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autoconf.cpp
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autoconf.cpp
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/*
* UAE - The Un*x Amiga Emulator
*
* AutoConfig devices
*
* Copyright 1995, 1996 Bernd Schmidt
* Copyright 1996 Ed Hanway
*/
#include "sysconfig.h"
#include "sysdeps.h"
#define NEW_TRAP_DEBUG 0
#include "options.h"
#include "uae.h"
#include "memory.h"
#include "custom.h"
#include "events.h"
#include "newcpu.h"
#include "autoconf.h"
#include "traps.h"
#include "debug.h"
#include "threaddep/thread.h"
#include "native2amiga.h"
#include "inputdevice.h"
#include "uae/ppc.h"
#include "devices.h"
/* Commonly used autoconfig strings */
uaecptr EXPANSION_explibname, EXPANSION_doslibname, EXPANSION_uaeversion;
uaecptr EXPANSION_uaedevname, EXPANSION_explibbase = 0;
uaecptr EXPANSION_bootcode, EXPANSION_nullfunc;
/* ROM tag area memory access */
uaecptr rtarea_base = RTAREA_DEFAULT;
uae_sem_t hardware_trap_event[RTAREA_TRAP_DATA_SIZE / RTAREA_TRAP_DATA_SLOT_SIZE];
uae_sem_t hardware_trap_event2[RTAREA_TRAP_DATA_SIZE / RTAREA_TRAP_DATA_SLOT_SIZE];
static uaecptr rt_trampoline_ptr, trap_entry;
static bool rtarea_write_enabled;
extern volatile uae_atomic hwtrap_waiting;
extern volatile int trap_mode;
DECLARE_MEMORY_FUNCTIONS(rtarea);
addrbank rtarea_bank = {
rtarea_lget, rtarea_wget, rtarea_bget,
rtarea_lput, rtarea_wput, rtarea_bput,
rtarea_xlate, rtarea_check, NULL, _T("rtarea"), _T("UAE Boot ROM"),
rtarea_lget, rtarea_wget,
ABFLAG_ROMIN | ABFLAG_PPCIOSPACE, S_READ, S_WRITE
};
#define MAX_ABSOLUTE_ROM_ADDRESS 1024
static int absolute_rom_address;
static uaecptr absolute_rom_addresses[MAX_ABSOLUTE_ROM_ADDRESS];
static uaecptr rombase_new;
static void hwtrap_check_int(void)
{
if (currprefs.uaeboard < 2)
return;
if (hwtrap_waiting == 0) {
atomic_and(&uae_int_requested, ~0x2000);
} else {
atomic_or(&uae_int_requested, 0x2000);
set_special_exter(SPCFLAG_UAEINT);
}
}
static bool istrapwait(void)
{
for (int i = 0; i < RTAREA_TRAP_DATA_NUM + RTAREA_TRAP_DATA_SEND_NUM; i++) {
uae_u8 *data = rtarea_bank.baseaddr + RTAREA_TRAP_DATA + i * RTAREA_TRAP_DATA_SLOT_SIZE;
uae_u8 *status = rtarea_bank.baseaddr + RTAREA_TRAP_STATUS + i * RTAREA_TRAP_STATUS_SIZE;
if (get_long_host(data + RTAREA_TRAP_DATA_TASKWAIT) && status[3] && status[2] >= 0x80) {
return true;
}
}
return false;
}
static bool rethink_traps2(void)
{
if (currprefs.uaeboard < 2)
return false;
if (istrapwait()) {
atomic_or(&uae_int_requested, 0x4000);
set_special_exter(SPCFLAG_UAEINT);
return true;
} else {
atomic_and(&uae_int_requested, ~0x4000);
return false;
}
}
static void rethink_traps(void)
{
rethink_traps2();
}
#define RTAREA_WRITEOFFSET 0xfff0
static bool rtarea_trap_data(uaecptr addr)
{
if (currprefs.uaeboard < 2)
