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|
/* $Id: system.c $ */
/** @file
* PC BIOS - ???
*/
/*
* Copyright (C) 2006-2023 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
* --------------------------------------------------------------------
*
* This code is based on:
*
* ROM BIOS for use with Bochs/Plex86/QEMU emulation environment
*
* Copyright (C) 2002 MandrakeSoft S.A.
*
* MandrakeSoft S.A.
* 43, rue d'Aboukir
* 75002 Paris - France
* http://www.linux-mandrake.com/
* http://www.mandrakesoft.com/
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
/*
* Oracle LGPL Disclaimer: For the avoidance of doubt, except that if any license choice
* other than GPL or LGPL is available it will apply instead, Oracle elects to use only
* the Lesser General Public License version 2.1 (LGPLv2) at this time for any software where
* a choice of LGPL license versions is made available with the language indicating
* that LGPLv2 or any later version may be used, or where a choice of which version
* of the LGPL is applied is otherwise unspecified.
*/
#include <iprt/cdefs.h>
#include <stdint.h>
#include "biosint.h"
#include "inlines.h"
#if DEBUG_INT15
# define BX_DEBUG_INT15(...) BX_DEBUG(__VA_ARGS__)
#else
# define BX_DEBUG_INT15(...)
#endif
#define UNSUPPORTED_FUNCTION 0x86 /* Specific to INT 15h. */
#define BIOS_CONFIG_TABLE 0xe6f5 /** @todo configurable? put elsewhere? */
#define ACPI_DATA_SIZE 0x00010000L /** @todo configurable? put elsewhere? */
extern int pmode_IDT;
extern int rmode_IDT;
uint16_t read_ss(void);
#pragma aux read_ss = "mov ax, ss" modify exact [ax] nomemory;
#if VBOX_BIOS_CPU >= 80386
/* The 386+ code uses CR0 to switch to/from protected mode.
* Quite straightforward.
*/
void pm_stack_save(uint16_t cx, uint16_t es, uint16_t si);
#pragma aux pm_stack_save = \
".386" \
"push ds" \
"push eax" \
"xor ax, ax" \
"mov ds, ax" \
"mov ds:[467h], sp" \
"mov ds:[469h], ss" \
parm [cx] [es] [si] modify nomemory;
/* Uses position independent code to build a far return... because it was
* too hard to figure out how to code the far call in inline assembler.
*
* NB: It would be lovely to do 'add [sp],N' instead of 'pop ax; add ax,M;
* push ax'. Unfortunately the former cannot be encoded, though 'add [esp],N'
* can be on 386 and later -- but it may be unwise to assume that the high
* bits of ESP are all zero.
*/
void pm_enter(void);
#pragma aux pm_enter = \
".386p" \
"lgdt fword ptr es:[si+8]" \
"lidt fword ptr cs:pmode_IDT" \
"push 20h" \
"call pentry" \
"pentry:" \
"pop ax" \
"add ax, 0Eh" \
"push ax" \
"mov eax, cr0" \
"or al, 1" \
"mov cr0, eax" \
"retf" \
"pm_pm:" \
"mov ax, 10h" \
"mov ds, ax" \
"add al, 08h" \
"mov es, ax" \
"add al, 10h" \
"mov ss, ax" \
modify nomemory;
/* Restore segment limits to real mode compatible values and
* return to real mode.
*/
void pm_exit(void);
#pragma aux pm_exit = \
".386p" \
"mov ax, 28h" \
"mov ds, ax" \
"mov es, ax" \
"push 0F000h" \
"call pexit" \
"pexit:" \
"pop ax" \
"add ax, 0Eh" \
"push ax" \
"mov eax, cr0" \
"and al, 0FEh" \
"mov cr0, eax" \
"retf" \
"real_mode:" \
"lidt fword ptr cs:rmode_IDT" \
modify nomemory;
/* Restore stack and reload segment registers in real mode to ensure
* real mode compatible selector+base.
