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expansion.cpp
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expansion.cpp
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/*
* UAE - The Un*x Amiga Emulator
*
* AutoConfig (tm) Expansions (ZorroII/III)
*
* Copyright 1996,1997 Stefan Reinauer <[email protected]>
* Copyright 1997 Brian King <[email protected]>
* - added gfxcard code
*
*/
#include "sysconfig.h"
#include "sysdeps.h"
#include "options.h"
#include "uae.h"
#include "traps.h"
#include "memory.h"
#include "rommgr.h"
#include "custom.h"
#include "newcpu.h"
#include "savestate.h"
#include "zfile.h"
#include "catweasel.h"
#include "cdtv.h"
#include "cdtvcr.h"
#include "threaddep/thread.h"
#include "a2091.h"
#include "a2065.h"
#include "gfxboard.h"
#ifdef CD32
#include "cd32_fmv.h"
#endif
#include "ncr_scsi.h"
#include "ncr9x_scsi.h"
#include "scsi.h"
#include "debug.h"
#include "gayle.h"
#include "idecontrollers.h"
#include "cpuboard.h"
#include "sndboard.h"
#include "uae/ppc.h"
#include "autoconf.h"
#include "specialmonitors.h"
#include "inputdevice.h"
#include "pci.h"
#include "x86.h"
#include "filesys.h"
#include "ethernet.h"
#include "sana2.h"
#include "arcadia.h"
#include "devices.h"
#include "dsp3210/dsp_glue.h"
#define CARD_FLAG_CAN_Z3 1
#define CARD_FLAG_CHILD 8
#define CARD_FLAG_UAEROM 16
// More information in first revision HRM Appendix_G
#define BOARD_PROTOAUTOCONFIG 1
#define BOARD_AUTOCONFIG_Z2 2
#define BOARD_AUTOCONFIG_Z3 3
#define BOARD_NONAUTOCONFIG_BEFORE 4
#define BOARD_NONAUTOCONFIG_AFTER_Z2 5
#define BOARD_NONAUTOCONFIG_AFTER_Z3 6
#define BOARD_IGNORE 7
#define KS12_BOOT_HACK 1
#define EXP_DEBUG 0
#define MAX_EXPANSION_BOARD_SPACE 16
/* ********************************************************** */
/* 00 / 02 */
/* er_Type */
#define Z2_MEM_8MB 0x00 /* Size of Memory Block */
#define Z2_MEM_4MB 0x07
#define Z2_MEM_2MB 0x06
#define Z2_MEM_1MB 0x05
#define Z2_MEM_512KB 0x04
#define Z2_MEM_256KB 0x03
#define Z2_MEM_128KB 0x02
#define Z2_MEM_64KB 0x01
/* extended definitions */
#define Z3_MEM_16MB 0x00
#define Z3_MEM_32MB 0x01
#define Z3_MEM_64MB 0x02
#define Z3_MEM_128MB 0x03
#define Z3_MEM_256MB 0x04
#define Z3_MEM_512MB 0x05
#define Z3_MEM_1GB 0x06
#define chainedconfig 0x08 /* Next config is part of the same card */
#define rom_card 0x10 /* ROM vector is valid */
#define add_memory 0x20 /* Link RAM into free memory list */
/* Type of Expansion Card */
#define protoautoconfig 0x40
#define zorroII 0xc0
#define zorroIII 0x80
/* ********************************************************** */
/* 04 - 06 & 10-16 */
/* Manufacturer */
#define commodore_g 513 /* Commodore Braunschweig (Germany) */
#define commodore 514 /* Commodore West Chester */
#define gvp 2017 /* GVP */
#define ass 2102 /* Advanced Systems & Software */
#define hackers_id 2011 /* Special ID for test cards */
/* Card Type */
#define commodore_a2091 3 /* A2091 / A590 Card from C= */
#define commodore_a2091_ram 10 /* A2091 / A590 Ram on HD-Card */
#define commodore_a2232 70 /* A2232 Multiport Expansion */
#define ass_nexus_scsi 1 /* Nexus SCSI Controller */
#define gvp_series_2_scsi 11
#define gvp_iv_24_gfx 32
/* ********************************************************** */
/* 08 - 0A */
/* er_Flags */
#define Z3_SS_MEM_SAME 0x00
#define Z3_SS_MEM_AUTO 0x01
#define Z3_SS_MEM_64KB 0x02
#define Z3_SS_MEM_128KB 0x03
