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86Box/src/keyboard.c
OBattler 552a87ea3d Added the IBM 5161 ISA expansion for PC and XT; 
Cleaned up the parallel port emulation, added IRQ support, and made enabling/disabling per port;
Added the Award 430NX and the Intel Classic/PCI (Alfredo, 420TX);
Finished the 586MC1;
Added 8087 emulation;
Moved Cyrix 6x86'es to the Dev branch;
Sanitized/cleaned up memregs.c/h and intel.c/h;
Split the chipsets from machines and sanitized Port 92 emulation;
Added support for the 15bpp mode to the Compaq ATI 28800;
Moved the MR 386DX and 486 machines to the Dev branch;
Ported the new dynamic recompiler from PCem, but it remains in Dev branch until after v2.00;
Ported the new timer code from PCem;
Cleaned up the CPU table of unused stuff and better optimized its structure;
Ported the Open-XT and Open-AT from VARCem, the Open-AT is in the Dev branch;
Ported the XT MFM controller rewrite and adding of more controllers (incl. two RLL ones), from VARCem;
Added the AHA-1540A and the BusTek BT-542B;
Moved the Sumo SCSI-AT to the Dev branch;
Minor IDE, FDC, and floppy drive code clean-ups;
Made NCR 5380/53C400-based cards' BIOS address configurable;
Got rid of the legacy romset variable;
Unified (video) buffer and buffer32 into one and make the unified buffer 32-bit;
Added the Amstead PPC512 per PCem patch by John Elliott;
Switched memory mapping granularity from 16k to 4k (less than 1k not possible due to internal pages);
Rewrote the CL-GD 54xx blitter, fixes Win-OS/2 on the 54x6 among other thing;
Added the Image Manager 1024 and Professional Graphics Controller per PCem patch by John Elliott and work done on VARCem;
Added Headland HT-216, GC-205 and Video 7 VGA 1024i emulation based on PCem commit;
Implemented the fuction keys for the Toshiba T1000/T1200/T3100 enhancement;
Amstrad MegaPC does now works correctly with non-internal graphics card;
The SLiRP code no longer casts a packed struct type to a non-packed struct type;
The Xi8088 and PB410a no longer hang on 86Box when PS/2 mouse is not present;
The S3 Virge on BeOS is no longer broken (was broken by build #1591);
OS/2 2.0 build 6.167 now sees key presses again;
Xi8088 now work on CGA again;
86F images converted from either the old or new variants of the HxC MFM format now work correctly;
Hardware interrupts with a vector of 0xFF are now handled correctly;
OPTi 495SX boards no longer incorrectly have 64 MB maximum RAM when 32 MB is correct;
Fixed VNC keyboard input bugs;
Fixed AT RTC periodic interrupt - Chicago 58s / 73f / 73g  / 81 MIDI play no longer hangs with the build's own VTD driver;
Fixed mouse polling with internal mice - Amstrad and Olivetti mice now work correctly;
Triones ATAPI DMA driver now correctly reads a file at the end of a CD image with a sectors number not divisible by 4;
Compaq Portable now works with all graphics cards;
Fixed various MDSI Genius bugs;
Added segment limit checks and improved page fault checks for several CPU instructions - Memphis 15xx WINSETUP and Chicago 58s WINDISK.CPL no longer issue a GPF, and some S3 drivers that used to have glitches, now work correctly;
Further improved the 808x emulation, also fixes the noticably choppy sound when using 808x CPU's, also fixes #355;
OS/2 installer no logner locks up on splash screen on PS/2 Model 70 and 80, fixes #400.
Fixed several Amstead bugs, GEM no longer crashes on the Amstrad 1640, fixes #391.
Ported John Elliott's Amstrad fixes and improvement from PCem, and fixed the default language so it's correctly Engliish, fixes #278, fixes #389.
Fixed a minor IDE timing bug, fixes #388.
Fixed Toshiba T1000 RAM issues, fixes #379.
Fixed EGA/(S)VGA overscan border handling, fixes #378;
Got rid of the now long useless IDE channel 2 auto-removal, fixes #370;
Fixed the BIOS files used by the AMSTRAD PC1512, fixes #366;
Ported the Unicode CD image file name fix from VARCem, fixes #365;
Fixed high density floppy disks on the Xi8088, fixes #359;
Fixed some bugs in the Hercules emulation, fixes #346, fixes #358;
Fixed the SCSI hard disk mode sense pages, fixes #356;
Removed the AMI Unknown 386SX because of impossibility to identify the chipset, closes #349;
Fixed bugs in the serial mouse emulation, fixes #344;
Compiled 86Box binaries now include all the required .DLL's, fixes #341;
Made some combo boxes in the Settings dialog slightly wider, fixes #276.