*/
void pm_stack_restore(void);
#pragma aux pm_stack_restore = \
".386" \
"xor ax, ax" \
"mov ds, ax" \
"mov es, ax" \
"lss sp, ds:[467h]" \
"pop eax" \
"pop ds" \
modify nomemory;
#elif VBOX_BIOS_CPU >= 80286
/* The 286 code uses LMSW to switch to protected mode but it has to reset
* the CPU to get back to real mode. Ugly! See return_blkmove in orgs.asm
* for the other matching half.
*/
void pm_stack_save(uint16_t cx, uint16_t es, uint16_t si, uint16_t frame);
#pragma aux pm_stack_save = \
"xor ax, ax" \
"mov ds, ax" \
"mov ds:[467h], bx" \
"mov ds:[469h], ss" \
parm [cx] [es] [si] [bx] modify nomemory;
/* Uses position independent code... because it was too hard to figure
* out how to code the far call in inline assembler.
*/
void pm_enter(void);
#pragma aux pm_enter = \
".286p" \
"lgdt fword ptr es:[si+8]" \
"lidt fword ptr cs:pmode_IDT" \
"push 20h" \
"call pentry" \
"pentry:" \
"pop ax" \
"add ax, 0Eh" \
"push ax" \
"smsw ax" \
"or al, 1" \
"lmsw ax" \
"retf" \
"pm_pm:" \
"mov ax, 10h" \
"mov ds, ax" \
"add al, 08h" \
"mov es, ax" \
"add al, 10h" \
"mov ss, ax" \
modify nomemory;
/* Set up shutdown status and reset the CPU. The POST code
* will regain control. Port 80h is written with status.
* Code 9 is written to CMOS shutdown status byte (0Fh).
* CPU is triple faulted. .
*/
void pm_exit(void);
#pragma aux pm_exit = \
"xor ax, ax" \
"out 80h, al" \
"mov al, 0Fh" \
"out 70h, al" \
"mov al, 09h" \
"out 71h, al" \
".286p" \
"lidt fword ptr cs:pmode_IDT" \
"int 3" \
modify nomemory;
/* Dummy. Actually done in return_blkmove. */
void pm_stack_restore(void);
#pragma aux pm_stack_restore = \
"rm_return:" \
modify nomemory;
#endif
/* NB: CX is set earlier in pm_stack_save */
void pm_copy(void);
#pragma aux pm_copy = \
"xor si, si" \
"xor di, di" \
"cld" \
"rep movsw" \
modify [si di cx] nomemory;
/* The pm_switch has a few crucial differences from pm_enter, hence
* it is replicated here. Uses LMSW to avoid trashing high word of eax.
*/
void pm_switch(uint16_t reg_si);
#pragma aux pm_switch = \
".286p" \
"lgdt fword ptr es:[si+08h]" \
"lidt fword ptr es:[si+10h]" \
"push 38h" \
"call pentry" \
"pentry:" \
"pop ax" \
"add ax, 0Eh" \
"push ax" \
"smsw ax" \
"or al, 1" \
"lmsw ax" \
"retf" \
"pm_pm:" \
"mov ax, 18h" \
"mov ds, ax" \
"add al, 08h" \
"mov es, ax" \
"add al, 08h" \
"mov ss, ax" \
parm [si] modify nomemory;
/* Return to caller - we do not use IRET because we should not enable
* interrupts. Note that AH must be zero on exit.
* WARNING: Needs to be adapted if calling sequence is modified!
*/
void pm_unwind(uint16_t args);
#pragma aux pm_unwind = \
".286" \
"mov sp, ax" \
"popa" \
"add sp, 6" \
"pop cx" \
"pop ax" \
"pop ax" \
"mov ax, 30h" \
"push ax" \
"push cx" \
"retf" \
parm [ax] modify nomemory aborts;
bx_bool set_enable_a20(bx_bool val)
{
uint8_t oldval;
// Use PS/2 System Control port A to set A20 enable
// get current setting first
oldval = inb(0x92);
// change A20 status
if (val)
outb(0x92, oldval | 0x02);
else
outb(0x92, oldval & 0xfd);
return((oldval & 0x02) != 0);
}
/// @todo move elsewhere?