return false;
if (addr >= RTAREA_TRAP_DATA && addr < RTAREA_TRAP_DATA + (RTAREA_TRAP_DATA_NUM + RTAREA_TRAP_DATA_SEND_NUM) * RTAREA_TRAP_DATA_SLOT_SIZE)
return true;
return false;
}
static bool rtarea_trap_status(uaecptr addr)
{
if (currprefs.uaeboard < 2)
return false;
if (addr >= RTAREA_TRAP_STATUS && addr < RTAREA_TRAP_STATUS + (RTAREA_TRAP_DATA_NUM + RTAREA_TRAP_DATA_SEND_NUM) * RTAREA_TRAP_STATUS_SIZE)
return true;
return false;
}
static bool rtarea_trap_status_extra(uaecptr addr)
{
if (currprefs.uaeboard < 2)
return false;
if (addr >= RTAREA_TRAP_STATUS + 0x100 && addr < RTAREA_TRAP_STATUS + 0x100 + (RTAREA_TRAP_DATA_NUM + RTAREA_TRAP_DATA_SEND_NUM) * RTAREA_TRAP_STATUS_SIZE)
return true;
return false;
}
static uae_u8 *REGPARAM2 rtarea_xlate (uaecptr addr)
{
addr &= 0xFFFF;
return rtarea_bank.baseaddr + addr;
}
static int REGPARAM2 rtarea_check (uaecptr addr, uae_u32 size)
{
addr &= 0xFFFF;
return (addr + size) <= 0xFFFF;
}
static uae_u32 REGPARAM2 rtarea_lget (uaecptr addr)
{
addr &= 0xFFFF;
if (addr & 1)
return 0;
if (addr >= 0xfffd)
return 0;
return (rtarea_bank.baseaddr[addr + 0] << 24) | (rtarea_bank.baseaddr[addr + 1] << 16) |
(rtarea_bank.baseaddr[addr + 2] << 8) | (rtarea_bank.baseaddr[addr + 3] << 0);
}
static uae_u32 REGPARAM2 rtarea_wget (uaecptr addr)
{
addr &= 0xFFFF;
if (addr & 1)
return 0;
uaecptr addr2 = addr - RTAREA_TRAP_STATUS;
if (rtarea_trap_status(addr)) {
int trap_offset = addr2 & (RTAREA_TRAP_STATUS_SIZE - 1);
int trap_slot = addr2 / RTAREA_TRAP_STATUS_SIZE;
// lock attempt
if (trap_offset == 2) {
if (rtarea_bank.baseaddr[addr + 1] & 0x80) {
return rtarea_bank.baseaddr[addr + 1];
}
rtarea_bank.baseaddr[addr + 1] |= 0x80;
rtarea_bank.baseaddr[addr + 0] = 0;
return 0;
}
}
return (rtarea_bank.baseaddr[addr] << 8) + rtarea_bank.baseaddr[addr + 1];
}
static uae_u32 REGPARAM2 rtarea_bget (uaecptr addr)
{
addr &= 0xFFFF;
hwtrap_check_int();
if (rtarea_trap_status(addr)) {
uaecptr addr2 = addr - RTAREA_TRAP_STATUS;
int trap_offset = addr2 & (RTAREA_TRAP_STATUS_SIZE - 1);
int trap_slot = addr2 / RTAREA_TRAP_STATUS_SIZE;
if (trap_offset == 0) {
// 0 = busy wait, 1 = Wait()
rtarea_bank.baseaddr[addr] = trap_mode == 1 ? 1 : 0;
}
uae_u8 v = rtarea_bank.baseaddr[addr];
#if NEW_TRAP_DEBUG
write_log(_T("GET TRAP SLOT %d OFFSET %d: V=%02x\n"), trap_slot, trap_offset, v);
#endif
return v;
} else if (addr == RTAREA_INTREQ + 0) {
rtarea_bank.baseaddr[addr] = atomic_bit_test_and_reset(&uae_int_requested, 0);
//write_log(rtarea_bank.baseaddr[addr] ? _T("+") : _T("-"));
} else if (addr == RTAREA_INTREQ + 1) {
rtarea_bank.baseaddr[addr] = hwtrap_waiting != 0;
} else if (addr == RTAREA_INTREQ + 2) {
if (rethink_traps2()) {
rtarea_bank.baseaddr[addr] = 1;
} else {
rtarea_bank.baseaddr[addr] = 0;
}
}
return rtarea_bank.baseaddr[addr];
