=%i name2=tty0", machine->use_x11? 0 : 1); |
3259 |
j = (size_t)device_add(machine, tmpstr); |
3260 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=0 addr=0x80007000 in_use=%i name2=tty1", 0); |
3261 |
device_add(machine, tmpstr); |
3262 |
|
3263 |
if (machine->use_x11) |
3264 |
machine->main_console_handle = i; |
3265 |
else |
3266 |
machine->main_console_handle = j; |
3267 |
|
3268 |
/* lpt at 0x80008000 */ |
3269 |
|
3270 |
device_add(machine, "fdc addr=0x8000c000, irq=0"); |
3271 |
|
3272 |
switch (machine->machine_subtype) { |
3273 |
case MACHINE_ARC_NEC_RD94: |
3274 |
case MACHINE_ARC_NEC_R94: |
3275 |
/* PCI devices: (NOTE: bus must be 0, device must be 3, 4, or 5, for NetBSD to accept interrupts) */ |
3276 |
bus_pci_add(machine, pci_data, mem, 0, 3, 0, pci_dec21030_init, pci_dec21030_rr); /* tga graphics */ |
3277 |
break; |
3278 |
case MACHINE_ARC_NEC_R96: |
3279 |
dev_fb_init(machine, mem, 0x100e00000ULL, |
3280 |
VFB_GENERIC, 640,480, 1024,480, |
3281 |
8, "necvdfrb"); |
3282 |
break; |
3283 |
} |
3284 |
break; |
3285 |
|
3286 |
case MACHINE_ARC_NEC_R98: |
3287 |
/* |
3288 |
* "NEC-R98" (NEC RISCserver 4200) |
3289 |
* |
3290 |
* According to http://mail-index.netbsd.org/port-arc/2004/02/01/0001.html: |
3291 |
* |
3292 |
* Network adapter at "start: 0x 0 18600000, length: 0x1000, level: 4, vector: 9" |
3293 |
* Disk at "start: 0x 0 18c103f0, length: 0x1000, level: 5, vector: 6" |
3294 |
* Keyboard at "start: 0x 0 18c20060, length: 0x1000, level: 5, vector: 3" |
3295 |
* Serial at "start: 0x 0 18c103f8, length: 0x1000, level: 5, vector: 4" |
3296 |
* Serial at "start: 0x 0 18c102f8, length: 0x1000, level: 5, vector: 4" |
3297 |
* Parallel at "start: 0x 0 18c10278, length: 0x1000, level: 5, vector: 5" |
3298 |
*/ |
3299 |
|
3300 |
strlcat(machine->machine_name, |
3301 |
" (NEC-R98; NEC RISCserver 4200)", |
3302 |
MACHINE_NAME_MAXBUF); |
3303 |
|
3304 |
/* |
3305 |
* Windows NT access stuff at these addresses: |
3306 |
* |
3307 |
* 19980308, 18000210, 18c0a008, |
3308 |
* 19022018, 19026010, andso on. |
3309 |
*/ |
3310 |
break; |
3311 |
|
3312 |
case MACHINE_ARC_JAZZ_PICA: |
3313 |
case MACHINE_ARC_JAZZ_MAGNUM: |
3314 |
/* |
3315 |
* "PICA-61" |
3316 |
* |
3317 |
* According to NetBSD 1.6.2: |
3318 |
* |
3319 |
* jazzio0 at mainbus0 |
3320 |
* timer0 at jazzio0 addr 0xe0000228 |
3321 |
* mcclock0 at jazzio0 addr 0xe0004000: mc146818 or compatible |
3322 |
* lpt at jazzio0 addr 0xe0008000 intr 0 not configured |
3323 |
* fdc at jazzio0 addr 0xe0003000 intr 1 not configured |
3324 |
* MAGNUM at jazzio0 addr 0xe000c000 intr 2 not configured |
3325 |
* ALI_S3 at jazzio0 addr 0xe0800000 intr 3 not configured |
3326 |
* sn0 at jazzio0 addr 0xe0001000 intr 4: SONIC Ethernet |
3327 |
* sn0: Ethernet address 69:6a:6b:6c:00:00 |
3328 |
* asc0 at jazzio0 addr 0xe0002000 intr 5: NCR53C94, target 0 |
3329 |
* pckbd at jazzio0 addr 0xe0005000 intr 6 not configured |
3330 |
* pms at jazzio0 addr 0xe0005000 intr 7 not configured |
3331 |
* com0 at jazzio0 addr 0xe0006000 intr 8: ns16550a, working fifo |
3332 |
* com at jazzio0 addr 0xe0007000 intr 9 not configured |
3333 |
* jazzisabr0 at mainbus0 |
3334 |
* isa0 at jazzisabr0 isa_io_base 0xe2000000 isa_mem_base 0xe3000000 |
3335 |
* |
3336 |
* "Microsoft-Jazz", "MIPS Magnum" |
3337 |
* |
3338 |
* timer0 at jazzio0 addr 0xe0000228 |
3339 |
* mcclock0 at jazzio0 addr 0xe0004000: mc146818 or compatible |
3340 |
* lpt at jazzio0 addr 0xe0008000 intr 0 not configured |
3341 |
* fdc at jazzio0 addr 0xe0003000 intr 1 not configured |
3342 |
* MAGNUM at jazzio0 addr 0xe000c000 intr 2 not configured |
3343 |
* VXL at jazzio0 addr 0xe0800000 intr 3 not configured |
3344 |
* sn0 at jazzio0 addr 0xe0001000 intr 4: SONIC Ethernet |
3345 |
* sn0: Ethernet address 69:6a:6b:6c:00:00 |
3346 |
* asc0 at jazzio0 addr 0xe0002000 intr 5: NCR53C94, target 0 |
3347 |
* scsibus0 at asc0: 8 targets, 8 luns per target |
3348 |
* pckbd at jazzio0 addr 0xe0005000 intr 6 not configured |
3349 |
* pms at jazzio0 addr 0xe0005000 intr 7 not configured |
3350 |
* com0 at jazzio0 addr 0xe0006000 intr 8: ns16550a, working fifo |
3351 |
* com at jazzio0 addr 0xe0007000 intr 9 not configured |
3352 |
* jazzisabr0 at mainbus0 |
3353 |
* isa0 at jazzisabr0 isa_io_base 0xe2000000 isa_mem_base 0xe3000000 |
3354 |
*/ |
3355 |
|
3356 |
switch (machine->machine_subtype) { |
3357 |
case MACHINE_ARC_JAZZ_PICA: |
3358 |
strlcat(machine->machine_name, " (Microsoft Jazz, Acer PICA-61)", |
3359 |
MACHINE_NAME_MAXBUF); |
3360 |
break; |
3361 |
case MACHINE_ARC_JAZZ_MAGNUM: |
3362 |
strlcat(machine->machine_name, " (Microsoft Jazz, MIPS Magnum)", |
3363 |
MACHINE_NAME_MAXBUF); |
3364 |
break; |
3365 |
default: |
3366 |
fatal("error in machine.c. jazz\n"); |
3367 |
exit(1); |
3368 |
} |
3369 |
|
3370 |
machine->md_int.jazz_data = device_add(machine, |
3371 |
"jazz addr=0x80000000"); |
3372 |
machine->md_interrupt = jazz_interrupt; |
3373 |
|
3374 |
i = dev_pckbc_init(machine, mem, 0x80005000ULL, |
3375 |
PCKBC_JAZZ, 8 + 6, 8 + 7, machine->use_x11, 0); |
3376 |
|
3377 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=16 addr=0x80006000 in_use=%i name2=tty0", machine->use_x11? 0 : 1); |
3378 |
j = (size_t)device_add(machine, tmpstr); |
3379 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=17 addr=0x80007000 in_use=%i name2=tty1", 0); |
3380 |
device_add(machine, tmpstr); |
3381 |
|
3382 |
if (machine->use_x11) |
3383 |
machine->main_console_handle = i; |
3384 |
else |
3385 |
machine->main_console_handle = j; |
3386 |
|
3387 |
switch (machine->machine_subtype) { |
3388 |
case MACHINE_ARC_JAZZ_PICA: |
3389 |
if (machine->use_x11) { |
3390 |
dev_vga_init(machine, mem, |
3391 |
0x400a0000ULL, 0x600003c0ULL, |
3392 |
machine->machine_name); |
3393 |
arcbios_console_init(machine, |
3394 |
0x400b8000ULL, 0x600003c0ULL); |
3395 |
} |
3396 |
break; |
3397 |
case MACHINE_ARC_JAZZ_MAGNUM: |
3398 |
/* PROM mirror? */ |
3399 |
dev_ram_init(mem, 0xfff00000, 0x100000, |
3400 |
DEV_RAM_MIRROR, 0x1fc00000); |
3401 |
|
3402 |
/* VXL. TODO */ |
3403 |
/* control at 0x60100000? */ |
3404 |
dev_fb_init(machine, mem, 0x60200000ULL, |
3405 |
VFB_GENERIC, 1024,768, 1024,768, |
3406 |
8, "VXL"); |
3407 |
break; |
3408 |
} |
3409 |
|
3410 |
/* irq 8 + 4 */ |
3411 |
device_add(machine, "sn addr=0x80001000 irq=12"); |
3412 |
|
3413 |
dev_asc_init(machine, mem, |
3414 |
0x80002000ULL, 8 + 5, NULL, DEV_ASC_PICA, |
3415 |
dev_jazz_dma_controller, |
3416 |
machine->md_int.jazz_data); |
3417 |
|
3418 |
device_add(machine, "fdc addr=0x80003000, irq=0"); |
3419 |
|
3420 |
dev_mc146818_init(machine, mem, |
3421 |
0x80004000ULL, 2, MC146818_ARC_JAZZ, 1); |
3422 |
|
3423 |
#if 0 |
3424 |
Not yet. |
3425 |
dev_wdc_init(machine, mem, 0x900001f0ULL, 8+16 + 14, 0); |
3426 |
#endif |
3427 |
|
3428 |
break; |
3429 |
|
3430 |
case MACHINE_ARC_JAZZ_M700: |
3431 |
/* |
3432 |
* "Microsoft-Jazz", "Olivetti M700" |
3433 |
* |
3434 |
* Different enough from Pica and Magnum to be |
3435 |
* separate here. |
3436 |
* |
3437 |
* See http://mail-index.netbsd.org/port-arc/2000/10/18/0001.html. |
3438 |
*/ |
3439 |
|
3440 |
strlcat(machine->machine_name, " (Microsoft Jazz, Olivetti M700)", |
3441 |
MACHINE_NAME_MAXBUF); |
3442 |
|
3443 |
machine->md_int.jazz_data = device_add(machine, |
3444 |
"jazz addr=0x80000000"); |
3445 |
machine->md_interrupt = jazz_interrupt; |
3446 |
|
3447 |
dev_mc146818_init(machine, mem, |
3448 |
0x80004000ULL, 2, MC146818_ARC_JAZZ, 1); |
3449 |
|
3450 |
i = 0; /* TODO: Yuck! */ |
3451 |
#if 0 |
3452 |
i = dev_pckbc_init(machine, mem, 0x80005000ULL, |
3453 |
PCKBC_JAZZ, 8 + 6, 8 + 7, machine->use_x11, 0); |
3454 |
#endif |
3455 |
|
3456 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=16 addr=0x80006000 in_use=%i name2=tty0", machine->use_x11? 0 : 1); |
3457 |
j = (size_t)device_add(machine, tmpstr); |
3458 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=17 addr=0x80007000 in_use=%i name2=tty1", 0); |
3459 |
device_add(machine, tmpstr); |
3460 |
|
3461 |
if (machine->use_x11) |
3462 |
machine->main_console_handle = i; |
3463 |
else |
3464 |
machine->main_console_handle = j; |
3465 |
|
3466 |
dev_m700_fb_init(machine, mem, |
3467 |
0x180080000ULL, 0x100000000ULL); |
3468 |
|
3469 |
break; |
3470 |
|
3471 |
case MACHINE_ARC_DESKTECH_TYNE: |
3472 |
/* |
3473 |
* "Deskstation Tyne" (?) |
3474 |
* |
3475 |
* TODO |
3476 |
* http://mail-index.netbsd.org/port-arc/2000/10/14/0000.html |
3477 |
*/ |
3478 |
|
3479 |
strlcat(machine->machine_name, " (Deskstation Tyne)", |
3480 |
MACHINE_NAME_MAXBUF); |
3481 |
|
3482 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=0 addr=0x9000003f8 in_use=%i name2=tty0", machine->use_x11? 0 : 1); |
3483 |
i = (size_t)device_add(machine, tmpstr); |
3484 |
device_add(machine, "ns16550 irq=0 addr=0x9000002f8 in_use=0 name2=tty1"); |
3485 |
device_add(machine, "ns16550 irq=0 addr=0x9000003e8 in_use=0 name2=tty2"); |
3486 |
device_add(machine, "ns16550 irq=0 addr=0x9000002e8 in_use=0 name2=tty3"); |
3487 |
|
3488 |
dev_mc146818_init(machine, mem, |
3489 |
0x900000070ULL, 2, MC146818_PC_CMOS, 1); |
3490 |
|
3491 |
#if 0 |
3492 |
dev_wdc_init(machine, mem, 0x9000001f0ULL, 0, 0); |
3493 |
dev_wdc_init(machine, mem, 0x900000170ULL, 0, 2); |
3494 |
#endif |
3495 |
/* PC kbd */ |
3496 |
j = dev_pckbc_init(machine, mem, 0x900000060ULL, |
3497 |
PCKBC_8042, 0, 0, machine->use_x11, 0); |
3498 |
|
3499 |
if (machine->use_x11) |
3500 |
machine->main_console_handle = j; |
3501 |
else |
3502 |
machine->main_console_handle = i; |
3503 |
|
3504 |
if (machine->use_x11) { |
3505 |
dev_vga_init(machine, mem, 0x1000a0000ULL, |
3506 |
0x9000003c0ULL, machine->machine_name); |
3507 |
|
3508 |
arcbios_console_init(machine, |
3509 |
0x1000b8000ULL, 0x9000003c0ULL); |
3510 |
} |
3511 |
break; |
3512 |
|
3513 |
default: |
3514 |
fatal("Unimplemented ARC machine type %i\n", |
3515 |
machine->machine_subtype); |
3516 |
exit(1); |
3517 |
} |
3518 |
} |
3519 |
|
3520 |
/* |
3521 |
* This is important: :-) |
3522 |
* |
3523 |
* TODO: There should not be any use of ARCBIOS before this |
3524 |
* point. |
3525 |
*/ |
3526 |
|
3527 |
if (machine->prom_emulation) |
3528 |
arcbios_init(machine, arc_wordlen == sizeof(uint64_t), |
3529 |
sgi_ram_offset); |
3530 |
else |
3531 |
goto no_arc_prom_emulation; /* TODO: ugly */ |
3532 |
|
3533 |
/* |
3534 |
* TODO: How to build the component tree intermixed with |
3535 |
* the rest of device initialization? |
3536 |
*/ |
3537 |
|
3538 |
/* |
3539 |
* Boot string in ARC format: |
3540 |
* |
3541 |
* TODO: How about floppies? multi()disk()fdisk() |
3542 |
* Is tftp() good for netbooting? |
3543 |
*/ |
3544 |
init_bootpath = malloc(500); |
3545 |