#define Z3_SS_MEM_256KB 0x04
#define Z3_SS_MEM_512KB 0x05
#define Z3_SS_MEM_1MB 0x06 /* Zorro III card subsize */
#define Z3_SS_MEM_2MB 0x07
#define Z3_SS_MEM_4MB 0x08
#define Z3_SS_MEM_6MB 0x09
#define Z3_SS_MEM_8MB 0x0a
#define Z3_SS_MEM_10MB 0x0b
#define Z3_SS_MEM_12MB 0x0c
#define Z3_SS_MEM_14MB 0x0d
#define Z3_SS_MEM_defunct1 0x0e
#define Z3_SS_MEM_defunct2 0x0f
#define force_z3 0x10 /* *MUST* be set if card is Z3 */
#define ext_size 0x20 /* Use extended size table for bits 0-2 of er_Type */
#define no_shutup 0x40 /* Card cannot receive Shut_up_forever */
#define care_addr 0x80 /* Z2=Adress HAS to be $200000-$9fffff Z3=1->mem,0=io */
/* ********************************************************** */
/* 40-42 */
/* ec_interrupt (unused) */
#define enable_irq 0x01 /* enable Interrupt */
#define reset_card 0x04 /* Reset of Expansion Card - must be 0 */
#define card_int2 0x10 /* READ ONLY: IRQ 2 active */
#define card_irq6 0x20 /* READ ONLY: IRQ 6 active */
#define card_irq7 0x40 /* READ ONLY: IRQ 7 active */
#define does_irq 0x80 /* READ ONLY: Card currently throws IRQ */
/* ********************************************************** */
/* ROM defines (DiagVec) */
#define rom_4bit (0x00<<14) /* ROM width */
#define rom_8bit (0x01<<14)
#define rom_16bit (0x02<<14)
#define rom_never (0x00<<12) /* Never run Boot Code */
#define rom_install (0x01<<12) /* run code at install time */
#define rom_binddrv (0x02<<12) /* run code with binddrivers */
uaecptr ROM_filesys_resname, ROM_filesys_resid;
uaecptr ROM_filesys_diagentry;
uaecptr ROM_hardfile_resname, ROM_hardfile_resid;
uaecptr ROM_hardfile_init;
int uae_boot_rom_type;
int uae_boot_rom_size; /* size = code size only */
static bool chipdone;
static int do_mount;
#define FILESYS_DIAGPOINT 0x01e0
#define FILESYS_BOOTPOINT 0x01f0
#define FILESYS_DIAGAREA 0x2000
/* ********************************************************** */
struct card_data
{
bool (*initrc)(struct autoconfig_info*);
bool (*initnum)(struct autoconfig_info*);
addrbank *(*map)(struct autoconfig_info*);
struct romconfig *rc;
const TCHAR *name;
int flags;
int zorro;
uaecptr base;
uae_u32 size;
// parsing updated fields
const struct expansionromtype *ert;
const struct cpuboardsubtype *cst;
struct autoconfig_info aci;
};
static struct card_data cards_set[MAX_EXPANSION_BOARD_SPACE];
static struct card_data *cards[MAX_EXPANSION_BOARD_SPACE];
static int ecard, cardno, z3num;
static int restore_cardno;
static addrbank *expamem_bank_current;
static uae_u16 uae_id;
static bool isnonautoconfig(int v)
{
return v == BOARD_NONAUTOCONFIG_AFTER_Z2 ||
v == BOARD_NONAUTOCONFIG_AFTER_Z3 ||
v == BOARD_NONAUTOCONFIG_BEFORE;
}
static bool ks12orolder(void)
{
/* check if Kickstart version is below 1.3 */
return kickstart_version && kickstart_version < 34;
}
static bool ks11orolder(void)
{
return kickstart_version && kickstart_version < 33;
}
/* ********************************************************** */
/* Please note: ZorroIII implementation seems to work different
* than described in the HRM. This claims that ZorroIII config
* address is 0xff000000 while the ZorroII config space starts
* at 0x00e80000. In reality, both, Z2 and Z3 cards are
* configured in the ZorroII config space. Kickstart 3.1 doesn't
* even do a single read or write access to the ZorroIII space.
* The original Amiga include files tell the same as the HRM.