2019-09-20 14:02:30 +02:00

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/*
* 86Box A hypervisor and IBM PC system emulator that specializes in
* running old operating systems and software designed for IBM
* PC systems and compatibles from 1981 through fairly recent
* system designs based on the PCI bus.
*
* This file is part of the 86Box distribution.
*
* General keyboard driver interface.
*
* Version: @(#)keyboard.c 1.0.16 2019/03/05
*
* Authors: Sarah Walker, <http://pcem-emulator.co.uk/>
* Miran Grca, <mgrca8@gmail.com>
* Fred N. van Kempen, <decwiz@yahoo.com>
*
* Copyright 2008-2019 Sarah Walker.
* Copyright 2015-2019 Miran Grca.
* Copyright 2017-2019 Fred N. van Kempen.
*/
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <wchar.h>
#include "86box.h"
#include "machine/machine.h"
#include "keyboard.h"
int keyboard_scan;
void (*keyboard_send)(uint16_t val);
static int recv_key[512]; /* keyboard input buffer */
static int oldkey[512];
#if 0
static int keydelay[512];
#endif
static scancode *scan_table; /* scancode table for keyboard */
static uint8_t caps_lock = 0;
static uint8_t num_lock = 0;
static uint8_t scroll_lock = 0;
static uint8_t shift = 0;
void
keyboard_init(void)
{
memset(recv_key, 0x00, sizeof(recv_key));
keyboard_scan = 1;
scan_table = NULL;
memset(keyboard_set3_flags, 0x00, sizeof(keyboard_set3_flags));
keyboard_set3_all_repeat = 0;
keyboard_set3_all_break = 0;
}
void
keyboard_set_table(const scancode *ptr)
{
scan_table = (scancode *) ptr;
}
static uint8_t
fake_shift_needed(uint16_t scan)
{
switch(scan) {
case 0x147:
case 0x148:
case 0x149:
case 0x14a:
case 0x14b:
case 0x14d:
case 0x14f:
case 0x150:
case 0x151:
case 0x152:
case 0x153:
return 1;
default:
return 0;
}
}
void
key_process(uint16_t scan, int down)
{
scancode *codes = scan_table;
int c;
if (! keyboard_scan) return;
oldkey[scan] = down;
if (down && codes[scan].mk[0] == 0)
return;
if (!down && codes[scan].brk[0] == 0)
return;
if (AT && ((keyboard_mode & 3) == 3)) {
if (!keyboard_set3_all_break && !down && !(keyboard_set3_flags[codes[scan].mk[0]] & 2))
return;
}
c = 0;
if (down) {
/* Send the special code indicating an opening fake shift might be needed. */
if (fake_shift_needed(scan))
keyboard_send(0x100);
while (codes[scan].mk[c] != 0)
keyboard_send(codes[scan].mk[c++]);
} else {
while (codes[scan].brk[c] != 0)
keyboard_send(codes[scan].brk[c++]);
/* Send the special code indicating a closing fake shift might be needed. */
if (fake_shift_needed(scan))
keyboard_send(0x101);
}
}
/* Handle a keystroke event from the UI layer. */
void
keyboard_input(int down, uint16_t scan)
{
/* Translate E0 xx scan codes to 01xx because we use 512-byte arrays for states
and scan code sets. */
if ((scan >> 8) == 0xe0) {
scan &= 0x00ff;
scan |= 0x0100; /* extended key code */
} else if ((scan >> 8) != 0x01)
scan &= 0x00ff; /* we can receive a scan code whose upper byte is 0x01,
this means we're the Win32 version running on windows
that already sends us preprocessed scan codes, which
means we then use the scan code as is, and need to
make sure we do not accidentally strip that upper byte */
if (recv_key[scan & 0x1ff] ^ down) {
if (down) {
switch(scan & 0x1ff) {
case 0x01c: /* Left Ctrl */
shift |= 0x01;
break;
case 0x11c: /* Right Ctrl */
shift |= 0x10;