}
static bool rtarea_write(uaecptr addr)
{
if (rtarea_write_enabled)
return true;
if (addr >= RTAREA_WRITEOFFSET)
return true;
if (addr >= RTAREA_SYSBASE && addr < RTAREA_SYSBASE + 4)
return true;
return rtarea_trap_data(addr) || rtarea_trap_status(addr) || rtarea_trap_status_extra(addr);
}
static void REGPARAM2 rtarea_bput (uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
if (!rtarea_write(addr))
return;
rtarea_bank.baseaddr[addr] = value;
if (addr == RTAREA_INTREQ + 3) {
mousehack_wakeup();
}
if (!rtarea_trap_status(addr))
return;
addr -= RTAREA_TRAP_STATUS;
int trap_offset = addr & (RTAREA_TRAP_STATUS_SIZE - 1);
int trap_slot = addr / RTAREA_TRAP_STATUS_SIZE;
#if NEW_TRAP_DEBUG
write_log(_T("PUT TRAP SLOT %d OFFSET %d: V=%02x\n"), trap_slot, trap_offset, (uae_u8)value);
#endif
if (trap_offset == RTAREA_TRAP_STATUS_SECOND) {
write_log(_T("TRAP SLOT %d PRI=%02x\n"), trap_slot, (uae_u8)value);
}
if (trap_offset == RTAREA_TRAP_STATUS_SECOND + 3) {
uae_u8 v = (uae_u8)value;
if (v != 0xff && v != 0xfd && v != 0x01 && v != 0x02 && v != 0x03 && v != 0x04)
write_log(_T("TRAP SLOT %d STATUS = %02x\n"), trap_slot, v);
if (v == 0xfd)
atomic_dec(&hwtrap_waiting);
if (v == 0x01)
atomic_dec(&hwtrap_waiting);
// 1 = interrupt ack
// 2 = interrupt -> task ack
// 3 = hwtrap_entry ack
if (v == 0x01 || v == 0x02 || v == 0x03) {
// signal call_hardware_trap_back_back()
uae_sem_post(&hardware_trap_event[trap_slot]);
}
}
}
static void REGPARAM2 rtarea_wput (uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
value &= 0xffff;
if (addr & 1)
return;
if (!rtarea_write(addr))
return;
uaecptr addr2 = addr - RTAREA_TRAP_STATUS;
if (rtarea_trap_status(addr)) {
int trap_offset = addr2 & (RTAREA_TRAP_STATUS_SIZE - 1);
int trap_slot = addr2 / RTAREA_TRAP_STATUS_SIZE;
if (trap_offset == 2) {
value = 0;
if ((rtarea_bank.baseaddr[addr + 1] & 0x80) == 0) {
write_log(_T("TRAP SLOT %d unlock without allocation!\n"), trap_slot);
}
rtarea_bank.baseaddr[addr + 0] = value >> 8;
rtarea_bank.baseaddr[addr + 1] = (uae_u8)value;
return;
}
}
rtarea_bank.baseaddr[addr + 0] = value >> 8;
rtarea_bank.baseaddr[addr + 1] = (uae_u8)value;
if (rtarea_trap_status(addr)) {
int trap_offset = addr2 & (RTAREA_TRAP_STATUS_SIZE - 1);
int trap_slot = addr2 / RTAREA_TRAP_STATUS_SIZE;
#if NEW_TRAP_DEBUG
write_log(_T("PUT TRAP SLOT %d OFFSET %d: V=%04x\n"), trap_slot, trap_offset, (uae_u16)value);
#endif
if (trap_offset == 0) {
#if NEW_TRAP_DEBUG
write_log(_T("TRAP SLOT %d NUM=%d\n"), trap_slot, value);
#endif
call_hardware_trap(rtarea_bank.baseaddr, rtarea_base, trap_slot);
}
}
}
static void REGPARAM2 rtarea_lput (uaecptr addr, uae_u32 value)
{
addr &= 0xffff;
if (addr & 1)
return;
if (addr >= 0xfffd)
return;
if (!rtarea_write(addr))
return;
rtarea_bank.baseaddr[addr + 0] = value >> 24;