* ZorroIII: If you set ext_size in er_Flags and give a Z2-size
* in er_Type you can very likely add some ZorroII address space
* to a ZorroIII card on a real Amiga. This is not implemented
* yet.
* -- Stefan
*
* Surprising that 0xFF000000 isn't used. Maybe it depends on the
* ROM. Anyway, the HRM says that Z3 cards may appear in Z2 config
* space, so what we are doing here is correct.
* -- Bernd
*/
/* Autoconfig address space at 0xE80000 */
static uae_u8 expamem[65536 + 4];
static uae_u8 expamem_write_space[65536 + 4];
#define AUTOMATIC_AUTOCONFIG_MAX_ADDRESS 0x80
static int expamem_autoconfig_mode;
static addrbank*(*expamem_map)(struct autoconfig_info*);
static uae_u8 expamem_lo;
static uae_u16 expamem_hi;
uaecptr expamem_z3_pointer_real, expamem_z3_pointer_uae;
uaecptr expamem_z3_highram_real, expamem_z3_highram_uae;
uaecptr expamem_highmem_pointer;
uae_u32 expamem_board_size;
uaecptr expamem_board_pointer;
static uae_u8 slots_e8[8] = { 0 };
static uae_u8 slots_20[(8 * 1024 * 1024) / 65536] = { 0 };
static int z3hack_override;
void set_expamem_z3_hack_mode(int mode)
{
z3hack_override = mode;
}
bool expamem_z3hack(struct uae_prefs *p)
{
if (z3hack_override == Z3MAPPING_UAE)
return true;
if (z3hack_override == Z3MAPPING_REAL)
return false;
return p->z3_mapping_mode == Z3MAPPING_UAE || cpuboard_memorytype(p) == BOARD_MEMORY_BLIZZARD_12xx;
}
/* Ugly hack for >2M chip RAM in single pool
* We can't add it any later or early boot menu
* stops working because it sets kicktag at the end
* of chip ram...
*/
static void addextrachip (uae_u32 sysbase)
{
if (currprefs.chipmem.size <= 0x00200000)
return;
if (sysbase & 0x80000001)
return;
if (!valid_address (sysbase, 1000))
return;
uae_u32 ml = get_long (sysbase + 322);
if (!valid_address (ml, 32))
return;
uae_u32 next;
while ((next = get_long (ml))) {
if (!valid_address (ml, 32))
return;
uae_u32 upper = get_long (ml + 24);
uae_u32 lower = get_long (ml + 20);
if (lower & ~0xffff) {
ml = next;
continue;
}
uae_u16 attr = get_word (ml + 14);
if ((attr & 0x8002) != 2) {
ml = next;
continue;
}
if (upper >= currprefs.chipmem.size)
return;
uae_u32 added = currprefs.chipmem.size - upper;
uae_u32 first = get_long (ml + 16);
put_long (ml + 24, currprefs.chipmem.size); // mh_Upper
put_long (ml + 28, get_long (ml + 28) + added); // mh_Free
uae_u32 next = 0;
while (first) {
next = first;
first = get_long (next);
}
if (next) {
uae_u32 bytes = get_long(next + 4);
if (next + bytes == 0x00200000) {
put_long(next + 4, currprefs.chipmem.size - next);
} else {
put_long(0x00200000 + 0, 0);
put_long(0x00200000 + 4, added);
put_long(next, 0x00200000);
}
}
return;
}
}
addrbank expamem_null, expamem_none;
DECLARE_MEMORY_FUNCTIONS(expamem_write);
addrbank expamem_write_bank = {
expamem_write_lget, expamem_write_wget, expamem_write_bget,
expamem_write_lput, expamem_write_wput, expamem_write_bput,
default_xlate, default_check, NULL, NULL, _T("Autoconfig Z2 WRITE"),
dummy_lgeti, dummy_wgeti,
ABFLAG_IO | ABFLAG_SAFE | ABFLAG_PPCIOSPACE, S_READ, S_WRITE
};
DECLARE_MEMORY_FUNCTIONS(expamem);
addrbank expamem_bank = {
expamem_lget, expamem_wget, expamem_bget,
expamem_lput, expamem_wput, expamem_bput,
default_xlate, default_check, NULL, NULL, _T("Autoconfig Z2"),
dummy_lgeti, dummy_wgeti,
ABFLAG_IO | ABFLAG_SAFE | ABFLAG_PPCIOSPACE, S_READ, S_WRITE
};
DECLARE_MEMORY_FUNCTIONS(expamemz3);
static addrbank expamemz3_bank = {