break;
case 0x02a: /* Left Shift */
shift |= 0x02;
break;
case 0x036: /* Right Shift */
shift |= 0x20;
break;
case 0x038: /* Left Alt */
shift |= 0x04;
break;
case 0x138: /* Right Alt */
shift |= 0x40;
break;
}
} else {
switch(scan & 0x1ff) {
case 0x01c: /* Left Ctrl */
shift &= ~0x01;
break;
case 0x11c: /* Right Ctrl */
shift &= ~0x10;
break;
case 0x02a: /* Left Shift */
shift &= ~0x02;
break;
case 0x036: /* Right Shift */
shift &= ~0x20;
break;
case 0x038: /* Left Alt */
shift &= ~0x04;
break;
case 0x138: /* Right Alt */
shift &= ~0x40;
break;
case 0x03a: /* Caps Lock */
caps_lock ^= 1;
break;
case 0x045:
num_lock ^= 1;
break;
case 0x046:
scroll_lock ^= 1;
break;
}
}
}
/* NOTE: Shouldn't this be some sort of bit shift? An array of 8 unsigned 64-bit integers
should be enough. */
/* recv_key[scan >> 6] |= ((uint64_t) down << ((uint64_t) scan & 0x3fLL)); */
/* pclog("Received scan code: %03X (%s)\n", scan & 0x1ff, down ? "down" : "up"); */
recv_key[scan & 0x1ff] = down;
key_process(scan & 0x1ff, down);
}
static uint8_t
keyboard_do_break(uint16_t scan)
{
scancode *codes = scan_table;
if (AT && ((keyboard_mode & 3) == 3)) {
if (!keyboard_set3_all_break &&
!recv_key[scan] &&
!(keyboard_set3_flags[codes[scan].mk[0]] & 2))
return 0;
else
return 1;
} else
return 1;
}
/* Also called by the emulated keyboard controller to update the states of
Caps Lock, Num Lock, and Scroll Lock when receving the "Set keyboard LEDs"
command. */
void
keyboard_update_states(uint8_t cl, uint8_t nl, uint8_t sl)
{
caps_lock = cl;
num_lock = nl;
scroll_lock = sl;
}
uint8_t
keyboard_get_shift(void)
{
return shift;
}
void
keyboard_get_states(uint8_t *cl, uint8_t *nl, uint8_t *sl)
{
if (cl)
*cl = caps_lock;
if (nl)
*nl = num_lock;
if (sl)
*sl = scroll_lock;
}
/* Called by the UI to update the states of Caps Lock, Num Lock, and Scroll Lock. */
void
keyboard_set_states(uint8_t cl, uint8_t nl, uint8_t sl)
{
scancode *codes = scan_table;
int i;
if (caps_lock != cl) {
i = 0;
while (codes[0x03a].mk[i] != 0)
keyboard_send(codes[0x03a].mk[i++]);
if (keyboard_do_break(0x03a)) {
i = 0;
while (codes[0x03a].brk[i] != 0)
keyboard_send(codes[0x03a].brk[i++]);
}
}
if (num_lock != nl) {
i = 0;
while (codes[0x045].mk[i] != 0)
keyboard_send(codes[0x045].mk[i++]);
if (keyboard_do_break(0x045)) {
i = 0;
while (codes[0x045].brk[i] != 0)
keyboard_send(codes[0x045].brk[i++]);
}
}
if (scroll_lock != sl) {
i = 0;
while (codes[0x046].mk[i] != 0)
keyboard_send(codes[0x046].mk[i++]);
if (keyboard_do_break(0x046)) {
i = 0;
while (codes[0x046].brk[i] != 0)
keyboard_send(codes[0x046].brk[i++]);
}
}
keyboard_update_states(cl, nl, sl);
}
int
keyboard_recv(uint16_t key)
{
return recv_key[key];
}
/* Do we have Control-Alt-PgDn in the keyboard buffer? */
int
keyboard_isfsexit(void)
{
return( (recv_key[0x01D] || recv_key[0x11D]) &&
(recv_key[0x038] || recv_key[0x138]) &&
(recv_key[0x051] || recv_key[0x151]) );
}
/* Do we have F8-F12 in the keyboard buffer? */
int
keyboard_ismsexit(void)
{
#ifdef _WIN32
/* Windows: F8+F12 */
return( recv_key[0x042] && recv_key[0x058] );
#else
/* WxWidgets cannot do two regular keys.. CTRL+END */
return( (recv_key[0x01D] || recv_key[0x11D]) && (recv_key[0x04F] || recv_key[0x14F]) );
#endif
}
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