rtarea_bank.baseaddr[addr + 1] = value >> 16;
rtarea_bank.baseaddr[addr + 2] = value >> 8;
rtarea_bank.baseaddr[addr + 3] = value >> 0;
if (rtarea_trap_status(addr)) {
addr -= RTAREA_TRAP_STATUS;
int trap_offset = addr & (RTAREA_TRAP_STATUS_SIZE - 1);
int trap_slot = addr / RTAREA_TRAP_STATUS_SIZE;
#if NEW_TRAP_DEBUG
write_log(_T("PUT TRAP SLOT %d OFFSET %d: V=%08x\n"), trap_slot, trap_offset, value);
#endif
}
}
void rtarea_reset(void)
{
uae_u8 *p = rtarea_bank.baseaddr;
if (p) {
memset(p + RTAREA_TRAP_DATA, 0, RTAREA_TRAP_DATA_SLOT_SIZE * (RTAREA_TRAP_DATA_NUM + RTAREA_TRAP_DATA_SEND_NUM));
memset(p + RTAREA_TRAP_STATUS, 0, RTAREA_TRAP_STATUS_SIZE * (RTAREA_TRAP_DATA_NUM + RTAREA_TRAP_DATA_SEND_NUM));
memset(p + RTAREA_HEARTBEAT, 0, 0x10000 - RTAREA_HEARTBEAT);
memset(p + RTAREA_VARIABLES, 0, RTAREA_VARIABLES_SIZE);
}
trap_reset();
absolute_rom_address = 0;
}
/* some quick & dirty code to fill in the rt area and save me a lot of
* scratch paper
*/
static int rt_addr;
static int rt_straddr;
uae_u32 addr (int ptr)
{
return (uae_u32)ptr + rtarea_base;
}
void db (uae_u8 data)
{
rtarea_bank.baseaddr[rt_addr++] = data;
}
void dw (uae_u16 data)
{
rtarea_bank.baseaddr[rt_addr++] = (uae_u8)(data >> 8);
rtarea_bank.baseaddr[rt_addr++] = (uae_u8)data;
}
void dl (uae_u32 data)
{
rtarea_bank.baseaddr[rt_addr++] = data >> 24;
rtarea_bank.baseaddr[rt_addr++] = data >> 16;
rtarea_bank.baseaddr[rt_addr++] = data >> 8;
rtarea_bank.baseaddr[rt_addr++] = data;
}
void df(uae_u8 b, int len)
{
memset(&rtarea_bank.baseaddr[rt_addr], b, len);
rt_addr += len;
}
uae_u8 dbg (uaecptr addr)
{
addr &= 0xffff;
return rtarea_bank.baseaddr[addr];
}
/* store strings starting at the end of the rt area and working
* backward. store pointer at current address
*/
uae_u32 ds_ansi (const uae_char *str)
{
int len;
if (!str)
return addr (rt_straddr);
len = strlen (str) + 1;
rt_straddr -= len;
strcpy ((uae_char*)rtarea_bank.baseaddr + rt_straddr, str);
return addr (rt_straddr);
}
uae_u32 ds (const TCHAR *str)
{
char *s = ua (str);
uae_u32 v = ds_ansi (s);
xfree (s);
return v;
}
uae_u32 dsf(uae_u8 b, int len)
{
rt_straddr -= len;
memset(rtarea_bank.baseaddr + rt_straddr, b, len);
return addr(rt_straddr);
}
uae_u32 ds_bstr_ansi (const uae_char *str)
{
int len;
len = strlen (str) + 2;
rt_straddr -= len;
while (rt_straddr & 3)
rt_straddr--;
rtarea_bank.baseaddr[rt_straddr] = len - 2;
strcpy ((uae_char*)rtarea_bank.baseaddr + rt_straddr + 1, str);
return addr (rt_straddr) >> 2;
}
void save_rom_absolute(uaecptr addr)
{
if (rombase_new)
return;
if (absolute_rom_address >= MAX_ABSOLUTE_ROM_ADDRESS) {
write_log(_T("MAX_ABSOLUTE_ROM_ADDRESS is too low!"));
abort();
}
for (int i = 0; i < absolute_rom_address; i++) {
if (absolute_rom_addresses[i] == addr) {