expamemz3_lget, expamemz3_wget, expamemz3_bget,
expamemz3_lput, expamemz3_wput, expamemz3_bput,
default_xlate, default_check, NULL, NULL, _T("Autoconfig Z3"),
dummy_lgeti, dummy_wgeti,
ABFLAG_IO | ABFLAG_SAFE | ABFLAG_PPCIOSPACE, S_READ, S_WRITE
};
static addrbank *expamem_map_clear (void)
{
write_log (_T("expamem_map_clear() got called. Shouldn't happen.\n"));
return NULL;
}
static void expamem_init_clear (void)
{
memset (expamem, 0xff, sizeof expamem);
expamem_hi = expamem_lo = 0;
expamem_map = NULL;
}
/* autoconfig area is "non-existing" after last device */
static void expamem_init_clear_zero (void)
{
if (currprefs.cpu_model < 68020) {
map_banks(&dummy_bank, 0xe8, 1, 0);
if (!currprefs.address_space_24)
map_banks(&dummy_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
} else {
map_banks(&expamem_bank, 0xe8, 1, 0);
if (!currprefs.address_space_24)
map_banks(&expamemz3_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
}
expamem_bank_current = NULL;
}
static void expamem_init_clear2 (void)
{
expamem_bank.name = _T("Autoconfig Z2");
expamemz3_bank.name = _T("Autoconfig Z3");
expamem_init_clear_zero ();
ecard = cardno;
}
static addrbank *expamem_init_last (void)
{
expamem_init_clear2 ();
write_log (_T("Memory map after autoconfig:\n"));
memory_map_dump ();
mman_set_barriers(false);
return NULL;
}
static uae_u8 REGPARAM2 expamem_read(int addr)
{
uae_u8 b = (expamem[addr] & 0xf0) | (expamem[addr + 2] >> 4);
if (addr == 0 || addr == 2 || addr == 0x40 || addr == 0x42)
return b;
b = ~b;
return b;
}
static void REGPARAM2 expamem_write(uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
if (addr == 00 || addr == 02 || addr == 0x40 || addr == 0x42) {
expamem[addr] = (value & 0xf0);
expamem[addr + 2] = (value & 0x0f) << 4;
} else {
expamem[addr] = ~(value & 0xf0);
expamem[addr + 2] = ~((value & 0x0f) << 4);
}
}
static int REGPARAM2 expamem_type (void)
{
return expamem_read(0) & 0xc0;
}
void expansion_cpu_fallback(void)
{
if (ecard < cardno) {
card_data *cd = cards[ecard];
if (cd->cst && (cd->cst->deviceflags & EXPANSIONTYPE_FALLBACK_DISABLE)) {
expamem_next(NULL, NULL);
}
}
}
static void call_card_init(int index)
{
addrbank *ab, *abe;
bool ok = false;
card_data *cd = cards[ecard];
struct autoconfig_info *aci = &cd->aci;
if (currprefs.address_space_24 && cd->cst && (cd->cst->deviceflags & EXPANSIONTYPE_FALLBACK_DISABLE)) {
write_log(_T("Card %d: skipping autoconfig (fallback mode)\n"), ecard);
expamem_next(NULL, NULL);
return;
}
expamem_bank.name = cd->name ? cd->name : _T("None");
aci->prefs = &currprefs;
aci->doinit = true;
aci->devnum = (cd->flags >> 16) & 255;
aci->ert = cd->ert;
aci->cst = cd->cst;
aci->rc = cd->rc;
aci->zorro = cd->zorro;
memset(aci->autoconfig_raw, 0xff, sizeof aci->autoconfig_raw);
if (cd->initnum) {
ok = cd->initnum(aci);
} else {
ok = cd->initrc(aci);
}
if (ok) {
ab = NULL;
if (!cd->map)
ab = aci->addrbank;
} else {
write_log(_T("Card %d: skipping autoconfig (init failed)\n"), ecard);
expamem_next(NULL, NULL);
return;
}
if (ab == &expamem_none) {
write_log(_T("Card %d: skipping autoconfig (none)\n"), ecard);
expamem_init_clear();
expamem_init_clear_zero();
map_banks(&expamem_bank, 0xE8, 1, 0);
if (!currprefs.address_space_24)
map_banks(&dummy_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
expamem_bank_current = NULL;
return;
}
if (ab == &expamem_null || cd->zorro < 1 || cd->zorro > 3 || aci->zorro < 0) {