if (init_bootpath == NULL) { |
3546 |
fprintf(stderr, "out of mem, bootpath\n"); |
3547 |
exit(1); |
3548 |
} |
3549 |
init_bootpath[0] = '\0'; |
3550 |
|
3551 |
if (bootdev_id < 0 || machine->force_netboot) { |
3552 |
snprintf(init_bootpath, 400, "tftp()"); |
3553 |
} else { |
3554 |
/* TODO: Make this nicer. */ |
3555 |
if (machine->machine_type == MACHINE_SGI) { |
3556 |
if (machine->machine_subtype == 30) |
3557 |
strlcat(init_bootpath, "xio(0)pci(15)", |
3558 |
MACHINE_NAME_MAXBUF); |
3559 |
if (machine->machine_subtype == 32) |
3560 |
strlcat(init_bootpath, "pci(0)", |
3561 |
MACHINE_NAME_MAXBUF); |
3562 |
} |
3563 |
|
3564 |
if (diskimage_is_a_cdrom(machine, bootdev_id, |
3565 |
bootdev_type)) |
3566 |
snprintf(init_bootpath + strlen(init_bootpath), |
3567 |
400,"scsi(0)cdrom(%i)fdisk(0)", bootdev_id); |
3568 |
else |
3569 |
snprintf(init_bootpath + strlen(init_bootpath), |
3570 |
400,"scsi(0)disk(%i)rdisk(0)partition(1)", |
3571 |
bootdev_id); |
3572 |
} |
3573 |
|
3574 |
if (machine->machine_type == MACHINE_ARC) |
3575 |
strlcat(init_bootpath, "\\", MACHINE_NAME_MAXBUF); |
3576 |
|
3577 |
bootstr = malloc(BOOTSTR_BUFLEN); |
3578 |
if (bootstr == NULL) { |
3579 |
fprintf(stderr, "out of memory\n"); |
3580 |
exit(1); |
3581 |
} |
3582 |
strlcpy(bootstr, init_bootpath, BOOTSTR_BUFLEN); |
3583 |
if (strlcat(bootstr, machine->boot_kernel_filename, |
3584 |
BOOTSTR_BUFLEN) >= BOOTSTR_BUFLEN) { |
3585 |
fprintf(stderr, "boot string too long?\n"); |
3586 |
exit(1); |
3587 |
} |
3588 |
|
3589 |
/* Boot args., eg "-a" */ |
3590 |
bootarg = machine->boot_string_argument; |
3591 |
|
3592 |
/* argc, argv, envp in a0, a1, a2: */ |
3593 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = 0; /* note: argc is increased later */ |
3594 |
|
3595 |
/* TODO: not needed? */ |
3596 |
cpu->cd.mips.gpr[MIPS_GPR_SP] = (int64_t)(int32_t) |
3597 |
(machine->physical_ram_in_mb * 1048576 + 0x80000000 - 0x2080); |
3598 |
|
3599 |
/* Set up argc/argv: */ |
3600 |
addr = ARC_ENV_STRINGS; |
3601 |
addr2 = ARC_ARGV_START; |
3602 |
cpu->cd.mips.gpr[MIPS_GPR_A1] = addr2; |
3603 |
|
3604 |
/* bootstr: */ |
3605 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3606 |
add_environment_string(cpu, bootstr, &addr); |
3607 |
cpu->cd.mips.gpr[MIPS_GPR_A0] ++; |
3608 |
|
3609 |
/* bootarg: */ |
3610 |
if (bootarg[0] != '\0') { |
3611 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3612 |
add_environment_string(cpu, bootarg, &addr); |
3613 |
cpu->cd.mips.gpr[MIPS_GPR_A0] ++; |
3614 |
} |
3615 |
|
3616 |
cpu->cd.mips.gpr[MIPS_GPR_A2] = addr2; |
3617 |
|
3618 |
/* |
3619 |
* Add environment variables. For each variable, add it |
3620 |
* as a string using add_environment_string(), and add a |
3621 |
* pointer to it to the ARC_ENV_POINTERS array. |
3622 |
*/ |
3623 |
if (machine->use_x11) { |
3624 |
if (machine->machine_type == MACHINE_ARC) { |
3625 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3626 |
add_environment_string(cpu, "CONSOLEIN=multi()key()keyboard()console()", &addr); |
3627 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3628 |
add_environment_string(cpu, "CONSOLEOUT=multi()video()monitor()console()", &addr); |
3629 |
} else { |
3630 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3631 |
add_environment_string(cpu, "ConsoleIn=keyboard()", &addr); |
3632 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3633 |
add_environment_string(cpu, "ConsoleOut=video()", &addr); |
3634 |
|
3635 |
/* g for graphical mode. G for graphical mode |
3636 |
with SGI logo visible on Irix? */ |
3637 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3638 |
add_environment_string(cpu, "console=g", &addr); |
3639 |
} |
3640 |
} else { |
3641 |
if (machine->machine_type == MACHINE_ARC) { |
3642 |
/* TODO: serial console for ARC? */ |
3643 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3644 |
add_environment_string(cpu, "CONSOLEIN=multi()serial(0)", &addr); |
3645 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3646 |
add_environment_string(cpu, "CONSOLEOUT=multi()serial(0)", &addr); |
3647 |
} else { |
3648 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3649 |
add_environment_string(cpu, "ConsoleIn=serial(0)", &addr); |
3650 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3651 |
add_environment_string(cpu, "ConsoleOut=serial(0)", &addr); |
3652 |
|
3653 |
/* 'd' or 'd2' in Irix, 'ttyS0' in Linux? */ |
3654 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3655 |
add_environment_string(cpu, "console=d", &addr); /* d2 = serial? */ |
3656 |
} |
3657 |
} |
3658 |
|
3659 |
if (machine->machine_type == MACHINE_SGI) { |
3660 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3661 |
add_environment_string(cpu, "AutoLoad=No", &addr); |
3662 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3663 |
add_environment_string(cpu, "diskless=0", &addr); |
3664 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3665 |
add_environment_string(cpu, "volume=80", &addr); |
3666 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3667 |
add_environment_string(cpu, "sgilogo=y", &addr); |
3668 |
|
3669 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3670 |
add_environment_string(cpu, "monitor=h", &addr); |
3671 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3672 |
add_environment_string(cpu, "TimeZone=GMT", &addr); |
3673 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3674 |
add_environment_string(cpu, "nogfxkbd=1", &addr); |
3675 |
|
3676 |
/* TODO: 'xio(0)pci(15)scsi(0)disk(1)rdisk(0)partition(0)' on IP30 at least */ |
3677 |
|
3678 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3679 |
add_environment_string(cpu, "SystemPartition=pci(0)scsi(0)disk(2)rdisk(0)partition(8)", &addr); |
3680 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3681 |
add_environment_string(cpu, "OSLoadPartition=pci(0)scsi(0)disk(2)rdisk(0)partition(0)", &addr); |
3682 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3683 |
add_environment_string(cpu, "OSLoadFilename=/unix", &addr); |
3684 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3685 |
add_environment_string(cpu, "OSLoader=sash", &addr); |
3686 |
|
3687 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3688 |
add_environment_string(cpu, "rbaud=9600", &addr); |
3689 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3690 |
add_environment_string(cpu, "rebound=y", &addr); |
3691 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3692 |
add_environment_string(cpu, "crt_option=1", &addr); |
3693 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3694 |
add_environment_string(cpu, "netaddr=10.0.0.1", &addr); |
3695 |
|
3696 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3697 |
add_environment_string(cpu, "keybd=US", &addr); |
3698 |
|
3699 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3700 |
add_environment_string(cpu, "cpufreq=3", &addr); |
3701 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3702 |
add_environment_string(cpu, "dbaud=9600", &addr); |
3703 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3704 |
add_environment_string(cpu, eaddr_string, &addr); |
3705 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3706 |
add_environment_string(cpu, "verbose=istrue", &addr); |
3707 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3708 |
add_environment_string(cpu, "showconfig=istrue", &addr); |
3709 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3710 |
add_environment_string(cpu, "diagmode=v", &addr); |
3711 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3712 |
add_environment_string(cpu, "kernname=unix", &addr); |
3713 |
} else { |
3714 |
char *tmp; |
3715 |
size_t mlen = strlen(bootarg) + strlen("OSLOADOPTIONS=") + 2; |
3716 |
tmp = malloc(mlen); |
3717 |
snprintf(tmp, mlen, "OSLOADOPTIONS=%s", bootarg); |
3718 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3719 |
add_environment_string(cpu, tmp, &addr); |
3720 |
|
3721 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3722 |
add_environment_string(cpu, "OSLOADPARTITION=scsi(0)cdrom(6)fdisk(0);scsi(0)disk(0)rdisk(0)partition(1)", &addr); |
3723 |
|
3724 |
store_pointer_and_advance(cpu, &addr2, addr, arc_wordlen==sizeof(uint64_t)); |
3725 |
add_environment_string(cpu, "SYSTEMPARTITION=scsi(0)cdrom(6)fdisk(0);scsi(0)disk(0)rdisk(0)partition(1)", &addr); |
3726 |
} |
3727 |
|
3728 |
/* End the environment strings with an empty zero-terminated |
3729 |
string, and the envp array with a NULL pointer. */ |
3730 |
add_environment_string(cpu, "", &addr); /* the end */ |
3731 |
store_pointer_and_advance(cpu, &addr2, |
3732 |
0, arc_wordlen==sizeof(uint64_t)); |
3733 |
|
3734 |
no_arc_prom_emulation: /* TODO: ugly, get rid of the goto */ |
3735 |
|
3736 |
/* Return address: (0x20 = ReturnFromMain()) */ |
3737 |
cpu->cd.mips.gpr[MIPS_GPR_RA] = ARC_FIRMWARE_ENTRIES + 0x20; |
3738 |
|
3739 |
break; |
3740 |
|
3741 |
case MACHINE_MESHCUBE: |
3742 |
machine->machine_name = "MeshCube"; |
3743 |
|
3744 |
if (machine->physical_ram_in_mb != 64) |
3745 |
fprintf(stderr, "WARNING! MeshCubes are supposed to have exactly 64 MB RAM. Continuing anyway.\n"); |
3746 |
if (machine->use_x11) |
3747 |
fprintf(stderr, "WARNING! MeshCube with -X is meaningless. Continuing anyway.\n"); |
3748 |
|
3749 |
/* First of all, the MeshCube has an Au1500 in it: */ |
3750 |
machine->md_interrupt = au1x00_interrupt; |
3751 |
machine->md_int.au1x00_ic_data = dev_au1x00_init(machine, mem); |
3752 |
|
3753 |
/* |
3754 |
* TODO: Which non-Au1500 devices, and at what addresses? |
3755 |
* |
3756 |
* "4G Systems MTX-1 Board" at ? |
3757 |
* 1017fffc, 14005004, 11700000, 11700008, 11900014, |
3758 |
* 1190002c, 11900100, 11900108, 1190010c, |
3759 |
* 10400040 - 10400074, |
3760 |
* 14001000 (possibly LCD?) |
3761 |
* 11100028 (possibly ttySx?) |
3762 |
* |
3763 |
* "usb_ohci=base:0x10100000,len:0x100000,irq:26" |
3764 |
*/ |
3765 |
|
3766 |
device_add(machine, "random addr=0x1017fffc len=4"); |
3767 |
|
3768 |
/* |
3769 |
* TODO: A Linux kernel wants "memsize" from somewhere... I |
3770 |
* haven't found any docs on how it is used though. |
3771 |
*/ |
3772 |
|
3773 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = 1; |
3774 |
cpu->cd.mips.gpr[MIPS_GPR_A1] = 0xa0001000ULL; |
3775 |
store_32bit_word(cpu, cpu->cd.mips.gpr[MIPS_GPR_A1], |
3776 |
0xa0002000ULL); |
3777 |
store_string(cpu, 0xa0002000ULL, "something=somethingelse"); |
3778 |
|
3779 |
cpu->cd.mips.gpr[MIPS_GPR_A2] = 0xa0003000ULL; |
3780 |
store_string(cpu, 0xa0002000ULL, "hello=world\n"); |
3781 |
|
3782 |
break; |
3783 |
|
3784 |
case MACHINE_NETGEAR: |
3785 |
machine->machine_name = "NetGear WG602"; |
3786 |
|
3787 |
if (machine->use_x11) |
3788 |