write_log(_T("Address %08x already added\n"), addr);
return;
}
}
absolute_rom_addresses[absolute_rom_address++] = addr;
}
void add_rom_absolute(uaecptr addr)
{
uaecptr h = here();
dl(addr);
save_rom_absolute(h);
}
uae_u32 boot_rom_copy(TrapContext *ctx, uaecptr rombase, int mode)
{
uaecptr reloc = 0;
if (currprefs.uaeboard < 3)
return 0;
if (!mode) {
rtarea_write_enabled = true;
protect_roms(false);
rombase_new = rombase;
int size = 4 + 2 + 4;
for (int i = 0; i < absolute_rom_address; i++) {
uae_u32 a = absolute_rom_addresses[i];
if (a >= rtarea_base && a < rtarea_base + 0x10000) {
size += 2;
} else {
size += 4;
}
}
reloc = uaeboard_alloc_ram(size);
uae_u8 *p = uaeboard_map_ram(reloc);
put_long_host(p, rtarea_base);
p += 4;
for (int i = 0; i < absolute_rom_address; i++) {
uae_u32 a = absolute_rom_addresses[i];
if (a >= rtarea_base && a < rtarea_base + 0x10000) {
put_word_host(p, a & 0xffff);
p += 2;
}
}
put_word_host(p, 0);
p += 2;
for (int i = 0; i < absolute_rom_address; i++) {
uae_u32 a = absolute_rom_addresses[i];
if (a < rtarea_base || a >= rtarea_base + 0x10000) {
put_long_host(p, a);
p += 4;
}
}
put_long_host(p, 0);
write_log(_T("ROMBASE %08x RAMBASE %08x RELOC %08x (%d)\n"), rtarea_base, rombase, reloc, absolute_rom_address);
} else {
rtarea_write_enabled = false;
protect_roms(true);
write_log(_T("ROMBASE changed.\n"), absolute_rom_address);
reloc = 1;
}
return reloc;
}
void calltrap (uae_u32 n)
{
if (currprefs.uaeboard > 2) {
dw(0x4eb9); // JSR rt_trampoline_ptr
add_rom_absolute(rt_trampoline_ptr);
uaecptr a = here();
org(rt_trampoline_ptr);
dw(0x3f3c); // MOVE.W #n,-(SP)
dw(n);
dw(0x4ef9); // JMP rt_trampoline_entry
add_rom_absolute(trap_entry);
org(a);
rt_trampoline_ptr += 3 * 2 + 1 * 4;
} else {
dw(0xA000 + n);
}
}
void org (uae_u32 a)
{
if ( ((a & 0xffff0000) != 0x00f00000) && ((a & 0xffff0000) != rtarea_base) )
write_log (_T("ORG: corrupt address! %08X"), a);
rt_addr = a & 0xffff;
}
uae_u32 here (void)
{
return addr (rt_addr);
}
void align (int b)
{
rt_addr = (rt_addr + b - 1) & ~(b - 1);
}
static uae_u32 REGPARAM2 nullfunc (TrapContext *ctx)
{
write_log (_T("Null function called\n"));
return 0;
}
static uae_u32 REGPARAM2 getchipmemsize (TrapContext *ctx)
{
trap_set_dreg(ctx, 1, z3chipmem_bank.allocated_size);
trap_set_areg(ctx, 1, z3chipmem_bank.start);
return chipmem_bank.allocated_size;
}
static uae_u32 REGPARAM2 uae_puts (TrapContext *ctx)
{
uae_char buf[MAX_DPATH];
trap_get_string(ctx, buf, trap_get_areg(ctx, 0), sizeof uae_char);
TCHAR *s = au(buf);
write_log(_T("%s"), s);
xfree(s);
return 0;
}
void rtarea_init_mem (void)
{
if (need_uae_boot_rom(&currprefs)) {
rtarea_bank.flags &= ~ABFLAG_ALLOCINDIRECT;
} else {
// not enabled and something else may use same address space
rtarea_bank.flags |= ABFLAG_ALLOCINDIRECT;
}
rtarea_bank.reserved_size = RTAREA_SIZE;