write_log(_T("Card %d: skipping autoconfig (not autoconfig)\n"), ecard);
expamem_next(NULL, NULL);
return;
}
expamem_board_pointer = cd->base;
expamem_board_size = cd->size;
abe = ab;
if (!abe)
abe = &expamem_bank;
expamem_autoconfig_mode = 0;
if (abe != &expamem_bank) {
if (aci->autoconfig_automatic) {
if (aci->autoconfigp) {
memset(expamem, 0xff, AUTOMATIC_AUTOCONFIG_MAX_ADDRESS);
for (int i = 0; i < 16; i++) {
expamem_write(i * 4, aci->autoconfig_bytes[i]);
}
expamem_autoconfig_mode = 1;
} else if (aci->autoconfig_bytes) {
memset(expamem, 0xff, AUTOMATIC_AUTOCONFIG_MAX_ADDRESS);
for (int i = 0; i < 16; i++) {
expamem_write(i * 4, aci->autoconfig_bytes[i]);
}
expamem_autoconfig_mode = 1;
} else if (aci->autoconfig_raw) {
memcpy(expamem, aci->autoconfig_raw, sizeof aci->autoconfig_raw);
}
} else {
for (int i = 0; i < 16 * 4; i++) {
expamem[i] = abe->sub_banks ? abe->sub_banks[0].bank->bget(i) : abe->bget(i);
}
}
}
if (aci->write_bank_address && aci->write_bank_address != 0xffffffff) {
map_banks(&expamem_write_bank, aci->write_bank_address >> 16, aci->size >> 16, 0);
}
if (ab) {
// non-NULL: not using expamem_bank
expamem_bank_current = ab;
if ((cd->flags & CARD_FLAG_CAN_Z3) && currprefs.cs_z3autoconfig && !currprefs.address_space_24) {
map_banks(&expamemz3_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
map_banks(&dummy_bank, 0xE8, 1, 0);
} else {
map_banks(&expamem_bank, 0xE8, 1, 0);
if (!currprefs.address_space_24)
map_banks(&dummy_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
}
} else {
if ((cd->flags & CARD_FLAG_CAN_Z3) && currprefs.cs_z3autoconfig && !currprefs.address_space_24) {
map_banks(&expamemz3_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
map_banks(&dummy_bank, 0xE8, 1, 0);
expamem_bank_current = &expamem_bank;
} else {
map_banks(&expamem_bank, 0xE8, 1, 0);
if (!currprefs.address_space_24)
map_banks(&dummy_bank, AUTOCONFIG_Z3 >> 16, 1, 0);
expamem_bank_current = NULL;
}
}
}
static void boardmessage(addrbank *mapped, bool success)
{
uae_u8 type = expamem_read(0);
int size = expamem_board_size;
TCHAR sizemod = 'K';
size /= 1024;
if (size > 8 * 1024) {
sizemod = 'M';
size /= 1024;
}
write_log (_T("Card %d: Z%d 0x%08x %4d%c %s %s%s\n"),
ecard + 1, (type & 0xc0) == zorroII ? 2 : ((type & 0xc0) == zorroIII ? 3 : 1),
expamem_board_pointer, size, sizemod,
type & rom_card ? _T("ROM") : (type & add_memory ? _T("RAM") : _T("IO ")),
mapped->name,
success ? _T("") : _T(" [SHUT UP]"));
#if 0
for (int i = 0; i < 16; i++) {
write_log(_T("%s%02X"), i > 0 ? _T(".") : _T(""), expamem_read(i * 4));
}
write_log(_T("\n"));
#endif
}
void expamem_shutup(addrbank *mapped)
{
if (mapped) {
mapped->start = 0xffffffff;
boardmessage(mapped, false);
}
expamem_next(mapped, NULL);
}
void expamem_next(addrbank *mapped, addrbank *next)
{
if (mapped)
boardmessage(mapped, mapped->start != 0xffffffff);
expamem_init_clear();
expamem_init_clear_zero();
for (;;) {
++ecard;
if (ecard >= cardno)
break;
struct card_data *ec = cards[ecard];
if (ec->zorro == 3 && ec->base == 0xffffffff) {
write_log(_T("Autoconfig chain enumeration aborted, 32-bit address space overflow.\n"));
ecard = cardno;
break;
}
if (ec->initrc && isnonautoconfig(ec->zorro)) {
struct autoconfig_info aci = { 0 };
aci.doinit = true;
aci.prefs = &currprefs;
aci.rc = cards[ecard]->rc;
aci.devnum = (ec->flags >> 16) & 255;
ec->initrc(&aci);
} else {
call_card_init(ecard);
break;