fprintf(stderr, "WARNING! NetGear with -X is meaningless. Continuing anyway.\n"); |
3789 |
if (machine->physical_ram_in_mb != 16) |
3790 |
fprintf(stderr, "WARNING! Real NetGear WG602 boxes have exactly 16 MB RAM. Continuing anyway.\n"); |
3791 |
|
3792 |
/* |
3793 |
* Lots of info about the IDT 79RC 32334 |
3794 |
* http://www.idt.com/products/pages/Integrated_Processors-79RC32334.html |
3795 |
*/ |
3796 |
device_add(machine, "8250 addr=0x18000800 addr_mult=4 irq=0"); |
3797 |
break; |
3798 |
|
3799 |
case MACHINE_SONYNEWS: |
3800 |
/* |
3801 |
* There are several models, according to |
3802 |
* http://www.netbsd.org/Ports/newsmips/: |
3803 |
* |
3804 |
* "R3000 and hyper-bus based models" |
3805 |
* NWS-3470D, -3410, -3460, -3710, -3720 |
3806 |
* |
3807 |
* "R4000/4400 and apbus based models" |
3808 |
* NWS-5000 |
3809 |
* |
3810 |
* For example: (found using google) |
3811 |
* |
3812 |
* cpu_model = news3700 |
3813 |
* SONY NET WORK STATION, Model NWS-3710, Machine ID #30145 |
3814 |
* cpu0: MIPS R3000 (0x220) Rev. 2.0 with MIPS R3010 Rev.2.0 |
3815 |
* 64KB/4B direct-mapped I, 64KB/4B direct-mapped w-thr. D |
3816 |
* |
3817 |
* See http://katsu.watanabe.name/doc/sonynews/model.html |
3818 |
* for more details. |
3819 |
*/ |
3820 |
cpu->byte_order = EMUL_BIG_ENDIAN; |
3821 |
machine->machine_name = "Sony NeWS (NET WORK STATION)"; |
3822 |
|
3823 |
/* This is just a test. TODO */ |
3824 |
{ |
3825 |
int i; |
3826 |
for (i=0; i<32; i++) |
3827 |
cpu->cd.mips.gpr[i] = |
3828 |
0x01230000 + (i << 8) + 0x55; |
3829 |
} |
3830 |
|
3831 |
machine->main_console_handle = |
3832 |
dev_zs_init(machine, mem, 0x1e950000, 0, 1, "zs console"); |
3833 |
|
3834 |
break; |
3835 |
|
3836 |
case MACHINE_EVBMIPS: |
3837 |
/* http://www.netbsd.org/Ports/evbmips/ */ |
3838 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
3839 |
|
3840 |
switch (machine->machine_subtype) { |
3841 |
case MACHINE_EVBMIPS_MALTA: |
3842 |
case MACHINE_EVBMIPS_MALTA_BE: |
3843 |
machine->machine_name = "MALTA (evbmips, little endian)"; |
3844 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
3845 |
|
3846 |
if (machine->machine_subtype == MACHINE_EVBMIPS_MALTA_BE) { |
3847 |
machine->machine_name = "MALTA (evbmips, big endian)"; |
3848 |
cpu->byte_order = EMUL_BIG_ENDIAN; |
3849 |
} |
3850 |
|
3851 |
/* ISA interrupt controllers: */ |
3852 |
snprintf(tmpstr, sizeof(tmpstr), "8259 irq=24 addr=0x18000020"); |
3853 |
machine->md_int.isa_pic_data.pic1 = device_add(machine, tmpstr); |
3854 |
snprintf(tmpstr, sizeof(tmpstr), "8259 irq=24 addr=0x180000a0"); |
3855 |
machine->md_int.isa_pic_data.pic2 = device_add(machine, tmpstr); |
3856 |
machine->md_interrupt = malta_interrupt; |
3857 |
|
3858 |
dev_mc146818_init(machine, mem, 0x18000070, 8 + 8, MC146818_PC_CMOS, 1); |
3859 |
|
3860 |
machine->main_console_handle = (size_t) |
3861 |
device_add(machine, "ns16550 irq=12 addr=0x180003f8 name2=tty0"); |
3862 |
device_add(machine, "ns16550 irq=11 addr=0x180002f8 name2=tty1"); |
3863 |
|
3864 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=4 addr=0x%x name2=tty2", MALTA_CBUSUART); |
3865 |
device_add(machine, tmpstr); |
3866 |
/* TODO: Irqs */ |
3867 |
pci_data = dev_gt_init(machine, mem, 0x1be00000, 8+9, 8+9, 120); |
3868 |
|
3869 |
/* TODO: Haha, this is bogus. Just a cut&paste |
3870 |
from the Cobalt emulation above. */ |
3871 |
bus_pci_add(machine, pci_data, mem, 0, 9, 0, pci_vt82c586_isa_init, pci_vt82c586_isa_rr); |
3872 |
bus_pci_add(machine, pci_data, mem, 0, 9, 1, pci_vt82c586_ide_init, pci_vt82c586_ide_rr); |
3873 |
|
3874 |
device_add(machine, "malta_lcd addr=0x1f000400"); |
3875 |
break; |
3876 |
case MACHINE_EVBMIPS_PB1000: |
3877 |
machine->machine_name = "PB1000 (evbmips)"; |
3878 |
cpu->byte_order = EMUL_BIG_ENDIAN; |
3879 |
|
3880 |
machine->md_interrupt = au1x00_interrupt; |
3881 |
machine->md_int.au1x00_ic_data = dev_au1x00_init(machine, mem); |
3882 |
/* TODO */ |
3883 |
break; |
3884 |
default: |
3885 |
fatal("Unimplemented EVBMIPS model.\n"); |
3886 |
exit(1); |
3887 |
} |
3888 |
|
3889 |
if (machine->prom_emulation) { |
3890 |
/* This is just a test. TODO */ |
3891 |
for (i=0; i<32; i++) |
3892 |
cpu->cd.mips.gpr[i] = |
3893 |
0x01230000 + (i << 8) + 0x55; |
3894 |
|
3895 |
/* NetBSD/evbmips wants these: (at least for Malta) */ |
3896 |
|
3897 |
/* a0 = argc */ |
3898 |
cpu->cd.mips.gpr[MIPS_GPR_A0] = 2; |
3899 |
|
3900 |
/* a1 = argv */ |
3901 |
cpu->cd.mips.gpr[MIPS_GPR_A1] = (int32_t)0x9fc01000; |
3902 |
store_32bit_word(cpu, (int32_t)0x9fc01000, 0x9fc01040); |
3903 |
store_32bit_word(cpu, (int32_t)0x9fc01004, 0x9fc01200); |
3904 |
store_32bit_word(cpu, (int32_t)0x9fc01008, 0); |
3905 |
|
3906 |
bootstr = strdup(machine->boot_kernel_filename); |
3907 |
bootarg = strdup(machine->boot_string_argument); |
3908 |
store_string(cpu, (int32_t)0x9fc01040, bootstr); |
3909 |
store_string(cpu, (int32_t)0x9fc01200, bootarg); |
3910 |
|
3911 |
/* a2 = (yamon_env_var *)envp */ |
3912 |
cpu->cd.mips.gpr[MIPS_GPR_A2] = (int32_t)0x9fc01800; |
3913 |
{ |
3914 |
uint64_t env = cpu->cd.mips.gpr[MIPS_GPR_A2]; |
3915 |
uint64_t tmpptr = 0xffffffff9fc01c00ULL; |
3916 |
char tmps[50]; |
3917 |
|
3918 |
snprintf(tmps, sizeof(tmps), "0x%08x", |
3919 |
machine->physical_ram_in_mb * 1048576); |
3920 |
add_environment_string_dual(cpu, |
3921 |
&env, &tmpptr, "memsize", tmps); |
3922 |
|
3923 |
add_environment_string_dual(cpu, |
3924 |
&env, &tmpptr, "yamonrev", "02.06"); |
3925 |
|
3926 |
/* End of env: */ |
3927 |
tmpptr = 0; |
3928 |
add_environment_string_dual(cpu, |
3929 |
&env, &tmpptr, NULL, NULL); |
3930 |
} |
3931 |
|
3932 |
/* a3 = memsize */ |
3933 |
cpu->cd.mips.gpr[MIPS_GPR_A3] = |
3934 |
machine->physical_ram_in_mb * 1048576; |
3935 |
/* Hm. Linux ignores a3. */ |
3936 |
|
3937 |
/* |
3938 |
* TODO: |
3939 |
* Core ID numbers. |
3940 |
* How much of this is not valid for PBxxxx? |
3941 |
* |
3942 |
* See maltareg.h for more info. |
3943 |
*/ |
3944 |
store_32bit_word(cpu, (int32_t)(0x80000000 + MALTA_REVISION), (1 << 10) + 0x26); |
3945 |
|
3946 |
/* Call vectors at 0x9fc005xx: */ |
3947 |
for (i=0; i<0x100; i+=4) |
3948 |
store_32bit_word(cpu, (int64_t)(int32_t)0x9fc00500 + i, |
3949 |
(int64_t)(int32_t)0x9fc00800 + i); |
3950 |
} |
3951 |
break; |
3952 |
|
3953 |
case MACHINE_PSP: |
3954 |
/* |
3955 |
* The Playstation Portable seems to be a strange beast. |
3956 |
* |
3957 |
* http://yun.cup.com/psppg004.html (in Japanese) seems to |
3958 |
* suggest that virtual addresses are not displaced by |
3959 |
* 0x80000000 as on normal CPUs, but by 0x40000000? |
3960 |
*/ |
3961 |
machine->machine_name = "Playstation Portable"; |
3962 |
cpu->byte_order = EMUL_LITTLE_ENDIAN; |
3963 |
|
3964 |
if (!machine->use_x11 && !quiet_mode) |
3965 |
fprintf(stderr, "-------------------------------------" |
3966 |
"------------------------------------------\n" |
3967 |
"\n WARNING! You are emulating a PSP without -X. " |
3968 |
"You will miss graphical output!\n\n" |
3969 |
"-------------------------------------" |
3970 |
"------------------------------------------\n"); |
3971 |
|
3972 |
/* 480 x 272 pixels framebuffer (512 bytes per line) */ |
3973 |
fb = dev_fb_init(machine, mem, 0x04000000, VFB_HPCMIPS, |
3974 |
480,272, 512,1088, -15, "Playstation Portable"); |
3975 |
|
3976 |
/* |
3977 |
* TODO/NOTE: This is ugly, but necessary since GXemul doesn't |
3978 |
* emulate any MIPS CPU without MMU right now. |
3979 |
*/ |
3980 |
mips_coproc_tlb_set_entry(cpu, 0, 1048576*16, |
3981 |
0x44000000 /*vaddr*/, 0x4000000, 0x4000000 + 1048576*16, |
3982 |
1,1,1,1,1, 0, 2, 2); |
3983 |
mips_coproc_tlb_set_entry(cpu, 1, 1048576*16, |
3984 |
0x8000000 /*vaddr*/, 0x0, 0x0 + 1048576*16, |
3985 |
1,1,1,1,1, 0, 2, 2); |
3986 |
mips_coproc_tlb_set_entry(cpu, 2, 1048576*16, |
3987 |
0x9000000 /*vaddr*/, 0x01000000, 0x01000000 + 1048576*16, |
3988 |
1,1,1,1,1, 0, 2, 2); |
3989 |
mips_coproc_tlb_set_entry(cpu, 3, 1048576*16, |
3990 |
0x0 /*vaddr*/, 0, 0 + 1048576*16, 1,1,1,1,1, 0, 2, 2); |
3991 |
|
3992 |
cpu->cd.mips.gpr[MIPS_GPR_SP] = 0xfff0; |
3993 |
|
3994 |
break; |
3995 |
#endif /* ENABLE_MIPS */ |
3996 |
|
3997 |
#ifdef ENABLE_PPC |
3998 |
case MACHINE_BAREPPC: |
3999 |
/* |
4000 |
* A "bare" PPC machine. |
4001 |
* |
4002 |
* NOTE: NO devices at all. |
4003 |
*/ |
4004 |
machine->machine_name = "\"Bare\" PPC machine"; |
4005 |
break; |
4006 |
|
4007 |
case MACHINE_TESTPPC: |
4008 |
/* |
4009 |
* A PPC test machine, similar to the test machine for MIPS. |
4010 |
*/ |
4011 |
machine->machine_name = "PPC test machine"; |
4012 |
|
4013 |
/* TODO: interrupt for PPC? */ |
4014 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=0", |
4015 |
(long long)DEV_CONS_ADDRESS); |
4016 |
cons_data = device_add(machine, tmpstr); |
4017 |
machine->main_console_handle = cons_data->console_handle; |
4018 |
|
4019 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
4020 |
(long long)DEV_MP_ADDRESS); |
4021 |
device_add(machine, tmpstr); |
4022 |
|
4023 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
4024 |
640,480, 640,480, 24, "testppc generic"); |
4025 |
|
4026 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
4027 |
(long long)DEV_DISK_ADDRESS); |
4028 |
device_add(machine, tmpstr); |
4029 |
|
4030 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=0", |
4031 |
(long long)DEV_ETHER_ADDRESS); |
4032 |
device_add(machine, tmpstr); |
4033 |
|
4034 |
break; |
4035 |
|
4036 |
case MACHINE_WALNUT: |
4037 |
/* |
4038 |
* NetBSD/evbppc (http://www.netbsd.org/Ports/evbppc/) |
4039 |
*/ |
4040 |
machine->machine_name = "Walnut evaluation board"; |
4041 |
|
4042 |
break; |
4043 |
|
4044 |
case MACHINE_PMPPC: |
4045 |
/* |
4046 |
* NetBSD/pmppc (http://www.netbsd.org/Ports/pmppc/) |
4047 |
*/ |
4048 |
machine->machine_name = "Artesyn's PM/PPC board"; |
4049 |
|
4050 |
dev_pmppc_init(mem); |
4051 |
|
4052 |
/* com0 = 0xff600300, com1 = 0xff600400 */ |
4053 |
|
4054 |
machine->main_console_handle = (size_t)device_add(machine, "ns16550 irq=0 addr=0xff600300 name2=tty0"); |
4055 |
device_add(machine, "ns16550 irq=0 addr=0xff600400 in_use=0 name2=tty1"); |
4056 |
|
4057 |
break; |
4058 |
|
4059 |
case MACHINE_SANDPOINT: |
4060 |
/* |
4061 |
* NetBSD/sandpoint (http://www.netbsd.org/Ports/sandpoint/) |
4062 |
*/ |
4063 |
machine->machine_name = "Motorola Sandpoint"; |
4064 |
|
4065 |
{ |
4066 |
int i; |
4067 |
for (i=0; i<32; i++) |
4068 |
cpu->cd.ppc.gpr[i] = |
4069 |
0x12340000 + (i << 8) + 0x55; |
4070 |
} |
4071 |
|
4072 |
break; |
4073 |
|
4074 |
case MACHINE_BEBOX: |
4075 |
/* |
4076 |
* NetBSD/bebox (http://www.netbsd.org/Ports/bebox/) |
4077 |
*/ |
4078 |
machine->machine_name = "BeBox"; |
4079 |
|
4080 |
device_add(machine, "bebox"); |
4081 |
|
4082 |