#define AX r.gr.u.r16.ax
#define BX r.gr.u.r16.bx
#define CX r.gr.u.r16.cx
#define DX r.gr.u.r16.dx
#define SI r.gr.u.r16.si
#define DI r.gr.u.r16.di
#define BP r.gr.u.r16.bp
#define SP r.gr.u.r16.sp
#define FLAGS r.fl.u.r16.flags
#define EAX r.gr.u.r32.eax
#define EBX r.gr.u.r32.ebx
#define ECX r.gr.u.r32.ecx
#define EDX r.gr.u.r32.edx
#define ESI r.gr.u.r32.esi
#define EDI r.gr.u.r32.edi
#define ES r.es
void BIOSCALL int15_function(sys_regs_t r)
{
uint16_t bRegister;
uint8_t irqDisable;
BX_DEBUG_INT15("int15 AX=%04x\n",AX);
switch (GET_AH()) {
case 0x00: /* assorted functions */
if (GET_AL() != 0xc0)
goto undecoded;
/* GRUB calls int15 with ax=0x00c0 to get the ROM configuration table,
* which we don't support, but logging that event is annoying. In fact
* it is likely that they just misread some specs, because there is a
* int15 BIOS function AH=0xc0 which sounds quite similar to what GRUB
* wants to achieve. */
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
break;
case 0x24: /* A20 Control */
switch (GET_AL()) {
case 0x00:
set_enable_a20(0);
CLEAR_CF();
SET_AH(0);
break;
case 0x01:
set_enable_a20(1);
CLEAR_CF();
SET_AH(0);
break;
case 0x02:
SET_AL( (inb(0x92) >> 1) & 0x01 );
CLEAR_CF();
SET_AH(0);
break;
case 0x03:
CLEAR_CF();
SET_AH(0);
BX = 3;
break;
default:
BX_INFO("int15: Func 24h, subfunc %02xh, A20 gate control not supported\n", (unsigned) GET_AL());
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
}
break;
/* These are here just to avoid warnings being logged. */
case 0x22: /* Locate ROM BASIC (tough when we don't have any.) */
case 0x41: /* PC Convertible, wait for external events. */
case 0xC7: /* PS/2, get memory map. */
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
break;
/// @todo Why does this need special handling? All we need is to set CF
// but not handle this as an unknown function (regardless of CPU type).
case 0x4f:
/* keyboard intercept */
#if VBOX_BIOS_CPU >= 80286
// nop
#else
SET_AH(UNSUPPORTED_FUNCTION);
#endif
SET_CF();
break;
case 0x52: // removable media eject
CLEAR_CF();
SET_AH(0); // "ok ejection may proceed"
break;
case 0x83: {
if( GET_AL() == 0 ) {
// Set Interval requested.
if( ( read_byte( 0x40, 0xA0 ) & 1 ) == 0 ) {
// Interval not already set.
write_byte( 0x40, 0xA0, 1 ); // Set status byte.
write_word( 0x40, 0x98, ES ); // Byte location, segment
write_word( 0x40, 0x9A, BX ); // Byte location, offset
write_word( 0x40, 0x9C, DX ); // Low word, delay
write_word( 0x40, 0x9E, CX ); // High word, delay.
CLEAR_CF( );
// Unmask IRQ8 so INT70 will get through.
irqDisable = inb( 0xA1 );
outb( 0xA1, irqDisable & 0xFE );
bRegister = inb_cmos( 0xB );
// Turn on the Periodic Interrupt timer
outb_cmos( 0xB, bRegister | 0x40 );
} else {
// Interval already set.