}
}
if (ecard >= cardno) {
expamem_init_clear2();
expamem_init_last();
}
}
static void expamemz3_map(void)
{
uaecptr addr = ((expamem_hi << 8) | expamem_lo) << 16;
if (!expamem_z3hack(&currprefs)) {
expamem_board_pointer = addr;
} else {
if (addr != expamem_board_pointer) {
put_word (regs.regs[11] + 0x20, expamem_board_pointer >> 16);
put_word (regs.regs[11] + 0x28, expamem_board_pointer >> 16);
}
}
}
// only for custom autoconfig device development purposes, not in use in any normal config
static uae_u32 REGPARAM2 expamem_write_lget(uaecptr addr)
{
addr &= 0xffff;
return (expamem_write_space[addr + 0] << 24) | (expamem_write_space[addr + 1] << 16) | (expamem_write_space[addr + 2] << 8) | (expamem_write_space[addr + 3] << 0);
}
static uae_u32 REGPARAM2 expamem_write_wget(uaecptr addr)
{
addr &= 0xffff;
return (expamem_write_space[addr + 0] << 8) | (expamem_write_space[addr + 1] << 0);
}
static uae_u32 REGPARAM2 expamem_write_bget(uaecptr addr)
{
addr &= 0xffff;
return expamem_write_space[addr];
}
static void REGPARAM2 expamem_write_lput(uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
expamem_write_space[addr + 0] = value >> 24;
expamem_write_space[addr + 1] = value >> 16;
expamem_write_space[addr + 2] = value >> 8;
expamem_write_space[addr + 3] = value >> 0;
}
static void REGPARAM2 expamem_write_wput(uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
expamem_write_space[addr + 0] = value >> 8;
expamem_write_space[addr + 1] = value;
}
static void REGPARAM2 expamem_write_bput(uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
expamem_write_space[addr] = value;
}
static uae_u32 REGPARAM2 expamem_lget (uaecptr addr)
{
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
if (expamem_autoconfig_mode && (addr & 0xffff) < AUTOMATIC_AUTOCONFIG_MAX_ADDRESS) {
return (expamem_wget(addr) << 16) | expamem_wget(addr + 2);
}
return expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->lget(addr) : expamem_bank_current->lget(addr);
}
write_log (_T("warning: Z2 READ.L from address $%08x PC=%x\n"), addr, M68K_GETPC);
return (expamem_wget (addr) << 16) | expamem_wget (addr + 2);
}
static uae_u32 REGPARAM2 expamem_wget (uaecptr addr)
{
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
if (expamem_autoconfig_mode && (addr & 0xffff) < AUTOMATIC_AUTOCONFIG_MAX_ADDRESS) {
return (expamem_bget(addr) << 8) | expamem_bget(addr + 1);
}
return expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->wget(addr) : expamem_bank_current->wget(addr);
}
if (expamem_type() != zorroIII) {
if (expamem_bank_current && expamem_bank_current != &expamem_bank)
return expamem_bank_current->bget(addr) << 8;
}
uae_u32 v = (expamem_bget (addr) << 8) | expamem_bget (addr + 1);
if (cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8) {
uae_u32 val = v;
cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8(addr, &val, 2, false);
v = val;
}
write_log (_T("warning: READ.W from address $%08x=%04x PC=%x\n"), addr, v & 0xffff, M68K_GETPC);
return v;
}
static uae_u32 REGPARAM2 expamem_bget (uaecptr addr)
{
uae_u8 b;
if (!chipdone) {
chipdone = true;
addextrachip (get_long (4));
}
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
if (expamem_autoconfig_mode && (addr & 0xffff) < AUTOMATIC_AUTOCONFIG_MAX_ADDRESS) {
return expamem[addr & 0xffff];
}
return expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->bget(addr) : expamem_bank_current->bget(addr);