machine->main_console_handle = (size_t) |
4083 |
device_add(machine, "ns16550 irq=0 addr=0x800003f8 name2=tty0"); |
4084 |
device_add(machine, "ns16550 irq=0 addr=0x800002f8 name2=tty1 in_use=0"); |
4085 |
|
4086 |
if (machine->use_x11) |
4087 |
dev_vga_init(machine, mem, 0xc00a0000ULL, 0x800003c0ULL, |
4088 |
machine->machine_name); |
4089 |
|
4090 |
store_32bit_word(cpu, 0x3010, |
4091 |
machine->physical_ram_in_mb * 1048576); |
4092 |
|
4093 |
/* TODO: List of stuff, see http://www.beatjapan.org/ |
4094 |
mirror/www.be.com/aboutbe/benewsletter/ |
4095 |
Issue27.html#Cookbook for the details. */ |
4096 |
store_32bit_word(cpu, 0x301c, 0); |
4097 |
|
4098 |
/* NetBSD/bebox: r3 = startkernel, r4 = endkernel, |
4099 |
r5 = args, r6 = ptr to bootinfo? */ |
4100 |
cpu->cd.ppc.gpr[3] = 0x3100; |
4101 |
cpu->cd.ppc.gpr[4] = 0x200000; |
4102 |
cpu->cd.ppc.gpr[5] = 0x2000; |
4103 |
store_string(cpu, cpu->cd.ppc.gpr[5], "-a"); |
4104 |
cpu->cd.ppc.gpr[6] = machine->physical_ram_in_mb * 1048576 |
4105 |
- 0x100; |
4106 |
|
4107 |
/* See NetBSD's bebox/include/bootinfo.h for details */ |
4108 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 0, 12); /* next */ |
4109 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 4, 0); /* mem */ |
4110 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 8, |
4111 |
machine->physical_ram_in_mb * 1048576); |
4112 |
|
4113 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 12, 20); /* next */ |
4114 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 16, 1); /* console */ |
4115 |
store_buf(cpu, cpu->cd.ppc.gpr[6] + 20, |
4116 |
machine->use_x11? "vga" : "com", 4); |
4117 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 24, 0x3f8);/* addr */ |
4118 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 28, 9600);/* speed */ |
4119 |
|
4120 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 32, 0); /* next */ |
4121 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 36, 2); /* clock */ |
4122 |
store_32bit_word(cpu, cpu->cd.ppc.gpr[6] + 40, 100); |
4123 |
|
4124 |
break; |
4125 |
|
4126 |
case MACHINE_PREP: |
4127 |
/* |
4128 |
* NetBSD/prep (http://www.netbsd.org/Ports/prep/) |
4129 |
*/ |
4130 |
machine->machine_name = "PowerPC Reference Platform"; |
4131 |
|
4132 |
{ |
4133 |
int i; |
4134 |
for (i=0; i<32; i++) |
4135 |
cpu->cd.ppc.gpr[i] = |
4136 |
0x12340000 + (i << 8) + 0x55; |
4137 |
} |
4138 |
|
4139 |
/* Linux on PReP has 0xdeadc0de at address 0? (See |
4140 |
http://joshua.raleigh.nc.us/docs/linux-2.4.10_html/113568.html) */ |
4141 |
store_32bit_word(cpu, 0, 0xdeadc0de); |
4142 |
|
4143 |
/* r6 should point to "residual data"? */ |
4144 |
cpu->cd.ppc.gpr[6] = machine->physical_ram_in_mb * 1048576 |
4145 |
- 0x1000; |
4146 |
|
4147 |
break; |
4148 |
|
4149 |
case MACHINE_MACPPC: |
4150 |
/* |
4151 |
* NetBSD/macppc (http://www.netbsd.org/Ports/macppc/) |
4152 |
* OpenBSD/macppc (http://www.openbsd.org/macppc.html) |
4153 |
*/ |
4154 |
machine->machine_name = "Macintosh (PPC)"; |
4155 |
|
4156 |
/* r5 = OpenFirmware entry point */ |
4157 |
cpu->cd.ppc.gpr[5] = cpu->cd.ppc.of_emul_addr; |
4158 |
|
4159 |
break; |
4160 |
|
4161 |
case MACHINE_DB64360: |
4162 |
/* For playing with PMON2000 for PPC: */ |
4163 |
machine->machine_name = "DB64360"; |
4164 |
|
4165 |
machine->main_console_handle = (size_t)device_add(machine, "ns16550 irq=0 addr=0x1d000020"); |
4166 |
|
4167 |
{ |
4168 |
int i; |
4169 |
for (i=0; i<32; i++) |
4170 |
cpu->cd.ppc.gpr[i] = |
4171 |
0x12340000 + (i << 8) + 0x55; |
4172 |
} |
4173 |
|
4174 |
break; |
4175 |
#endif /* ENABLE_PPC */ |
4176 |
|
4177 |
#ifdef ENABLE_SPARC |
4178 |
case MACHINE_BARESPARC: |
4179 |
/* A bare SPARC machine, with no devices. */ |
4180 |
machine->machine_name = "\"Bare\" SPARC machine"; |
4181 |
break; |
4182 |
|
4183 |
case MACHINE_TESTSPARC: |
4184 |
machine->machine_name = "SPARC test machine"; |
4185 |
|
4186 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=0", |
4187 |
(long long)DEV_CONS_ADDRESS); |
4188 |
cons_data = device_add(machine, tmpstr); |
4189 |
machine->main_console_handle = cons_data->console_handle; |
4190 |
|
4191 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
4192 |
(long long)DEV_MP_ADDRESS); |
4193 |
device_add(machine, tmpstr); |
4194 |
|
4195 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
4196 |
640,480, 640,480, 24, "testsparc generic"); |
4197 |
|
4198 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
4199 |
(long long)DEV_DISK_ADDRESS); |
4200 |
device_add(machine, tmpstr); |
4201 |
|
4202 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=0", |
4203 |
(long long)DEV_ETHER_ADDRESS); |
4204 |
device_add(machine, tmpstr); |
4205 |
|
4206 |
break; |
4207 |
|
4208 |
case MACHINE_ULTRA1: |
4209 |
/* |
4210 |
* NetBSD/sparc64 (http://www.netbsd.org/Ports/sparc64/) |
4211 |
* OpenBSD/sparc64 (http://www.openbsd.org/sparc64.html) |
4212 |
*/ |
4213 |
machine->machine_name = "Sun Ultra1"; |
4214 |
break; |
4215 |
#endif /* ENABLE_SPARC */ |
4216 |
|
4217 |
#ifdef ENABLE_ALPHA |
4218 |
case MACHINE_BAREALPHA: |
4219 |
machine->machine_name = "\"Bare\" Alpha machine"; |
4220 |
break; |
4221 |
|
4222 |
case MACHINE_TESTALPHA: |
4223 |
machine->machine_name = "Alpha test machine"; |
4224 |
|
4225 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=0", |
4226 |
(long long)DEV_CONS_ADDRESS); |
4227 |
cons_data = device_add(machine, tmpstr); |
4228 |
machine->main_console_handle = cons_data->console_handle; |
4229 |
|
4230 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
4231 |
(long long)DEV_MP_ADDRESS); |
4232 |
device_add(machine, tmpstr); |
4233 |
|
4234 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
4235 |
640,480, 640,480, 24, "testalpha generic"); |
4236 |
|
4237 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
4238 |
(long long)DEV_DISK_ADDRESS); |
4239 |
device_add(machine, tmpstr); |
4240 |
|
4241 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=0", |
4242 |
(long long)DEV_ETHER_ADDRESS); |
4243 |
device_add(machine, tmpstr); |
4244 |
|
4245 |
break; |
4246 |
|
4247 |
case MACHINE_ALPHA: |
4248 |
/* TODO: Most of these... They are used by NetBSD/alpha: */ |
4249 |
/* a0 = First free Page Frame Number */ |
4250 |
/* a1 = PFN of current Level 1 page table */ |
4251 |
/* a2 = Bootinfo magic */ |
4252 |
/* a3 = Bootinfo pointer */ |
4253 |
/* a4 = Bootinfo version */ |
4254 |
cpu->cd.alpha.r[ALPHA_A0] = 16*1024*1024 / 8192; |
4255 |
cpu->cd.alpha.r[ALPHA_A1] = 0; |
4256 |
cpu->cd.alpha.r[ALPHA_A2] = 0; |
4257 |
cpu->cd.alpha.r[ALPHA_A3] = 0; |
4258 |
cpu->cd.alpha.r[ALPHA_A4] = 0; |
4259 |
|
4260 |
if (machine->prom_emulation) { |
4261 |
struct rpb rpb; |
4262 |
struct crb crb; |
4263 |
struct ctb ctb; |
4264 |
|
4265 |
/* HWRPB: Hardware Restart Parameter Block */ |
4266 |
memset(&rpb, 0, sizeof(struct rpb)); |
4267 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4268 |
&(rpb.rpb_phys), HWRPB_ADDR); |
4269 |
strlcpy((char *)&(rpb.rpb_magic), "HWRPB", 8); |
4270 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4271 |
&(rpb.rpb_size), sizeof(struct rpb)); |
4272 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4273 |
&(rpb.rpb_page_size), 8192); |
4274 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4275 |
&(rpb.rpb_type), machine->machine_subtype); |
4276 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4277 |
&(rpb.rpb_cc_freq), 100000000); |
4278 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4279 |
&(rpb.rpb_ctb_off), CTB_ADDR - HWRPB_ADDR); |
4280 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4281 |
&(rpb.rpb_crb_off), CRB_ADDR - HWRPB_ADDR); |
4282 |
|
4283 |
/* CTB: Console Terminal Block */ |
4284 |
memset(&ctb, 0, sizeof(struct ctb)); |
4285 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4286 |
&(ctb.ctb_term_type), machine->use_x11? |
4287 |
CTB_GRAPHICS : CTB_PRINTERPORT); |
4288 |
|
4289 |
/* CRB: Console Routine Block */ |
4290 |
memset(&crb, 0, sizeof(struct crb)); |
4291 |
store_64bit_word_in_host(cpu, (unsigned char *) |
4292 |
&(crb.crb_v_dispatch), CRB_ADDR - 0x100); |
4293 |
store_64bit_word(cpu, CRB_ADDR - 0x100 + 8, 0x10000); |
4294 |
|
4295 |
/* |
4296 |
* Place a special "hack" palcode call at 0x10000: |
4297 |
* (Hopefully nothing else will be there.) |
4298 |
*/ |
4299 |
store_32bit_word(cpu, 0x10000, 0x3fffffe); |
4300 |
|
4301 |
store_buf(cpu, HWRPB_ADDR, (char *)&rpb, sizeof(struct rpb)); |
4302 |
store_buf(cpu, CTB_ADDR, (char *)&ctb, sizeof(struct ctb)); |
4303 |
store_buf(cpu, CRB_ADDR, (char *)&crb, sizeof(struct crb)); |
4304 |
} |
4305 |
|
4306 |
switch (machine->machine_subtype) { |
4307 |
case ST_DEC_3000_300: |
4308 |
machine->machine_name = "DEC 3000/300"; |
4309 |
break; |
4310 |
default:fatal("Unimplemented Alpha machine type %i\n", |
4311 |
machine->machine_subtype); |
4312 |
exit(1); |
4313 |
} |
4314 |
|
4315 |
break; |
4316 |
#endif /* ENABLE_ALPHA */ |
4317 |
|
4318 |
#ifdef ENABLE_ARM |
4319 |
case MACHINE_BAREARM: |
4320 |
machine->machine_name = "\"Bare\" ARM machine"; |
4321 |
break; |
4322 |
|
4323 |
case MACHINE_TESTARM: |
4324 |
machine->machine_name = "ARM test machine"; |
4325 |
|
4326 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=0", |
4327 |
(long long)DEV_CONS_ADDRESS); |
4328 |
cons_data = device_add(machine, tmpstr); |
4329 |
machine->main_console_handle = cons_data->console_handle; |
4330 |
|
4331 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
4332 |
(long long)DEV_MP_ADDRESS); |
4333 |
device_add(machine, tmpstr); |
4334 |
|
4335 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
4336 |
640,480, 640,480, 24, "testarm generic"); |
4337 |
|
4338 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
4339 |
(long long)DEV_DISK_ADDRESS); |
4340 |
device_add(machine, tmpstr); |
4341 |
|
4342 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=0", |
4343 |
(long long)DEV_ETHER_ADDRESS); |
4344 |
device_add(machine, tmpstr); |
4345 |
|
4346 |
/* Place a tiny stub at end of memory, and set the link |
4347 |
register to point to it. This stub halts the machine. */ |
4348 |
cpu->cd.arm.r[ARM_SP] = |
4349 |
machine->physical_ram_in_mb * 1048576 - 4096; |
4350 |
cpu->cd.arm.r[ARM_LR] = cpu->cd.arm.r[ARM_SP] + 32; |
4351 |
store_32bit_word(cpu, cpu->cd.arm.r[ARM_LR] + 0, 0xe3a00201); |
4352 |
store_32bit_word(cpu, cpu->cd.arm.r[ARM_LR] + 4, 0xe5c00010); |
4353 |
store_32bit_word(cpu, cpu->cd.arm.r[ARM_LR] + 8, |
4354 |
0xeafffffe); |
4355 |
break; |
4356 |
#endif /* ENABLE_ARM */ |
4357 |
|
4358 |
#ifdef ENABLE_IA64 |
4359 |
case MACHINE_BAREIA64: |
4360 |
machine->machine_name = "\"Bare\" IA64 machine"; |
4361 |
break; |
4362 |
|
4363 |
case MACHINE_TESTIA64: |
4364 |
machine->machine_name = "IA64 test machine"; |