BX_DEBUG_INT15("int15: Func 83h, failed, already waiting.\n" );
SET_CF(); // AH is left unmodified
}
} else if( GET_AL() == 1 ) {
// Clear Interval requested
write_byte( 0x40, 0xA0, 0 ); // Clear status byte
CLEAR_CF( );
bRegister = inb_cmos( 0xB );
outb_cmos( 0xB, bRegister & ~0x40 ); // Turn off the Periodic Interrupt timer
} else {
BX_DEBUG_INT15("int15: Func 83h, failed.\n" );
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
SET_AL(GET_AL() - 1);
}
break;
}
case 0x86:
// Set Interval requested.
if( ( read_byte( 0x40, 0xA0 ) & 1 ) == 0 ) {
// Interval not already set.
write_byte( 0x40, 0xA0, 1 ); // Set status byte.
write_word( 0x40, 0x98, 0x40 ); // Byte location, segment
write_word( 0x40, 0x9A, 0xA0 ); // Byte location, offset
write_word( 0x40, 0x9C, DX ); // Low word, delay
write_word( 0x40, 0x9E, CX ); // High word, delay.
// Unmask IRQ8 so INT70 will get through.
irqDisable = inb( 0xA1 );
outb( 0xA1, irqDisable & 0xFE );
bRegister = inb_cmos( 0xB );
// Turn on the Periodic Interrupt timer
outb_cmos( 0xB, bRegister | 0x40 );
// Now wait until timer interrupt says wait is done.
int_enable();
do {
halt();
bRegister = read_byte( 0x40, 0xA0 );
}
while( !(bRegister & 0x80) );
write_byte( 0x40, 0xA0, 0 ); // Deactivate wait.
CLEAR_CF( );
} else {
// Interval already set.
BX_DEBUG_INT15("int15: Func 86h, failed, already waiting.\n" );
SET_CF(); // AH is left unmodified
}
break;
case 0x88:
// Get the amount of extended memory (above 1M)
#if VBOX_BIOS_CPU >= 80286
AX = get_cmos_word(0x30 /*, 0x31*/);
#if VBOX_BIOS_CPU >= 80386
// According to Ralf Brown's interrupt the limit should be 15M,
// but real machines mostly return max. 63M.
if(AX > 0xffc0)
AX = 0xffc0;
#else
// An AT compatible cannot have more than 15M extended memory.
// If more is reported, some software (e.g. Windows 3.1) gets
// quite upset.
if(AX > 0x3c00)
AX = 0x3c00;
#endif
CLEAR_CF();
#else
SET_AH(UNSUPPORTED_FUNCTION);
SET_CF();
#endif
break;
case 0x89:
// Switch to Protected Mode.
// ES:DI points to user-supplied GDT
// BH/BL contains starting interrupt numbers for PIC0/PIC1
// This subfunction does not return!
// turn off interrupts
int_disable(); /// @todo aren't they off already?
set_enable_a20(1); // enable A20 line; we're supposed to fail if that fails
// Initialize CS descriptor for BIOS
write_word(ES, SI+0x38+0, 0xffff);// limit 15:00 = normal 64K limit
write_word(ES, SI+0x38+2, 0x0000);// base 15:00
write_byte(ES, SI+0x38+4, 0x000f);// base 23:16 (hardcoded to f000:0000)
write_byte(ES, SI+0x38+5, 0x9b); // access
write_word(ES, SI+0x38+6, 0x0000);// base 31:24/reserved/limit 19:16
/* Reprogram the PICs. */
outb(PIC_MASTER, PIC_CMD_INIT);
outb(PIC_SLAVE, PIC_CMD_INIT);
outb(PIC_MASTER + 1, GET_BH());
outb(PIC_SLAVE + 1, GET_BL());
outb(PIC_MASTER + 1, 4);
outb(PIC_SLAVE + 1, 2);
outb(PIC_MASTER + 1, 1);
outb(PIC_SLAVE + 1, 1);
/* Mask all IRQs, user must re-enable. */
outb(PIC_MASTER_MASK, 0xff);
outb(PIC_SLAVE_MASK, 0xff);
pm_switch(SI);
pm_unwind((uint16_t)&r);
break;
case 0x90:
/* Device busy interrupt. Called by Int 16h when no key available */
break;
case 0x91:
/* Interrupt complete. Called by Int 16h when key becomes available */