}
addr &= 0xFFFF;
b = expamem[addr];
if (cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8) {
uae_u32 val = b;
cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8(addr, &val, 1, false);
b = val;
}
#if EXP_DEBUG
write_log (_T("expamem_bget %x %x\n"), addr, b);
#endif
return b;
}
static void REGPARAM2 expamem_lput (uaecptr addr, uae_u32 value)
{
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
if (expamem_autoconfig_mode && (addr & 0xffff) < AUTOMATIC_AUTOCONFIG_MAX_ADDRESS) {
return;
}
expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->lput(addr, value) : expamem_bank_current->lput(addr, value);
return;
}
write_log (_T("warning: Z2 WRITE.L to address $%08x : value $%08x\n"), addr, value);
}
static void REGPARAM2 expamem_wput (uaecptr addr, uae_u32 value)
{
#if EXP_DEBUG
write_log (_T("expamem_wput %x %x\n"), addr, value);
#endif
value &= 0xffff;
if (cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8) {
if (cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8(addr, &value, 2, true))
return;
}
if (ecard >= cardno)
return;
card_data *cd = cards[ecard];
if (!expamem_map)
expamem_map = cd->map;
if (expamem_type () != zorroIII) {
write_log (_T("warning: WRITE.W to address $%08x : value $%x PC=%08x\n"), addr, value, M68K_GETPC);
}
switch (addr & 0xff) {
case 0x48:
// A2630 boot rom writes WORDs to Z2 boards!
if (expamem_type() == zorroII) {
expamem_lo = 0;
expamem_hi = (value >> 8) & 0xff;
expamem_board_pointer = (expamem_hi | (expamem_lo >> 4)) << 16;
if (expamem_map) {
expamem_next(expamem_map(&cd->aci), NULL);
return;
}
if (expamem_autoconfig_mode) {
map_banks_z2(cd->aci.addrbank, expamem_board_pointer >> 16, expamem_board_size >> 16);
cd->aci.postinit = true;
cd->initrc(&cd->aci);
expamem_next(cd->aci.addrbank, NULL);
return;
}
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->bput(addr, value >> 8) : expamem_bank_current->bput(addr, value >> 8);
return;
}
}
// Z3 = do nothing
break;
case 0x44:
if (expamem_type() == zorroIII) {
expamem_hi = (value & 0xff00) >> 8;
expamem_lo = value & 0x00ff;
expamemz3_map();
}
if (expamem_map) {
expamem_next(expamem_map(&cd->aci), NULL);
return;
}
if (expamem_autoconfig_mode) {
map_banks_z3(cd->aci.addrbank, expamem_board_pointer >> 16, expamem_board_size >> 16);
cd->aci.postinit = true;
cd->initrc(&cd->aci);
expamem_next(cd->aci.addrbank, NULL);
return;
}
break;
case 0x4c:
if (expamem_map) {
expamem_next (NULL, NULL);
return;
}
break;
}
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->wput(addr, value) : expamem_bank_current->wput(addr, value);
}
}
static void REGPARAM2 expamem_bput (uaecptr addr, uae_u32 value)
{
#if EXP_DEBUG
write_log (_T("expamem_bput %x %x\n"), addr, value);
#endif
value &= 0xff;
if (cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8) {
if (cpuboards[currprefs.cpuboard_type].subtypes[currprefs.cpuboard_subtype].e8(addr, &value, 1, true))
return;
}
if (ecard >= cardno)
return;
card_data *cd = cards[ecard];
if (!expamem_map)
expamem_map = cd->map;
if (expamem_type() == protoautoconfig) {
switch (addr & 0xff) {
case 0x22:
expamem_hi = value & 0x7f;
expamem_board_pointer = AUTOCONFIG_Z2 | (expamem_hi * 4096);
if (expamem_map) {
expamem_next(expamem_map(&cd->aci), NULL);
return;
}
break;
}
} else {
switch (addr & 0xff) {
case 0x48:
if (expamem_type() == zorroII) {
expamem_hi = value & 0xff;
expamem_board_pointer = (expamem_hi | (expamem_lo >> 4)) << 16;