4365 |
|
4366 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=0", |
4367 |
(long long)DEV_CONS_ADDRESS); |
4368 |
cons_data = device_add(machine, tmpstr); |
4369 |
machine->main_console_handle = cons_data->console_handle; |
4370 |
|
4371 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
4372 |
(long long)DEV_MP_ADDRESS); |
4373 |
device_add(machine, tmpstr); |
4374 |
|
4375 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
4376 |
640,480, 640,480, 24, "testia64 generic"); |
4377 |
|
4378 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
4379 |
(long long)DEV_DISK_ADDRESS); |
4380 |
device_add(machine, tmpstr); |
4381 |
|
4382 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=0", |
4383 |
(long long)DEV_ETHER_ADDRESS); |
4384 |
device_add(machine, tmpstr); |
4385 |
|
4386 |
break; |
4387 |
#endif /* ENABLE_IA64 */ |
4388 |
|
4389 |
#ifdef ENABLE_M68K |
4390 |
case MACHINE_BAREM68K: |
4391 |
machine->machine_name = "\"Bare\" M68K machine"; |
4392 |
break; |
4393 |
|
4394 |
case MACHINE_TESTM68K: |
4395 |
machine->machine_name = "M68K test machine"; |
4396 |
|
4397 |
snprintf(tmpstr, sizeof(tmpstr), "cons addr=0x%llx irq=0", |
4398 |
(long long)DEV_CONS_ADDRESS); |
4399 |
cons_data = device_add(machine, tmpstr); |
4400 |
machine->main_console_handle = cons_data->console_handle; |
4401 |
|
4402 |
snprintf(tmpstr, sizeof(tmpstr), "mp addr=0x%llx", |
4403 |
(long long)DEV_MP_ADDRESS); |
4404 |
device_add(machine, tmpstr); |
4405 |
|
4406 |
fb = dev_fb_init(machine, mem, DEV_FB_ADDRESS, VFB_GENERIC, |
4407 |
640,480, 640,480, 24, "testm68k generic"); |
4408 |
|
4409 |
snprintf(tmpstr, sizeof(tmpstr), "disk addr=0x%llx", |
4410 |
(long long)DEV_DISK_ADDRESS); |
4411 |
device_add(machine, tmpstr); |
4412 |
|
4413 |
snprintf(tmpstr, sizeof(tmpstr), "ether addr=0x%llx irq=0", |
4414 |
(long long)DEV_ETHER_ADDRESS); |
4415 |
device_add(machine, tmpstr); |
4416 |
|
4417 |
break; |
4418 |
#endif /* ENABLE_M68K */ |
4419 |
|
4420 |
#ifdef ENABLE_X86 |
4421 |
case MACHINE_BAREX86: |
4422 |
machine->machine_name = "\"Bare\" x86 machine"; |
4423 |
break; |
4424 |
|
4425 |
case MACHINE_X86: |
4426 |
if (machine->machine_subtype == MACHINE_X86_XT) |
4427 |
machine->machine_name = "PC XT"; |
4428 |
else |
4429 |
machine->machine_name = "Generic x86 PC"; |
4430 |
|
4431 |
/* Interrupt controllers: */ |
4432 |
snprintf(tmpstr, sizeof(tmpstr), "8259 irq=16 addr=0x%llx", |
4433 |
(long long)(X86_IO_BASE + 0x20)); |
4434 |
machine->md.pc.pic1 = device_add(machine, tmpstr); |
4435 |
if (machine->machine_subtype != MACHINE_X86_XT) { |
4436 |
snprintf(tmpstr, sizeof(tmpstr), "8259 irq=16 addr=0x%llx irq=2", |
4437 |
(long long)(X86_IO_BASE + 0xa0)); |
4438 |
machine->md.pc.pic2 = device_add(machine, tmpstr); |
4439 |
} |
4440 |
|
4441 |
machine->md_interrupt = x86_pc_interrupt; |
4442 |
|
4443 |
/* Timer: */ |
4444 |
snprintf(tmpstr, sizeof(tmpstr), "8253 addr=0x%llx irq=0", |
4445 |
(long long)(X86_IO_BASE + 0x40)); |
4446 |
device_add(machine, tmpstr); |
4447 |
|
4448 |
snprintf(tmpstr, sizeof(tmpstr), "pccmos addr=0x%llx", |
4449 |
(long long)(X86_IO_BASE + 0x70)); |
4450 |
device_add(machine, tmpstr); |
4451 |
|
4452 |
/* TODO: IRQ when emulating a PC XT? */ |
4453 |
|
4454 |
/* IDE controllers: */ |
4455 |
if (diskimage_exist(machine, 0, DISKIMAGE_IDE) || |
4456 |
diskimage_exist(machine, 1, DISKIMAGE_IDE)) |
4457 |
dev_wdc_init(machine, mem, X86_IO_BASE + 0x1f0, 14, 0); |
4458 |
if (diskimage_exist(machine, 2, DISKIMAGE_IDE) || |
4459 |
diskimage_exist(machine, 3, DISKIMAGE_IDE)) |
4460 |
dev_wdc_init(machine, mem, X86_IO_BASE + 0x170, 15, 2); |
4461 |
|
4462 |
/* Floppy controller at irq 6 */ |
4463 |
snprintf(tmpstr, sizeof(tmpstr), "fdc addr=0x%llx irq=6", |
4464 |
(long long)(X86_IO_BASE + 0x3f0)); |
4465 |
device_add(machine, tmpstr); |
4466 |
|
4467 |
/* TODO: sound blaster (eventually) at irq 7? */ |
4468 |
|
4469 |
/* TODO: parallel port */ |
4470 |
|
4471 |
/* Serial ports: (TODO: 8250 for PC XT?) */ |
4472 |
|
4473 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=4 addr=0x%llx name2=com1 in_use=0", |
4474 |
(long long)X86_IO_BASE + 0x3f8); |
4475 |
device_add(machine, tmpstr); |
4476 |
snprintf(tmpstr, sizeof(tmpstr), "ns16550 irq=3 addr=0x%llx name2=com2 in_use=0", |
4477 |
(long long)X86_IO_BASE + 0x2f8); |
4478 |
device_add(machine, tmpstr); |
4479 |
|
4480 |
/* VGA + keyboard: */ |
4481 |
dev_vga_init(machine, mem, 0xa0000ULL, X86_IO_BASE + 0x3c0, |
4482 |
"Generic x86 PC"); |
4483 |
machine->main_console_handle = dev_pckbc_init(machine, |
4484 |
mem, X86_IO_BASE + 0x60, PCKBC_8042, 1, 12, 1, 1); |
4485 |
|
4486 |
if (machine->prom_emulation) |
4487 |
pc_bios_init(cpu); |
4488 |
|
4489 |
if (!machine->use_x11 && !quiet_mode) |
4490 |
fprintf(stderr, "-------------------------------------" |
4491 |
"------------------------------------------\n" |
4492 |
"\n WARNING! You are emulating a PC without -X. " |
4493 |
"You will miss graphical output!\n\n" |
4494 |
"-------------------------------------" |
4495 |
"------------------------------------------\n"); |
4496 |
break; |
4497 |
#endif /* ENABLE_X86 */ |
4498 |
|
4499 |
default: |
4500 |
fatal("Unknown emulation type %i\n", machine->machine_type); |
4501 |
exit(1); |
4502 |
} |
4503 |
|
4504 |
if (machine->machine_name != NULL) |
4505 |
debug("machine: %s", machine->machine_name); |
4506 |
|
4507 |
if (machine->emulated_hz > 0) |
4508 |
debug(" (%.2f MHz)", (float)machine->emulated_hz / 1000000); |
4509 |
debug("\n"); |
4510 |
|
4511 |
if (machine->emulated_hz < 1) |
4512 |
machine->emulated_hz = 1000000; |
4513 |
|
4514 |
if (bootstr != NULL) { |
4515 |
debug("bootstring%s: %s", (bootarg!=NULL && |
4516 |
strlen(bootarg) >= 1)? "(+bootarg)" : "", bootstr); |
4517 |
if (bootarg != NULL && strlen(bootarg) >= 1) |
4518 |
debug(" %s", bootarg); |
4519 |
debug("\n"); |
4520 |
} |
4521 |
} |
4522 |
|
4523 |
|
4524 |
/* |
4525 |
* machine_memsize_fix(): |
4526 |
* |
4527 |
* Sets physical_ram_in_mb (if not already set), and memory_offset_in_mb, |
4528 |
* depending on machine type. |
4529 |
*/ |
4530 |
void machine_memsize_fix(struct machine *m) |
4531 |
{ |
4532 |
if (m == NULL) { |
4533 |
fatal("machine_defaultmemsize(): m == NULL?\n"); |
4534 |
exit(1); |
4535 |
} |
4536 |
|
4537 |
if (m->physical_ram_in_mb == 0) { |
4538 |
switch (m->machine_type) { |
4539 |
case MACHINE_PS2: |
4540 |
m->physical_ram_in_mb = 32; |
4541 |
break; |
4542 |
case MACHINE_SGI: |
4543 |
m->physical_ram_in_mb = 64; |
4544 |
break; |
4545 |
case MACHINE_HPCMIPS: |
4546 |
/* Most have 32 MB by default. */ |
4547 |
m->physical_ram_in_mb = 32; |
4548 |
switch (m->machine_subtype) { |
4549 |
case MACHINE_HPCMIPS_CASIO_BE300: |
4550 |
m->physical_ram_in_mb = 16; |
4551 |
break; |
4552 |
case MACHINE_HPCMIPS_CASIO_E105: |
4553 |
m->physical_ram_in_mb = 32; |
4554 |
break; |
4555 |
case MACHINE_HPCMIPS_AGENDA_VR3: |
4556 |
m->physical_ram_in_mb = 16; |
4557 |
break; |
4558 |
} |
4559 |
break; |
4560 |
case MACHINE_MESHCUBE: |
4561 |
m->physical_ram_in_mb = 64; |
4562 |
break; |
4563 |
case MACHINE_NETGEAR: |
4564 |
m->physical_ram_in_mb = 16; |
4565 |
break; |
4566 |
case MACHINE_EVBMIPS: |
4567 |
m->physical_ram_in_mb = 64; |
4568 |
break; |
4569 |
case MACHINE_PSP: |
4570 |
/* |
4571 |
* According to |
4572 |
* http://wiki.ps2dev.org/psp:memory_map: |
4573 |
* 0×08000000 = 8 MB kernel memory |
4574 |
* 0×08800000 = 24 MB user memory |
4575 |
*/ |
4576 |
m->physical_ram_in_mb = 8 + 24; |
4577 |
break; |
4578 |
case MACHINE_ARC: |
4579 |
switch (m->machine_subtype) { |
4580 |
case MACHINE_ARC_JAZZ_PICA: |
4581 |
m->physical_ram_in_mb = 64; |
4582 |
break; |
4583 |
case MACHINE_ARC_JAZZ_M700: |
4584 |
m->physical_ram_in_mb = 64; |
4585 |
break; |
4586 |
default: |
4587 |
m->physical_ram_in_mb = 32; |
4588 |
} |
4589 |
break; |
4590 |
case MACHINE_DEC: |
4591 |
switch (m->machine_subtype) { |
4592 |
case MACHINE_DEC_PMAX_3100: |
4593 |
m->physical_ram_in_mb = 24; |
4594 |
break; |
4595 |
default: |
4596 |
m->physical_ram_in_mb = 32; |
4597 |
} |
4598 |
break; |
4599 |
case MACHINE_ALPHA: |
4600 |
m->physical_ram_in_mb = 64; |
4601 |
break; |
4602 |
case MACHINE_BEBOX: |
4603 |
m->physical_ram_in_mb = 64; |
4604 |
break; |
4605 |
case MACHINE_X86: |
4606 |
if (m->machine_subtype == MACHINE_X86_XT) |
4607 |
m->physical_ram_in_mb = 1; |
4608 |
break; |
4609 |
} |
4610 |
} |
4611 |
|
4612 |
/* Special hack for hpcmips machines: */ |
4613 |
if (m->machine_type == MACHINE_HPCMIPS) { |
4614 |
m->dbe_on_nonexistant_memaccess = 0; |
4615 |
} |
4616 |
|
4617 |
/* Special SGI memory offsets: */ |
4618 |
if (m->machine_type == MACHINE_SGI) { |
4619 |
switch (m->machine_subtype) { |
4620 |
case 20: |
4621 |
case 22: |
4622 |
case 24: |
4623 |
case 26: |
4624 |
m->memory_offset_in_mb = 128; |
4625 |
break; |
4626 |
case 28: |
4627 |
case 30: |
4628 |
m->memory_offset_in_mb = 512; |
4629 |
break; |
4630 |
} |
4631 |
} |
4632 |
|
4633 |
if (m->physical_ram_in_mb == 0) |
4634 |
m->physical_ram_in_mb = DEFAULT_RAM_IN_MB; |
4635 |
} |
4636 |
|
4637 |
|
4638 |
/* |
4639 |
* machine_default_cputype(): |
4640 |
* |
4641 |
* Sets m->cpu_name, if it isn't already set, depending on the machine |
4642 |
* type. |
4643 |
*/ |
4644 |
void machine_default_cputype(struct machine *m) |
4645 |
{ |
4646 |
if (m == NULL) { |
4647 |
fatal("machine_default_cputype(): m == NULL?\n"); |
4648 |
exit(1); |
4649 |
} |
4650 |
|
4651 |
if (m->cpu_name != NULL) |
4652 |
return; |
4653 |
|
4654 |
switch (m->machine_type) { |
4655 |
case MACHINE_BAREMIPS: |
4656 |
case MACHINE_TESTMIPS: |
4657 |
m->cpu_name = strdup("R4000"); |
4658 |
break; |
4659 |
case MACHINE_PS2: |
4660 |
m->cpu_name = strdup("R5900"); |
4661 |
break; |
4662 |
case MACHINE_DEC: |
4663 |
if (m->machine_subtype > 2) |
4664 |
m->cpu_name = strdup("R3000A"); |
4665 |
if (m->machine_subtype > 1 && m->cpu_name == NULL) |
4666 |
m->cpu_name = strdup("R3000"); |
4667 |
if (m->cpu_name == NULL) |
4668 |
m->cpu_name = strdup("R2000"); |
4669 |
break; |
4670 |
case MACHINE_SONYNEWS: |
4671 |
m->cpu_name = strdup("R3000"); |
4672 |
break; |
4673 |
case MACHINE_HPCMIPS: |
4674 |
switch (m->machine_subtype) { |
4675 |
case MACHINE_HPCMIPS_CASIO_BE300: |
4676 |
m->cpu_name = strdup("VR4131"); |
4677 |
break; |
4678 |
case MACHINE_HPCMIPS_CASIO_E105: |
4679 |
m->cpu_name = strdup("VR4121"); |
4680 |
break; |
4681 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_770: |
4682 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_780: |
4683 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_800: |
4684 |
case MACHINE_HPCMIPS_NEC_MOBILEPRO_880: |
4685 |
m->cpu_name = strdup("VR4121"); |
4686 |
break; |