break;
case 0xbf:
BX_INFO("*** int 15h function AH=bf not yet supported!\n");
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
break;
case 0xC0:
CLEAR_CF();
SET_AH(0);
BX = BIOS_CONFIG_TABLE;
ES = 0xF000;
break;
case 0xc1:
ES = read_word(0x0040, 0x000E);
CLEAR_CF();
break;
case 0xd8:
bios_printf(BIOS_PRINTF_DEBUG, "EISA BIOS not present\n");
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
break;
/* Make the BIOS warning for pretty much every Linux kernel start
* disappear - it calls with ax=0xe980 to figure out SMI info. */
case 0xe9: /* SMI functions (SpeedStep and similar things) */
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
break;
case 0xec: /* AMD64 target operating mode callback */
if (GET_AL() != 0)
goto undecoded;
SET_AH(0);
if (GET_BL() >= 1 && GET_BL() <= 3)
CLEAR_CF(); /* Accepted value. */
else
SET_CF(); /* Reserved, error. */
break;
undecoded:
default:
BX_INFO("*** int 15h function AX=%04x, BX=%04x not yet supported!\n",
(unsigned) AX, (unsigned) BX);
SET_CF();
SET_AH(UNSUPPORTED_FUNCTION);
break;
}
}
#if VBOX_BIOS_CPU >= 80386
typedef struct {
uint32_t start;
uint32_t xstart;
uint32_t len;
uint32_t xlen;
uint32_t type;
} mem_range_t;
static void set_e820_range_len(uint16_t reg_ES, uint16_t reg_DI, uint32_t start, uint32_t len, uint8_t type)
{
mem_range_t __far *fpRange = reg_ES :> (mem_range_t *)reg_DI;
fpRange->start = start;
fpRange->len = len;
fpRange->type = type;
fpRange->xlen = 0;
fpRange->xstart = 0;
}
#define set_e820_range_end(reg_ES, reg_DI, start, end, type) set_e820_range_len(reg_ES, reg_DI, start, end - start, type)
static void set_e820_range_above_4g(uint16_t reg_ES, uint16_t reg_DI, uint16_t c64k_above_4G_low, uint16_t c64k_above_4G_high)
{
mem_range_t __far *fpRange = reg_ES :> (mem_range_t *)reg_DI;
fpRange->start = 0; /* Starts at 4G, so low start address dword is zero */
fpRange->xstart = 1; /* And the high start dword is 1. */
fpRange->len = (uint32_t)c64k_above_4G_low << 16;
fpRange->xlen = c64k_above_4G_high;
fpRange->type = 1; /* type is usable */
}
void BIOSCALL int15_function32(sys32_regs_t r)
{
BX_DEBUG_INT15("int15 AX=%04x\n",AX);
switch (GET_AH()) {
case 0xd0:
if (GET_AL() != 0x4f)
goto int15_unimplemented;
if (EBX == 0x50524f43 && ECX == 0x4d4f4445 && ESI == 0 && EDI == 0)
{
CLEAR_CF();
ESI = EBX;
EDI = ECX;
EAX = 0x49413332;
}
else
goto int15_unimplemented;
break;
case 0xe8:
switch(GET_AL()) {
case 0x20: // coded by osmaker aka K.J.
if(EDX == 0x534D4150) {
uint32_t extended_memory_size; // 64bits long
uint16_t c64k_above_4G_low;
uint16_t c64k_above_4G_high;
#ifdef BIOS_WITH_MCFG_E820
uint32_t mcfgStart, mcfgSize;
#endif
/* Go for the amount of memory above 16MB first. */
extended_memory_size = get_cmos_word(0x34 /*, 0x35*/);
if (extended_memory_size > 0)
{
extended_memory_size += _16M / _64K;
extended_memory_size <<= 16;
}
else
{
/* No memory above 16MB, query memory above 1MB ASSUMING we have at least 1MB. */
extended_memory_size = get_cmos_word(0x30 /*, 0x31*/);
extended_memory_size += _1M / _1K;
extended_memory_size *= _1K;
}
/* This is the amount of memory above 4GB measured in 64KB units.