if (expamem_map) {
expamem_next(expamem_map(&cd->aci), NULL);
return;
}
if (expamem_autoconfig_mode) {
map_banks_z2(cd->aci.addrbank, expamem_board_pointer >> 16, expamem_board_size >> 16);
cd->aci.postinit = true;
cd->initrc(&cd->aci);
expamem_next(cd->aci.addrbank, NULL);
return;
}
} else {
expamem_lo = value & 0xff;
}
break;
case 0x44:
if (expamem_type() == zorroIII) {
expamem_hi = value & 0xff;
expamemz3_map();
if (expamem_map) {
expamem_next(expamem_map(&cd->aci), NULL);
return;
}
if (expamem_autoconfig_mode) {
map_banks_z3(cd->aci.addrbank, expamem_board_pointer >> 16, expamem_board_size >> 16);
cd->aci.postinit = true;
cd->initrc(&cd->aci);
expamem_next(cd->aci.addrbank, NULL);
return;
}
}
break;
case 0x4a:
if (expamem_type () == zorroII) {
expamem_lo = value & 0xff;
}
if (expamem_autoconfig_mode)
return;
break;
case 0x4c:
if (expamem_map) {
expamem_hi = expamem_lo = 0xff;
expamem_board_pointer = 0xffffffff;
addrbank *ab = expamem_map(&cd->aci);
if (ab)
ab->start = 0xffffffff;
expamem_next(ab, NULL);
return;
}
break;
}
}
if (expamem_bank_current && expamem_bank_current != &expamem_bank) {
expamem_bank_current->sub_banks ? expamem_bank_current->sub_banks[0].bank->bput(addr, value) : expamem_bank_current->bput(addr, value);
}
}
static uae_u32 REGPARAM2 expamemz3_bget (uaecptr addr)
{
int reg = addr & 0xff;
if (!expamem_bank_current)
return 0;
if (addr & 0x100)
reg += 2;
return expamem_bank_current->bget(reg + 0);
}
static uae_u32 REGPARAM2 expamemz3_wget (uaecptr addr)
{
uae_u32 v = (expamemz3_bget (addr) << 8) | expamemz3_bget (addr + 1);
write_log (_T("warning: Z3 READ.W from address $%08x=%04x PC=%x\n"), addr, v & 0xffff, M68K_GETPC);
return v;
}
static uae_u32 REGPARAM2 expamemz3_lget (uaecptr addr)
{
write_log (_T("warning: Z3 READ.L from address $%08x PC=%x\n"), addr, M68K_GETPC);
return (expamemz3_wget (addr) << 16) | expamemz3_wget (addr + 2);
}
static void REGPARAM2 expamemz3_bput (uaecptr addr, uae_u32 value)
{
int reg = addr & 0xff;
if (!expamem_bank_current)
return;
if (addr & 0x100)
reg += 2;
if (reg == 0x48) {
if (expamem_type() == zorroII) {
expamem_hi = value & 0xff;
expamem_board_pointer = (expamem_hi | (expamem_lo >> 4)) << 16;
} else {
expamem_lo = value & 0xff;
}
} else if (reg == 0x44) {
if (expamem_type() == zorroIII) {
expamem_hi = value & 0xff;
expamemz3_map();
}
} else if (reg == 0x4a) {
if (expamem_type() == zorroII)
expamem_lo = value & 0xff;
}
expamem_bank_current->bput(reg, value);
}
static void REGPARAM2 expamemz3_wput (uaecptr addr, uae_u32 value)
{
int reg = addr & 0xff;
if (!expamem_bank_current)
return;
if (addr & 0x100)
reg += 2;
if (reg == 0x44) {
if (expamem_type() == zorroIII) {
expamem_hi = (value & 0xff00) >> 8;
expamem_lo = value & 0x00ff;
expamemz3_map();
}
}
expamem_bank_current->wput(reg, value);
}
static void REGPARAM2 expamemz3_lput (uaecptr addr, uae_u32 value)
{
write_log (_T("warning: Z3 WRITE.L to address $%08x : value $%08x\n"), addr, value);
}
#ifdef CD32
static bool expamem_init_cd32fmv (struct autoconfig_info *aci)
{
expamem_init_clear ();
load_rom_rc(aci->rc, ROMTYPE_CD32CART, 262144, 0, expamem, 128, 0);
memcpy(aci->autoconfig_raw, expamem, sizeof aci->autoconfig_raw);
expamem_map = cd32_fmv_init;
return true;
}
#endif
/* ********************************************************** */
MEMORY_ARRAY_FUNCTIONS(romboardmem, 0);
MEMORY_ARRAY_FUNCTIONS(romboardmem, 1);