4687 |
case MACHINE_HPCMIPS_AGENDA_VR3: |
4688 |
m->cpu_name = strdup("VR4181"); |
4689 |
break; |
4690 |
case MACHINE_HPCMIPS_IBM_WORKPAD_Z50: |
4691 |
m->cpu_name = strdup("VR4121"); |
4692 |
break; |
4693 |
default: |
4694 |
printf("Unimplemented HPCMIPS model?\n"); |
4695 |
exit(1); |
4696 |
} |
4697 |
break; |
4698 |
case MACHINE_COBALT: |
4699 |
m->cpu_name = strdup("RM5200"); |
4700 |
break; |
4701 |
case MACHINE_MESHCUBE: |
4702 |
m->cpu_name = strdup("R4400"); |
4703 |
/* TODO: Should be AU1500, but Linux doesn't like |
4704 |
the absence of caches in the emulator */ |
4705 |
break; |
4706 |
case MACHINE_NETGEAR: |
4707 |
m->cpu_name = strdup("RC32334"); |
4708 |
break; |
4709 |
case MACHINE_ARC: |
4710 |
switch (m->machine_subtype) { |
4711 |
case MACHINE_ARC_JAZZ_PICA: |
4712 |
m->cpu_name = strdup("R4000"); |
4713 |
break; |
4714 |
default: |
4715 |
m->cpu_name = strdup("R4400"); |
4716 |
} |
4717 |
break; |
4718 |
case MACHINE_SGI: |
4719 |
if (m->machine_subtype <= 12) |
4720 |
m->cpu_name = strdup("R3000"); |
4721 |
if (m->cpu_name == NULL && m->machine_subtype == 35) |
4722 |
m->cpu_name = strdup("R12000"); |
4723 |
if (m->cpu_name == NULL && (m->machine_subtype == 25 || |
4724 |
m->machine_subtype == 27 || |
4725 |
m->machine_subtype == 28 || |
4726 |
m->machine_subtype == 30 || |
4727 |
m->machine_subtype == 32)) |
4728 |
m->cpu_name = strdup("R10000"); |
4729 |
if (m->cpu_name == NULL && (m->machine_subtype == 21 || |
4730 |
m->machine_subtype == 26)) |
4731 |
m->cpu_name = strdup("R8000"); |
4732 |
if (m->cpu_name == NULL && m->machine_subtype == 24) |
4733 |
m->cpu_name = strdup("R5000"); |
4734 |
|
4735 |
/* Other SGIs should probably work with |
4736 |
R4000, R4400 or R5000 or similar: */ |
4737 |
if (m->cpu_name == NULL) |
4738 |
m->cpu_name = strdup("R4400"); |
4739 |
break; |
4740 |
case MACHINE_EVBMIPS: |
4741 |
switch (m->machine_subtype) { |
4742 |
case MACHINE_EVBMIPS_MALTA: |
4743 |
case MACHINE_EVBMIPS_MALTA_BE: |
4744 |
m->cpu_name = strdup("5Kc"); |
4745 |
break; |
4746 |
case MACHINE_EVBMIPS_PB1000: |
4747 |
m->cpu_name = strdup("AU1000"); |
4748 |
break; |
4749 |
default:fatal("Unimpl. evbmips.\n"); |
4750 |
exit(1); |
4751 |
} |
4752 |
break; |
4753 |
case MACHINE_PSP: |
4754 |
m->cpu_name = strdup("Allegrex"); |
4755 |
break; |
4756 |
|
4757 |
/* PowerPC: */ |
4758 |
case MACHINE_BAREPPC: |
4759 |
case MACHINE_TESTPPC: |
4760 |
m->cpu_name = strdup("PPC970"); |
4761 |
break; |
4762 |
case MACHINE_WALNUT: |
4763 |
/* For NetBSD/evbppc. */ |
4764 |
m->cpu_name = strdup("PPC405GP"); |
4765 |
break; |
4766 |
case MACHINE_PMPPC: |
4767 |
/* For NetBSD/pmppc. */ |
4768 |
m->cpu_name = strdup("PPC750"); |
4769 |
break; |
4770 |
case MACHINE_SANDPOINT: |
4771 |
/* |
4772 |
* For NetBSD/sandpoint. According to NetBSD's page: |
4773 |
* |
4774 |
* "Unity" module has an MPC8240. |
4775 |
* "Altimus" module has an MPC7400 (G4) or an MPC107. |
4776 |
*/ |
4777 |
m->cpu_name = strdup("MPC7400"); |
4778 |
break; |
4779 |
case MACHINE_BEBOX: |
4780 |
/* For NetBSD/bebox. Dual 133 MHz 603e CPUs, for example. */ |
4781 |
m->cpu_name = strdup("PPC603e"); |
4782 |
break; |
4783 |
case MACHINE_PREP: |
4784 |
/* For NetBSD/prep. TODO */ |
4785 |
m->cpu_name = strdup("PPC603e"); |
4786 |
break; |
4787 |
case MACHINE_MACPPC: |
4788 |
switch (m->machine_subtype) { |
4789 |
case MACHINE_MACPPC_G4: |
4790 |
m->cpu_name = strdup("G4e"); |
4791 |
break; |
4792 |
case MACHINE_MACPPC_G5: |
4793 |
m->cpu_name = strdup("PPC970"); |
4794 |
break; |
4795 |
} |
4796 |
break; |
4797 |
case MACHINE_DB64360: |
4798 |
m->cpu_name = strdup("PPC750"); |
4799 |
break; |
4800 |
|
4801 |
/* SPARC: */ |
4802 |
case MACHINE_BARESPARC: |
4803 |
case MACHINE_TESTSPARC: |
4804 |
case MACHINE_ULTRA1: |
4805 |
m->cpu_name = strdup("SPARCv9"); |
4806 |
break; |
4807 |
|
4808 |
/* Alpha: */ |
4809 |
case MACHINE_BAREALPHA: |
4810 |
case MACHINE_TESTALPHA: |
4811 |
case MACHINE_ALPHA: |
4812 |
m->cpu_name = strdup("Alpha"); |
4813 |
break; |
4814 |
|
4815 |
/* ARM: */ |
4816 |
case MACHINE_BAREARM: |
4817 |
case MACHINE_TESTARM: |
4818 |
m->cpu_name = strdup("ARM"); |
4819 |
break; |
4820 |
|
4821 |
/* IA64: */ |
4822 |
case MACHINE_BAREIA64: |
4823 |
case MACHINE_TESTIA64: |
4824 |
m->cpu_name = strdup("IA64"); |
4825 |
break; |
4826 |
|
4827 |
/* M68K: */ |
4828 |
case MACHINE_BAREM68K: |
4829 |
case MACHINE_TESTM68K: |
4830 |
m->cpu_name = strdup("68020"); |
4831 |
break; |
4832 |
|
4833 |
/* x86: */ |
4834 |
case MACHINE_BAREX86: |
4835 |
case MACHINE_X86: |
4836 |
if (m->machine_subtype == MACHINE_X86_XT) |
4837 |
m->cpu_name = strdup("8086"); |
4838 |
else |
4839 |
m->cpu_name = strdup("AMD64"); |
4840 |
break; |
4841 |
} |
4842 |
|
4843 |
if (m->cpu_name == NULL) { |
4844 |
fprintf(stderr, "machine_default_cputype(): no default" |
4845 |
" cpu for machine type %i subtype %i\n", |
4846 |
m->machine_type, m->machine_subtype); |
4847 |
exit(1); |
4848 |
} |
4849 |
} |
4850 |
|
4851 |
|
4852 |
/* |
4853 |
* machine_dumpinfo(): |
4854 |
* |
4855 |
* Dumps info about a machine in some kind of readable format. (Used by |
4856 |
* the 'machine' debugger command.) |
4857 |
*/ |
4858 |
void machine_dumpinfo(struct machine *m) |
4859 |
{ |
4860 |
int i; |
4861 |
|
4862 |
debug("serial nr: %i", m->serial_nr); |
4863 |
if (m->nr_of_nics > 0) |
4864 |
debug(" (nr of nics: %i)", m->nr_of_nics); |
4865 |
debug("\n"); |
4866 |
|
4867 |
debug("memory: %i MB", m->physical_ram_in_mb); |
4868 |
if (m->memory_offset_in_mb != 0) |
4869 |
debug(" (offset by %i MB)", m->memory_offset_in_mb); |
4870 |
if (m->random_mem_contents) |
4871 |
debug(", randomized contents"); |
4872 |
if (m->dbe_on_nonexistant_memaccess) |
4873 |
debug(", dbe_on_nonexistant_memaccess"); |
4874 |
debug("\n"); |
4875 |
|
4876 |
if (m->single_step_on_bad_addr) |
4877 |
debug("single-step on bad addresses\n"); |
4878 |
|
4879 |
if (m->arch == ARCH_MIPS) { |
4880 |
if (m->bintrans_enable) |
4881 |
debug("bintrans enabled (%i MB cache)\n", |
4882 |
(int) (m->bintrans_size / 1048576)); |
4883 |
else |
4884 |
debug("bintrans disabled, other speedtricks %s\n", |
4885 |
m->speed_tricks? "enabled" : "disabled"); |
4886 |
} |
4887 |
|
4888 |
debug("clock: "); |
4889 |
if (m->automatic_clock_adjustment) |
4890 |
debug("adjusted automatically"); |
4891 |
else |
4892 |
debug("fixed at %i Hz", m->emulated_hz); |
4893 |
debug("\n"); |
4894 |
|
4895 |
if (!m->prom_emulation) |
4896 |
debug("PROM emulation disabled\n"); |
4897 |
|
4898 |
for (i=0; i<m->ncpus; i++) |
4899 |
cpu_dumpinfo(m, m->cpus[i]); |
4900 |
|
4901 |
if (m->ncpus > 1) |
4902 |
debug("Bootstrap cpu is nr %i\n", m->bootstrap_cpu); |
4903 |
|
4904 |
if (m->slow_serial_interrupts_hack_for_linux) |
4905 |
debug("Using slow_serial_interrupts_hack_for_linux\n"); |
4906 |
|
4907 |
if (m->use_x11) { |
4908 |
debug("Using X11"); |
4909 |
if (m->x11_scaledown > 1) |
4910 |
debug(", scaledown %i", m->x11_scaledown); |
4911 |
if (m->x11_n_display_names > 0) { |
4912 |
for (i=0; i<m->x11_n_display_names; i++) { |
4913 |
debug(i? ", " : " ("); |
4914 |
debug("\"%s\"", m->x11_display_names[i]); |
4915 |
} |
4916 |
debug(")"); |
4917 |
} |
4918 |
debug("\n"); |
4919 |
} |
4920 |
|
4921 |
diskimage_dump_info(m); |
4922 |
|
4923 |
if (m->force_netboot) |
4924 |
debug("Forced netboot\n"); |
4925 |
} |
4926 |
|
4927 |
|
4928 |
/* |
4929 |
* machine_entry_new(): |
4930 |
* |
4931 |
* This function creates a new machine_entry struct, and fills it with some |
4932 |
* valid data; it is up to the caller to add additional data that weren't |
4933 |
* passed as arguments to this function. |
4934 |
* |
4935 |
* For internal use. |
4936 |
*/ |
4937 |
static struct machine_entry *machine_entry_new(const char *name, |
4938 |
int arch, int oldstyle_type, int n_aliases, int n_subtypes) |
4939 |
{ |
4940 |
struct machine_entry *me; |
4941 |
|
4942 |
me = malloc(sizeof(struct machine_entry)); |
4943 |
if (me == NULL) { |
4944 |
fprintf(stderr, "machine_entry_new(): out of memory (1)\n"); |
4945 |
exit(1); |
4946 |
} |
4947 |
|
4948 |
memset(me, 0, sizeof(struct machine_entry)); |
4949 |
|
4950 |
me->name = name; |
4951 |
me->arch = arch; |
4952 |
me->machine_type = oldstyle_type; |
4953 |
me->n_aliases = n_aliases; |
4954 |
me->aliases = malloc(sizeof(char *) * n_aliases); |
4955 |
if (me->aliases == NULL) { |
4956 |
fprintf(stderr, "machine_entry_new(): out of memory (2)\n"); |
4957 |
exit(1); |
4958 |
} |
4959 |
me->n_subtypes = n_subtypes; |
4960 |
|
4961 |
if (n_subtypes > 0) { |
4962 |
me->subtype = malloc(sizeof(struct machine_entry_subtype *) * |
4963 |
n_subtypes); |
4964 |
if (me->subtype == NULL) { |
4965 |
fprintf(stderr, "machine_entry_new(): out of " |
4966 |
"memory (3)\n"); |
4967 |
exit(1); |
4968 |
} |
4969 |
} |
4970 |
|
4971 |
return me; |
4972 |
} |
4973 |
|
4974 |
|
4975 |
/* |
4976 |
* machine_entry_subtype_new(): |
4977 |
* |
4978 |
* This function creates a new machine_entry_subtype struct, and fills it with |
4979 |
* some valid data; it is up to the caller to add additional data that weren't |
4980 |
* passed as arguments to this function. |
4981 |
* |
4982 |
* For internal use. |
4983 |
*/ |
4984 |
static struct machine_entry_subtype *machine_entry_subtype_new( |
4985 |
const char *name, int oldstyle_type, int n_aliases) |
4986 |
{ |
4987 |
struct machine_entry_subtype *mes; |
4988 |
|
4989 |
mes = malloc(sizeof(struct machine_entry_subtype)); |
4990 |
if (mes == NULL) { |
4991 |
fprintf(stderr, "machine_entry_subtype_new(): out " |
4992 |
"of memory (1)\n"); |
4993 |
exit(1); |
4994 |
} |
4995 |
|
4996 |
memset(mes, 0, sizeof(struct machine_entry_subtype)); |
4997 |
mes->name = name; |
4998 |
mes->machine_subtype = oldstyle_type; |
4999 |
mes->n_aliases = n_aliases; |
5000 |
mes->aliases = malloc(sizeof(char *) * n_aliases); |
5001 |
if (mes->aliases == NULL) { |
5002 |
fprintf(stderr, "machine_entry_subtype_new(): " |
5003 |
"out of memory (2)\n"); |
5004 |
exit(1); |
5005 |
} |
5006 |
|
5007 |
return mes; |
5008 |
} |
5009 |
|
5010 |
|
5011 |
/* |
5012 |
* machine_list_available_types_and_cpus(): |
5013 |
* |
5014 |
* List all available machine types (for example when running the emulator |
5015 |
* with just -H as command line argument). |
5016 |
*/ |
5017 |
void machine_list_available_types_and_cpus(void) |
5018 |
{ |
5019 |
struct machine_entry *me; |
5020 |
int iadd = 8; |
5021 |
|
5022 |
debug("Available CPU types:\n\n"); |
5023 |
|
5024 |
debug_indentation(iadd); |
5025 |
cpu_list_available_types(); |
5026 |
debug_indentation(-iadd); |
5027 |
|
5028 |
debug("\nMost of the CPU types are bogus, and not really implemented." |
5029 |
" The main effect of\nselecting a specific CPU type is to choose " |