Note! 0x65 can be used when we need to go beyond 255 TiB */
c64k_above_4G_low = get_cmos_word(0x61 /*, 0x62*/);
c64k_above_4G_high = get_cmos_word(0x63 /*, 0x64*/);
#ifdef BIOS_WITH_MCFG_E820 /** @todo Actually implement the mcfg reporting. */
mcfgStart = 0;
mcfgSize = 0;
#endif
switch (BX)
{
case 0:
set_e820_range_end(ES, DI, 0x0000000L, 0x0009fc00L, 1);
EBX = 1;
break;
case 1:
set_e820_range_end(ES, DI, 0x0009fc00L, 0x000a0000L, 2);
EBX = 2;
break;
case 2:
/* Mark the BIOS as reserved. VBox doesn't currently
* use the 0xe0000-0xeffff area. It does use the
* 0xd0000-0xdffff area for the BIOS logo, but it's
* not worth marking it as reserved. (this is not
* true anymore because the VGA adapter handles the logo stuff)
* The whole 0xe0000-0xfffff can be used for the BIOS.
* Note that various
* Windows versions don't accept (read: in debug builds
* they trigger the "Too many similar traps" assertion)
* a single reserved range from 0xd0000 to 0xffffff.
* A 128K area starting from 0xd0000 works. */
set_e820_range_end(ES, DI, 0x000f0000L, 0x00100000L, 2);
EBX = 3;
break;
case 3:
set_e820_range_end(ES, DI, 0x00100000L, extended_memory_size - ACPI_DATA_SIZE, 1);
EBX = 4;
break;
case 4:
set_e820_range_len(ES, DI, extended_memory_size - ACPI_DATA_SIZE, ACPI_DATA_SIZE, 3); // ACPI RAM
EBX = 5;
break;
case 5:
set_e820_range_len(ES, DI, 0xfec00000, 0x1000, 2); // I/O APIC
EBX = 6;
break;
case 6:
set_e820_range_len(ES, DI, 0xfee00000, 0x1000, 2); // Local APIC
EBX = 7;
break;
case 7:
/* 256KB BIOS area at the end of 4 GB */
set_e820_range_len(ES, DI, 0xfffc0000L, 0x40000, 2);
#ifdef BIOS_WITH_MCFG_E820
if (mcfgStart != 0)
EBX = 8;
else
#endif
if (c64k_above_4G_low || c64k_above_4G_high)
EBX = 9;
else
EBX = 0;
break;
#ifdef BIOS_WITH_MCFG_E820
case 8:
/* PCI MMIO config space (MCFG) */
set_e820_range_len(ES, DI, mcfgStart, mcfgSize, 2);
if (c64k_above_4G_low || c64k_above_4G_high)
EBX = 9;
else
EBX = 0;
break;
#endif
case 9:
/* Mapping of memory above 4 GB if present. */
if (c64k_above_4G_low || c64k_above_4G_high)
{
set_e820_range_above_4g(ES, DI, c64k_above_4G_low, c64k_above_4G_high);
EBX = 0;
break;
}
/* fall thru */
default: /* AX=E820, DX=534D4150, BX unrecognized */
goto int15_unimplemented;
break;
}
EAX = 0x534D4150;
ECX = 0x14;
CLEAR_CF();
} else {
// if DX != 0x534D4150)
goto int15_unimplemented;
}
break;
case 0x01:
// do we have any reason to fail here ?