rtarea_bank.start = rtarea_base;
if (!mapped_malloc (&rtarea_bank)) {
write_log (_T("virtual memory exhausted (rtarea)!\n"));
abort ();
}
}
void rtarea_free(void)
{
mapped_free(&rtarea_bank);
}
void rtarea_init(void)
{
uae_u32 a;
TCHAR uaever[100];
rt_straddr = 0xFF00 - 2;
rt_addr = 0;
rt_trampoline_ptr = rtarea_base + RTAREA_TRAMPOLINE;
trap_entry = 0;
absolute_rom_address = 0;
rombase_new = 0;
init_traps ();
rtarea_init_mem ();
memset (rtarea_bank.baseaddr, 0, RTAREA_SIZE);
_stprintf (uaever, _T("uae-%d.%d.%d"), UAEMAJOR, UAEMINOR, UAESUBREV);
EXPANSION_uaeversion = ds (uaever);
EXPANSION_explibname = ds (_T("expansion.library"));
EXPANSION_doslibname = ds (_T("dos.library"));
EXPANSION_uaedevname = ds (_T("uae.device"));
dw (0);
dw (0);
#ifdef FILESYS
filesys_install_code();
trap_entry = filesys_get_entry(10);
write_log(_T("TRAP_ENTRY = %08x\n"), trap_entry);
for (int i = 0; i < RTAREA_TRAP_DATA_SIZE / RTAREA_TRAP_DATA_SLOT_SIZE; i++) {
uae_sem_init(&hardware_trap_event[i], 0, 0);
uae_sem_init(&hardware_trap_event2[i], 0, 0);
}
#endif
deftrap(NULL); /* Generic emulator trap */
a = here ();
/* Dummy trap - removing this breaks the filesys emulation. */
org (rtarea_base + 0xFF00);
calltrap (deftrap2 (nullfunc, TRAPFLAG_NO_RETVAL, _T("")));
org (rtarea_base + 0xFF80);
calltrap (deftrapres (getchipmemsize, TRAPFLAG_DORET, _T("getchipmemsize")));
dw(RTS);
org (rtarea_base + 0xFF10);
calltrap (deftrapres (uae_puts, TRAPFLAG_NO_RETVAL, _T("uae_puts")));
dw (RTS);
org (a);
uae_boot_rom_size = here () - rtarea_base;
if (uae_boot_rom_size >= RTAREA_TRAPS) {
write_log (_T("RTAREA_TRAPS needs to be increased!"));
abort ();
}
#ifdef PICASSO96
uaegfx_install_code (rtarea_base + RTAREA_RTG);
#endif
org (RTAREA_TRAPS | rtarea_base);
init_extended_traps ();
if (currprefs.uaeboard >= 2) {
device_add_rethink(rethink_traps);
}
}
volatile uae_atomic uae_int_requested = 0;
void rtarea_setup (void)
{
uaecptr base = need_uae_boot_rom (&currprefs);
if (base) {
write_log (_T("RTAREA located at %08X\n"), base);
rtarea_base = base;
}
}
uaecptr makedatatable (uaecptr resid, uaecptr resname, uae_u8 type, uae_s8 priority, uae_u16 ver, uae_u16 rev)
{
uaecptr datatable = here ();
dw (0xE000); /* INITBYTE */
dw (0x0008); /* LN_TYPE */
dw (type << 8);
dw (0xE000); /* INITBYTE */
dw (0x0009); /* LN_PRI */
dw (priority << 8);
dw (0xC000); /* INITLONG */
dw (0x000A); /* LN_NAME */
dl (resname);
dw (0xE000); /* INITBYTE */
dw (0x000E); /* LIB_FLAGS */
dw (0x0600); /* LIBF_SUMUSED | LIBF_CHANGED */
dw (0xD000); /* INITWORD */
dw (0x0014); /* LIB_VERSION */
dw (ver);
dw (0xD000); /* INITWORD */
dw (0x0016); /* LIB_REVISION */
dw (rev);
dw (0xC000); /* INITLONG */
dw (0x0018); /* LIB_IDSTRING */
dl (resid);
dw (0x0000); /* end of table */
return datatable;
}