5030 |
"what kind of 'id' it will have.\n\nAvailable machine types (with " |
5031 |
"aliases) and their subtypes:\n\n"); |
5032 |
|
5033 |
debug_indentation(iadd); |
5034 |
me = first_machine_entry; |
5035 |
|
5036 |
if (me == NULL) |
5037 |
fatal("No machines defined!\n"); |
5038 |
|
5039 |
while (me != NULL) { |
5040 |
int i, j, iadd = 4; |
5041 |
|
5042 |
debug("%s", me->name); |
5043 |
debug(" ("); |
5044 |
for (i=0; i<me->n_aliases; i++) |
5045 |
debug("%s\"%s\"", i? ", " : "", me->aliases[i]); |
5046 |
debug(")\n"); |
5047 |
|
5048 |
debug_indentation(iadd); |
5049 |
for (i=0; i<me->n_subtypes; i++) { |
5050 |
struct machine_entry_subtype *mes; |
5051 |
mes = me->subtype[i]; |
5052 |
debug("- %s", mes->name); |
5053 |
debug(" ("); |
5054 |
for (j=0; j<mes->n_aliases; j++) |
5055 |
debug("%s\"%s\"", j? ", " : "", |
5056 |
mes->aliases[j]); |
5057 |
debug(")\n"); |
5058 |
} |
5059 |
debug_indentation(-iadd); |
5060 |
|
5061 |
me = me->next; |
5062 |
} |
5063 |
debug_indentation(-iadd); |
5064 |
|
5065 |
debug("\nMost of the machine types are bogus too. Please read the " |
5066 |
"GXemul\ndocumentation for information about which machine" |
5067 |
" types that actually\nwork. Use the alias when selecting a " |
5068 |
"machine type or subtype, not the\nreal name.\n"); |
5069 |
|
5070 |
debug("\n"); |
5071 |
|
5072 |
useremul_list_emuls(); |
5073 |
debug("Userland emulation works for programs with the complexity" |
5074 |
" of Hello World,\nbut not much more.\n"); |
5075 |
} |
5076 |
|
5077 |
|
5078 |
/* |
5079 |
* machine_init(): |
5080 |
* |
5081 |
* This function should be called before any other machine_*() function |
5082 |
* is used. |
5083 |
*/ |
5084 |
void machine_init(void) |
5085 |
{ |
5086 |
struct machine_entry *me; |
5087 |
|
5088 |
/* |
5089 |
* NOTE: This list is in reverse order, so that the |
5090 |
* entries will appear in normal order when listed. :-) |
5091 |
*/ |
5092 |
|
5093 |
/* X86 machine: */ |
5094 |
me = machine_entry_new("x86-based PC", ARCH_X86, |
5095 |
MACHINE_X86, 2, 2); |
5096 |
me->aliases[0] = "pc"; |
5097 |
me->aliases[1] = "x86"; |
5098 |
me->subtype[0] = machine_entry_subtype_new("Generic PC", |
5099 |
MACHINE_X86_GENERIC, 1); |
5100 |
me->subtype[0]->aliases[0] = "generic"; |
5101 |
me->subtype[1] = machine_entry_subtype_new("PC XT", MACHINE_X86_XT, 1); |
5102 |
me->subtype[1]->aliases[0] = "xt"; |
5103 |
if (cpu_family_ptr_by_number(ARCH_X86) != NULL) { |
5104 |
me->next = first_machine_entry; first_machine_entry = me; |
5105 |
} |
5106 |
|
5107 |
/* Walnut: (NetBSD/evbppc) */ |
5108 |
me = machine_entry_new("Walnut evaluation board", ARCH_PPC, |
5109 |
MACHINE_WALNUT, 2, 0); |
5110 |
me->aliases[0] = "walnut"; |
5111 |
me->aliases[1] = "evbppc"; |
5112 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5113 |
me->next = first_machine_entry; first_machine_entry = me; |
5114 |
} |
5115 |
|
5116 |
/* Test-machine for SPARC: */ |
5117 |
me = machine_entry_new("Test-machine for SPARC", ARCH_SPARC, |
5118 |
MACHINE_TESTSPARC, 1, 0); |
5119 |
me->aliases[0] = "testsparc"; |
5120 |
if (cpu_family_ptr_by_number(ARCH_SPARC) != NULL) { |
5121 |
me->next = first_machine_entry; first_machine_entry = me; |
5122 |
} |
5123 |
|
5124 |
/* Test-machine for PPC: */ |
5125 |
me = machine_entry_new("Test-machine for PPC", ARCH_PPC, |
5126 |
MACHINE_TESTPPC, 1, 0); |
5127 |
me->aliases[0] = "testppc"; |
5128 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5129 |
me->next = first_machine_entry; first_machine_entry = me; |
5130 |
} |
5131 |
|
5132 |
/* Test-machine for MIPS: */ |
5133 |
me = machine_entry_new("Test-machine for MIPS", ARCH_MIPS, |
5134 |
MACHINE_TESTMIPS, 1, 0); |
5135 |
me->aliases[0] = "testmips"; |
5136 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5137 |
me->next = first_machine_entry; first_machine_entry = me; |
5138 |
} |
5139 |
|
5140 |
/* Test-machine for M68K: */ |
5141 |
me = machine_entry_new("Test-machine for M68K", ARCH_M68K, |
5142 |
MACHINE_TESTM68K, 1, 0); |
5143 |
me->aliases[0] = "testm68k"; |
5144 |
if (cpu_family_ptr_by_number(ARCH_M68K) != NULL) { |
5145 |
me->next = first_machine_entry; first_machine_entry = me; |
5146 |
} |
5147 |
|
5148 |
/* Test-machine for IA64: */ |
5149 |
me = machine_entry_new("Test-machine for IA64", ARCH_IA64, |
5150 |
MACHINE_TESTIA64, 1, 0); |
5151 |
me->aliases[0] = "testia64"; |
5152 |
if (cpu_family_ptr_by_number(ARCH_IA64) != NULL) { |
5153 |
me->next = first_machine_entry; first_machine_entry = me; |
5154 |
} |
5155 |
|
5156 |
/* Test-machine for ARM: */ |
5157 |
me = machine_entry_new("Test-machine for ARM", ARCH_ARM, |
5158 |
MACHINE_TESTARM, 1, 0); |
5159 |
me->aliases[0] = "testarm"; |
5160 |
if (cpu_family_ptr_by_number(ARCH_ARM) != NULL) { |
5161 |
me->next = first_machine_entry; first_machine_entry = me; |
5162 |
} |
5163 |
|
5164 |
/* Test-machine for Alpha: */ |
5165 |
me = machine_entry_new("Test-machine for Alpha", ARCH_ALPHA, |
5166 |
MACHINE_TESTALPHA, 1, 0); |
5167 |
me->aliases[0] = "testalpha"; |
5168 |
if (cpu_family_ptr_by_number(ARCH_ALPHA) != NULL) { |
5169 |
me->next = first_machine_entry; first_machine_entry = me; |
5170 |
} |
5171 |
|
5172 |
/* Sun Ultra1: */ |
5173 |
me = machine_entry_new("Sun Ultra1", ARCH_SPARC, MACHINE_ULTRA1, 1, 0); |
5174 |
me->aliases[0] = "ultra1"; |
5175 |
if (cpu_family_ptr_by_number(ARCH_SPARC) != NULL) { |
5176 |
me->next = first_machine_entry; first_machine_entry = me; |
5177 |
} |
5178 |
|
5179 |
/* Sony Playstation 2: */ |
5180 |
me = machine_entry_new("Sony Playstation 2", ARCH_MIPS, |
5181 |
MACHINE_PS2, 2, 0); |
5182 |
me->aliases[0] = "playstation2"; |
5183 |
me->aliases[1] = "ps2"; |
5184 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5185 |
me->next = first_machine_entry; first_machine_entry = me; |
5186 |
} |
5187 |
|
5188 |
/* Sony NeWS: */ |
5189 |
me = machine_entry_new("Sony NeWS", ARCH_MIPS, |
5190 |
MACHINE_SONYNEWS, 2, 0); |
5191 |
me->aliases[0] = "sonynews"; |
5192 |
me->aliases[1] = "news"; |
5193 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5194 |
me->next = first_machine_entry; first_machine_entry = me; |
5195 |
} |
5196 |
|
5197 |
/* SGI: */ |
5198 |
me = machine_entry_new("SGI", ARCH_MIPS, MACHINE_SGI, 2, 10); |
5199 |
me->aliases[0] = "silicon graphics"; |
5200 |
me->aliases[1] = "sgi"; |
5201 |
me->subtype[0] = machine_entry_subtype_new("IP12", 12, 1); |
5202 |
me->subtype[0]->aliases[0] = "ip12"; |
5203 |
me->subtype[1] = machine_entry_subtype_new("IP19", 19, 1); |
5204 |
me->subtype[1]->aliases[0] = "ip19"; |
5205 |
me->subtype[2] = machine_entry_subtype_new("IP20", 20, 1); |
5206 |
me->subtype[2]->aliases[0] = "ip20"; |
5207 |
me->subtype[3] = machine_entry_subtype_new("IP22", 22, 2); |
5208 |
me->subtype[3]->aliases[0] = "ip22"; |
5209 |
me->subtype[3]->aliases[1] = "indy"; |
5210 |
me->subtype[4] = machine_entry_subtype_new("IP24", 24, 1); |
5211 |
me->subtype[4]->aliases[0] = "ip24"; |
5212 |
me->subtype[5] = machine_entry_subtype_new("IP27", 27, 3); |
5213 |
me->subtype[5]->aliases[0] = "ip27"; |
5214 |
me->subtype[5]->aliases[1] = "origin 200"; |
5215 |
me->subtype[5]->aliases[2] = "origin 2000"; |
5216 |
me->subtype[6] = machine_entry_subtype_new("IP28", 28, 1); |
5217 |
me->subtype[6]->aliases[0] = "ip28"; |
5218 |
me->subtype[7] = machine_entry_subtype_new("IP30", 30, 2); |
5219 |
me->subtype[7]->aliases[0] = "ip30"; |
5220 |
me->subtype[7]->aliases[1] = "octane"; |
5221 |
me->subtype[8] = machine_entry_subtype_new("IP32", 32, 2); |
5222 |
me->subtype[8]->aliases[0] = "ip32"; |
5223 |
me->subtype[8]->aliases[1] = "o2"; |
5224 |
me->subtype[9] = machine_entry_subtype_new("IP35", 35, 1); |
5225 |
me->subtype[9]->aliases[0] = "ip35"; |
5226 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5227 |
me->next = first_machine_entry; first_machine_entry = me; |
5228 |
} |
5229 |
|
5230 |
/* PReP: (NetBSD/prep etc.) */ |
5231 |
me = machine_entry_new("PowerPC Reference Platform", ARCH_PPC, |
5232 |
MACHINE_PREP, 1, 0); |
5233 |
me->aliases[0] = "prep"; |
5234 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5235 |
me->next = first_machine_entry; first_machine_entry = me; |
5236 |
} |
5237 |
|
5238 |
/* Playstation Portable: */ |
5239 |
me = machine_entry_new("Playstation Portable", ARCH_MIPS, |
5240 |
MACHINE_PSP, 1, 0); |
5241 |
me->aliases[0] = "psp"; |
5242 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5243 |
me->next = first_machine_entry; first_machine_entry = me; |
5244 |
} |
5245 |
|
5246 |
/* NetGear: */ |
5247 |
me = machine_entry_new("NetGear WG602", ARCH_MIPS, |
5248 |
MACHINE_NETGEAR, 2, 0); |
5249 |
me->aliases[0] = "netgear"; |
5250 |
me->aliases[1] = "wg602"; |
5251 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5252 |
me->next = first_machine_entry; first_machine_entry = me; |
5253 |
} |
5254 |
|
5255 |
/* Motorola Sandpoint: (NetBSD/sandpoint) */ |
5256 |
me = machine_entry_new("Motorola Sandpoint", |
5257 |
ARCH_PPC, MACHINE_SANDPOINT, 1, 0); |
5258 |
me->aliases[0] = "sandpoint"; |
5259 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5260 |
me->next = first_machine_entry; first_machine_entry = me; |
5261 |
} |
5262 |
|
5263 |
/* Meshcube: */ |
5264 |
me = machine_entry_new("Meshcube", ARCH_MIPS, MACHINE_MESHCUBE, 1, 0); |
5265 |
me->aliases[0] = "meshcube"; |
5266 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5267 |
me->next = first_machine_entry; first_machine_entry = me; |
5268 |
} |
5269 |
|
5270 |
/* Macintosh (PPC): */ |
5271 |
me = machine_entry_new("Macintosh (PPC)", ARCH_PPC, |
5272 |
MACHINE_MACPPC, 1, 2); |
5273 |
me->aliases[0] = "macppc"; |
5274 |
me->subtype[0] = machine_entry_subtype_new("MacPPC G4", |
5275 |
MACHINE_MACPPC_G4, 1); |
5276 |
me->subtype[0]->aliases[0] = "g4"; |
5277 |
me->subtype[1] = machine_entry_subtype_new("MacPPC G5", |
5278 |
MACHINE_MACPPC_G5, 1); |
5279 |
me->subtype[1]->aliases[0] = "g5"; |
5280 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5281 |
me->next = first_machine_entry; first_machine_entry = me; |
5282 |
} |
5283 |
|
5284 |
/* HPCmips: */ |
5285 |
me = machine_entry_new("Handheld MIPS (HPCmips)", |
5286 |
ARCH_MIPS, MACHINE_HPCMIPS, 1, 8); |
5287 |
me->aliases[0] = "hpcmips"; |
5288 |
me->subtype[0] = machine_entry_subtype_new( |
5289 |
"Casio Cassiopeia BE-300", MACHINE_HPCMIPS_CASIO_BE300, 2); |
5290 |
me->subtype[0]->aliases[0] = "be-300"; |
5291 |
me->subtype[0]->aliases[1] = "be300"; |
5292 |
me->subtype[1] = machine_entry_subtype_new( |
5293 |
"Casio Cassiopeia E-105", MACHINE_HPCMIPS_CASIO_E105, 2); |
5294 |
me->subtype[1]->aliases[0] = "e-105"; |
5295 |
me->subtype[1]->aliases[1] = "e105"; |
5296 |
me->subtype[2] = machine_entry_subtype_new( |