CLEAR_CF();
// my real system sets ax and bx to 0
// this is confirmed by Ralph Brown list
// but syslinux v1.48 is known to behave
// strangely if ax is set to 0
// regs.u.r16.ax = 0;
// regs.u.r16.bx = 0;
// Get the amount of extended memory (above 1M)
CX = get_cmos_word(0x30 /*, 0x31*/);
// limit to 15M
if(CX > 0x3c00)
CX = 0x3c00;
// Get the amount of extended memory above 16M in 64k blocks
DX = get_cmos_word(0x34 /*, 0x35*/);
// Set configured memory equal to extended memory
AX = CX;
BX = DX;
break;
default: /* AH=0xE8?? but not implemented */
goto int15_unimplemented;
}
break;
int15_unimplemented:
// fall into the default case
default:
BX_INFO("*** int 15h function AX=%04x, BX=%04x not yet supported!\n",
(unsigned) AX, (unsigned) BX);
SET_CF();
SET_AL(UNSUPPORTED_FUNCTION);
break;
}
}
#endif /* VBOX_BIOS_CPU >= 80386 */
#if VBOX_BIOS_CPU >= 80286
#undef FLAGS
#define FLAGS r.ra.flags.u.r16.flags
/* Function 0x87 handled separately due to specific stack layout requirements. */
void BIOSCALL int15_blkmove(disk_regs_t r)
{
uint16_t base15_00;
uint8_t base23_16;
uint16_t ss;
// +++ should probably have descriptor checks
// +++ should have exception handlers
// turn off interrupts
int_disable(); /// @todo aren't they disabled already?
set_enable_a20(1); // enable A20 line
// 128K max of transfer on 386+ ???
// source == destination ???
// ES:SI points to descriptor table
// offset use initially comments
// ==============================================
// 00..07 Unused zeros Null descriptor
// 08..0f scratch zeros work area used by BIOS
// 10..17 source ssssssss source of data
// 18..1f dest dddddddd destination of data
// 20..27 CS zeros filled in by BIOS
// 28..2f SS zeros filled in by BIOS
//es:si
//eeee0
//0ssss
//-----
// check for access rights of source & dest here
// Initialize GDT descriptor
base15_00 = (ES << 4) + SI;
base23_16 = ES >> 12;
if (base15_00 < (ES<<4))
base23_16++;
write_word(ES, SI+0x08+0, 47); // limit 15:00 = 6 * 8bytes/descriptor
write_word(ES, SI+0x08+2, base15_00);// base 15:00
write_byte(ES, SI+0x08+4, base23_16);// base 23:16
write_byte(ES, SI+0x08+5, 0x93); // access
write_word(ES, SI+0x08+6, 0x0000); // base 31:24/reserved/limit 19:16
// Initialize CS descriptor
write_word(ES, SI+0x20+0, 0xffff);// limit 15:00 = normal 64K limit
write_word(ES, SI+0x20+2, 0x0000);// base 15:00
write_byte(ES, SI+0x20+4, 0x000f);// base 23:16
write_byte(ES, SI+0x20+5, 0x9b); // access
write_word(ES, SI+0x20+6, 0x0000);// base 31:24/reserved/limit 19:16
// Initialize SS descriptor
ss = read_ss();
base15_00 = ss << 4;
base23_16 = ss >> 12;
write_word(ES, SI+0x28+0, 0xffff); // limit 15:00 = normal 64K limit
write_word(ES, SI+0x28+2, base15_00);// base 15:00
write_byte(ES, SI+0x28+4, base23_16);// base 23:16
write_byte(ES, SI+0x28+5, 0x93); // access
write_word(ES, SI+0x28+6, 0x0000); // base 31:24/reserved/limit 19:16
#if VBOX_BIOS_CPU >= 80386
/* Not taking the address of the parameter allows the code generator
* produce slightly better code for some unknown reason.
*/
pm_stack_save(CX, ES, SI);
#else
pm_stack_save(CX, ES, SI, FP_OFF(&r));
#endif
pm_enter();
pm_copy();
pm_exit();
pm_stack_restore();
set_enable_a20(0); // unconditionally disable A20 line
// turn interrupts back on
int_enable();
SET_AH(0);
CLEAR_CF();
}
#endif /* VBOX_BIOS_CPU >= 80286 */
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