5297 |
"Agenda VR3", MACHINE_HPCMIPS_AGENDA_VR3, 2); |
5298 |
me->subtype[2]->aliases[0] = "agenda"; |
5299 |
me->subtype[2]->aliases[1] = "vr3"; |
5300 |
me->subtype[3] = machine_entry_subtype_new( |
5301 |
"IBM WorkPad Z50", MACHINE_HPCMIPS_IBM_WORKPAD_Z50, 2); |
5302 |
me->subtype[3]->aliases[0] = "workpad"; |
5303 |
me->subtype[3]->aliases[1] = "z50"; |
5304 |
me->subtype[4] = machine_entry_subtype_new( |
5305 |
"NEC MobilePro 770", MACHINE_HPCMIPS_NEC_MOBILEPRO_770, 1); |
5306 |
me->subtype[4]->aliases[0] = "mobilepro770"; |
5307 |
me->subtype[5] = machine_entry_subtype_new( |
5308 |
"NEC MobilePro 780", MACHINE_HPCMIPS_NEC_MOBILEPRO_780, 1); |
5309 |
me->subtype[5]->aliases[0] = "mobilepro780"; |
5310 |
me->subtype[6] = machine_entry_subtype_new( |
5311 |
"NEC MobilePro 800", MACHINE_HPCMIPS_NEC_MOBILEPRO_800, 1); |
5312 |
me->subtype[6]->aliases[0] = "mobilepro800"; |
5313 |
me->subtype[7] = machine_entry_subtype_new( |
5314 |
"NEC MobilePro 880", MACHINE_HPCMIPS_NEC_MOBILEPRO_880, 1); |
5315 |
me->subtype[7]->aliases[0] = "mobilepro880"; |
5316 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5317 |
me->next = first_machine_entry; first_machine_entry = me; |
5318 |
} |
5319 |
|
5320 |
/* Generic "bare" X86 machine: */ |
5321 |
me = machine_entry_new("Generic \"bare\" X86 machine", ARCH_X86, |
5322 |
MACHINE_BAREX86, 1, 0); |
5323 |
me->aliases[0] = "barex86"; |
5324 |
if (cpu_family_ptr_by_number(ARCH_X86) != NULL) { |
5325 |
me->next = first_machine_entry; first_machine_entry = me; |
5326 |
} |
5327 |
|
5328 |
/* Generic "bare" SPARC machine: */ |
5329 |
me = machine_entry_new("Generic \"bare\" SPARC machine", ARCH_SPARC, |
5330 |
MACHINE_BARESPARC, 1, 0); |
5331 |
me->aliases[0] = "baresparc"; |
5332 |
if (cpu_family_ptr_by_number(ARCH_SPARC) != NULL) { |
5333 |
me->next = first_machine_entry; first_machine_entry = me; |
5334 |
} |
5335 |
|
5336 |
/* Generic "bare" PPC machine: */ |
5337 |
me = machine_entry_new("Generic \"bare\" PPC machine", ARCH_PPC, |
5338 |
MACHINE_BAREPPC, 1, 0); |
5339 |
me->aliases[0] = "bareppc"; |
5340 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5341 |
me->next = first_machine_entry; first_machine_entry = me; |
5342 |
} |
5343 |
|
5344 |
/* Generic "bare" MIPS machine: */ |
5345 |
me = machine_entry_new("Generic \"bare\" MIPS machine", ARCH_MIPS, |
5346 |
MACHINE_BAREMIPS, 1, 0); |
5347 |
me->aliases[0] = "baremips"; |
5348 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5349 |
me->next = first_machine_entry; first_machine_entry = me; |
5350 |
} |
5351 |
|
5352 |
/* Generic "bare" M68K machine: */ |
5353 |
me = machine_entry_new("Generic \"bare\" M68K machine", ARCH_M68K, |
5354 |
MACHINE_BAREM68K, 1, 0); |
5355 |
me->aliases[0] = "barem68k"; |
5356 |
if (cpu_family_ptr_by_number(ARCH_M68K) != NULL) { |
5357 |
me->next = first_machine_entry; first_machine_entry = me; |
5358 |
} |
5359 |
|
5360 |
/* Generic "bare" IA64 machine: */ |
5361 |
me = machine_entry_new("Generic \"bare\" IA64 machine", ARCH_IA64, |
5362 |
MACHINE_BAREIA64, 1, 0); |
5363 |
me->aliases[0] = "bareia64"; |
5364 |
if (cpu_family_ptr_by_number(ARCH_IA64) != NULL) { |
5365 |
me->next = first_machine_entry; first_machine_entry = me; |
5366 |
} |
5367 |
|
5368 |
/* Generic "bare" ARM machine: */ |
5369 |
me = machine_entry_new("Generic \"bare\" ARM machine", ARCH_ARM, |
5370 |
MACHINE_BAREARM, 1, 0); |
5371 |
me->aliases[0] = "barearm"; |
5372 |
if (cpu_family_ptr_by_number(ARCH_ARM) != NULL) { |
5373 |
me->next = first_machine_entry; first_machine_entry = me; |
5374 |
} |
5375 |
|
5376 |
/* Generic "bare" Alpha machine: */ |
5377 |
me = machine_entry_new("Generic \"bare\" Alpha machine", ARCH_ALPHA, |
5378 |
MACHINE_BAREALPHA, 1, 0); |
5379 |
me->aliases[0] = "barealpha"; |
5380 |
if (cpu_family_ptr_by_number(ARCH_ALPHA) != NULL) { |
5381 |
me->next = first_machine_entry; first_machine_entry = me; |
5382 |
} |
5383 |
|
5384 |
/* Evaluation Boards (MALTA etc): */ |
5385 |
me = machine_entry_new("Evaluation boards (evbmips)", ARCH_MIPS, |
5386 |
MACHINE_EVBMIPS, 1, 3); |
5387 |
me->aliases[0] = "evbmips"; |
5388 |
me->subtype[0] = machine_entry_subtype_new("Malta", |
5389 |
MACHINE_EVBMIPS_MALTA, 1); |
5390 |
me->subtype[0]->aliases[0] = "malta"; |
5391 |
me->subtype[1] = machine_entry_subtype_new("Malta (Big-Endian)", |
5392 |
MACHINE_EVBMIPS_MALTA_BE, 1); |
5393 |
me->subtype[1]->aliases[0] = "maltabe"; |
5394 |
me->subtype[2] = machine_entry_subtype_new("PB1000", |
5395 |
MACHINE_EVBMIPS_PB1000, 1); |
5396 |
me->subtype[2]->aliases[0] = "pb1000"; |
5397 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5398 |
me->next = first_machine_entry; first_machine_entry = me; |
5399 |
} |
5400 |
|
5401 |
/* DECstation: */ |
5402 |
me = machine_entry_new("DECstation/DECsystem", |
5403 |
ARCH_MIPS, MACHINE_DEC, 3, 9); |
5404 |
me->aliases[0] = "decstation"; |
5405 |
me->aliases[1] = "decsystem"; |
5406 |
me->aliases[2] = "dec"; |
5407 |
me->subtype[0] = machine_entry_subtype_new( |
5408 |
"DECstation 3100 (PMAX)", MACHINE_DEC_PMAX_3100, 3); |
5409 |
me->subtype[0]->aliases[0] = "pmax"; |
5410 |
me->subtype[0]->aliases[1] = "3100"; |
5411 |
me->subtype[0]->aliases[2] = "2100"; |
5412 |
|
5413 |
me->subtype[1] = machine_entry_subtype_new( |
5414 |
"DECstation 5000/200 (3MAX)", MACHINE_DEC_3MAX_5000, 2); |
5415 |
me->subtype[1]->aliases[0] = "3max"; |
5416 |
me->subtype[1]->aliases[1] = "5000/200"; |
5417 |
|
5418 |
me->subtype[2] = machine_entry_subtype_new( |
5419 |
"DECstation 5000/1xx (3MIN)", MACHINE_DEC_3MIN_5000, 2); |
5420 |
me->subtype[2]->aliases[0] = "3min"; |
5421 |
me->subtype[2]->aliases[1] = "5000/1xx"; |
5422 |
|
5423 |
me->subtype[3] = machine_entry_subtype_new( |
5424 |
"DECstation 5000 (3MAXPLUS)", MACHINE_DEC_3MAXPLUS_5000, 2); |
5425 |
me->subtype[3]->aliases[0] = "3maxplus"; |
5426 |
me->subtype[3]->aliases[1] = "3max+"; |
5427 |
|
5428 |
me->subtype[4] = machine_entry_subtype_new( |
5429 |
"DECsystem 58x0", MACHINE_DEC_5800, 2); |
5430 |
me->subtype[4]->aliases[0] = "5800"; |
5431 |
me->subtype[4]->aliases[1] = "58x0"; |
5432 |
|
5433 |
me->subtype[5] = machine_entry_subtype_new( |
5434 |
"DECsystem 5400", MACHINE_DEC_5400, 1); |
5435 |
me->subtype[5]->aliases[0] = "5400"; |
5436 |
|
5437 |
me->subtype[6] = machine_entry_subtype_new( |
5438 |
"DECstation Maxine (5000)", MACHINE_DEC_MAXINE_5000, 1); |
5439 |
me->subtype[6]->aliases[0] = "maxine"; |
5440 |
|
5441 |
me->subtype[7] = machine_entry_subtype_new( |
5442 |
"DECsystem 5500", MACHINE_DEC_5500, 1); |
5443 |
me->subtype[7]->aliases[0] = "5500"; |
5444 |
|
5445 |
me->subtype[8] = machine_entry_subtype_new( |
5446 |
"DECstation MipsMate (5100)", MACHINE_DEC_MIPSMATE_5100, 2); |
5447 |
me->subtype[8]->aliases[0] = "5100"; |
5448 |
me->subtype[8]->aliases[1] = "mipsmate"; |
5449 |
|
5450 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5451 |
me->next = first_machine_entry; first_machine_entry = me; |
5452 |
} |
5453 |
|
5454 |
/* DB64360: (for playing with PMON for PPC) */ |
5455 |
me = machine_entry_new("DB64360", ARCH_PPC, MACHINE_DB64360, 1, 0); |
5456 |
me->aliases[0] = "db64360"; |
5457 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5458 |
me->next = first_machine_entry; first_machine_entry = me; |
5459 |
} |
5460 |
|
5461 |
/* Cobalt: */ |
5462 |
me = machine_entry_new("Cobalt", ARCH_MIPS, MACHINE_COBALT, 1, 0); |
5463 |
me->aliases[0] = "cobalt"; |
5464 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5465 |
me->next = first_machine_entry; first_machine_entry = me; |
5466 |
} |
5467 |
|
5468 |
/* BeBox: (NetBSD/bebox) */ |
5469 |
me = machine_entry_new("BeBox", ARCH_PPC, MACHINE_BEBOX, 1, 0); |
5470 |
me->aliases[0] = "bebox"; |
5471 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5472 |
me->next = first_machine_entry; first_machine_entry = me; |
5473 |
} |
5474 |
|
5475 |
/* Artesyn's PM/PPC board: (NetBSD/pmppc) */ |
5476 |
me = machine_entry_new("Artesyn's PM/PPC board", ARCH_PPC, |
5477 |
MACHINE_PMPPC, 1, 0); |
5478 |
me->aliases[0] = "pmppc"; |
5479 |
if (cpu_family_ptr_by_number(ARCH_PPC) != NULL) { |
5480 |
me->next = first_machine_entry; first_machine_entry = me; |
5481 |
} |
5482 |
|
5483 |
/* ARC: */ |
5484 |
me = machine_entry_new("ARC", ARCH_MIPS, MACHINE_ARC, 1, 8); |
5485 |
me->aliases[0] = "arc"; |
5486 |
|
5487 |
me->subtype[0] = machine_entry_subtype_new( |
5488 |
"Acer PICA-61", MACHINE_ARC_JAZZ_PICA, 3); |
5489 |
me->subtype[0]->aliases[0] = "pica-61"; |
5490 |
me->subtype[0]->aliases[1] = "acer pica"; |
5491 |
me->subtype[0]->aliases[2] = "pica"; |
5492 |
|
5493 |
me->subtype[1] = machine_entry_subtype_new( |
5494 |
"Deskstation Tyne", MACHINE_ARC_DESKTECH_TYNE, 3); |
5495 |
me->subtype[1]->aliases[0] = "deskstation tyne"; |
5496 |
me->subtype[1]->aliases[1] = "desktech"; |
5497 |
me->subtype[1]->aliases[2] = "tyne"; |
5498 |
|
5499 |
me->subtype[2] = machine_entry_subtype_new( |
5500 |
"Jazz Magnum", MACHINE_ARC_JAZZ_MAGNUM, 2); |
5501 |
me->subtype[2]->aliases[0] = "magnum"; |
5502 |
me->subtype[2]->aliases[1] = "jazz magnum"; |
5503 |
|
5504 |
me->subtype[3] = machine_entry_subtype_new( |
5505 |
"NEC-R94", MACHINE_ARC_NEC_R94, 2); |
5506 |
me->subtype[3]->aliases[0] = "nec-r94"; |
5507 |
me->subtype[3]->aliases[1] = "r94"; |
5508 |
|
5509 |
me->subtype[4] = machine_entry_subtype_new( |
5510 |
"NEC-RD94", MACHINE_ARC_NEC_RD94, 2); |
5511 |
me->subtype[4]->aliases[0] = "nec-rd94"; |
5512 |
me->subtype[4]->aliases[1] = "rd94"; |
5513 |
|
5514 |
me->subtype[5] = machine_entry_subtype_new( |
5515 |
"NEC-R96", MACHINE_ARC_NEC_R96, 2); |
5516 |
me->subtype[5]->aliases[0] = "nec-r96"; |
5517 |
me->subtype[5]->aliases[1] = "r96"; |
5518 |
|
5519 |
me->subtype[6] = machine_entry_subtype_new( |
5520 |
"NEC-R98", MACHINE_ARC_NEC_R98, 2); |
5521 |
me->subtype[6]->aliases[0] = "nec-r98"; |
5522 |
me->subtype[6]->aliases[1] = "r98"; |
5523 |
|
5524 |
me->subtype[7] = machine_entry_subtype_new( |
5525 |
"Olivetti M700", MACHINE_ARC_JAZZ_M700, 2); |
5526 |
me->subtype[7]->aliases[0] = "olivetti"; |
5527 |
me->subtype[7]->aliases[1] = "m700"; |
5528 |
|
5529 |
if (cpu_family_ptr_by_number(ARCH_MIPS) != NULL) { |
5530 |
me->next = first_machine_entry; first_machine_entry = me; |
5531 |
} |
5532 |
|
5533 |
/* Alpha: */ |
5534 |
me = machine_entry_new("Alpha", ARCH_ALPHA, MACHINE_ALPHA, 1, 1); |
5535 |
me->aliases[0] = "alpha"; |
5536 |
me->subtype[0] = machine_entry_subtype_new( |
5537 |
"DEC 3000/300", ST_DEC_3000_300, 1); |
5538 |
me->subtype[0]->aliases[0] = "3000/300"; |
5539 |
if (cpu_family_ptr_by_number(ARCH_ALPHA) != NULL) { |
5540 |
me->next = first_machine_entry; first_machine_entry = me; |
5541 |
} |
5542 |
} |
5543 |
|