#include #include "ibm.h" #include "io.h" #include "mem.h" #include "pic.h" #include "pit.h" #include "timer.h" #include "mouse.h" #include "sound/sound.h" #include "sound/snd_speaker.h" #include "keyboard.h" #include "keyboard_olim24.h" #define STAT_PARITY 0x80 #define STAT_RTIMEOUT 0x40 #define STAT_TTIMEOUT 0x20 #define STAT_LOCK 0x10 #define STAT_CD 0x08 #define STAT_SYSFLAG 0x04 #define STAT_IFULL 0x02 #define STAT_OFULL 0x01 struct { int wantirq; uint8_t command; uint8_t status; uint8_t out; uint8_t output_port; int param, param_total; uint8_t params[16]; int mouse_mode; } keyboard_olim24; static uint8_t key_queue[16]; static int key_queue_start = 0, key_queue_end = 0; static uint8_t mouse_scancodes[7]; void keyboard_olim24_poll() { keybsenddelay += (1000 * TIMER_USEC); if (keyboard_olim24.wantirq) { keyboard_olim24.wantirq = 0; picint(2); pclog("keyboard_olim24 : take IRQ\n"); } if (!(keyboard_olim24.status & STAT_OFULL) && key_queue_start != key_queue_end) { pclog("Reading %02X from the key queue at %i\n", keyboard_olim24.out, key_queue_start); keyboard_olim24.out = key_queue[key_queue_start]; key_queue_start = (key_queue_start + 1) & 0xf; keyboard_olim24.status |= STAT_OFULL; keyboard_olim24.status &= ~STAT_IFULL; keyboard_olim24.wantirq = 1; } } void keyboard_olim24_adddata(uint8_t val) { key_queue[key_queue_end] = val; key_queue_end = (key_queue_end + 1) & 0xf; pclog("keyboard_olim24 : %02X added to key queue %02X\n", val, keyboard_olim24.status); return; } void keyboard_olim24_write(uint16_t port, uint8_t val, void *priv) { pclog("keyboard_olim24 : write %04X %02X\n", port, val); /* if (ram[8] == 0xc3) { output = 3; }*/ switch (port) { case 0x60: if (keyboard_olim24.param != keyboard_olim24.param_total) { keyboard_olim24.params[keyboard_olim24.param++] = val; if (keyboard_olim24.param == keyboard_olim24.param_total) { switch (keyboard_olim24.command) { case 0x11: keyboard_olim24.mouse_mode = 0; mouse_scancodes[0] = keyboard_olim24.params[0]; mouse_scancodes[1] = keyboard_olim24.params[1]; mouse_scancodes[2] = keyboard_olim24.params[2]; mouse_scancodes[3] = keyboard_olim24.params[3]; mouse_scancodes[4] = keyboard_olim24.params[4]; mouse_scancodes[5] = keyboard_olim24.params[5]; mouse_scancodes[6] = keyboard_olim24.params[6]; break; case 0x12: keyboard_olim24.mouse_mode = 1; mouse_scancodes[0] = keyboard_olim24.params[0]; mouse_scancodes[1] = keyboard_olim24.params[1]; mouse_scancodes[2] = keyboard_olim24.params[2]; break; default: pclog("Bad keyboard command complete %02X\n", keyboard_olim24.command); } } } else { keyboard_olim24.command = val; switch (val) { case 0x01: /*Self-test*/ break; case 0x05: /*Read ID*/ keyboard_olim24_adddata(0x00); break; case 0x11: keyboard_olim24.param = 0; keyboard_olim24.param_total = 9; break; case 0x12: keyboard_olim24.param = 0; keyboard_olim24.param_total = 4; break; default: pclog("Bad keyboard command %02X\n", val); } } break; case 0x61: ppi.pb = val; timer_process(); timer_update_outstanding(); speaker_update(); speaker_gated = val & 1; speaker_enable = val & 2; if (speaker_enable) was_speaker_enable = 1; pit_set_gate(&pit, 2, val & 1); break; } } uint8_t keyboard_olim24_read(uint16_t port, void *priv) { uint8_t temp = 0xff; switch (port) { case 0x60: temp = keyboard_olim24.out; if (key_queue_start == key_queue_end) { keyboard_olim24.status &= ~STAT_OFULL; keyboard_olim24.wantirq = 0; } else { keyboard_olim24.out = key_queue[key_queue_start]; key_queue_start = (key_queue_start + 1) & 0xf; keyboard_olim24.status |= STAT_OFULL; keyboard_olim24.status &= ~STAT_IFULL; keyboard_olim24.wantirq = 1; } break; case 0x61: return ppi.pb; case 0x64: temp = keyboard_olim24.status; keyboard_olim24.status &= ~(STAT_RTIMEOUT | STAT_TTIMEOUT); break; default: pclog("\nBad olim24 keyboard read %04X\n", port); } return temp; } void keyboard_olim24_reset() { keyboard_olim24.status = STAT_LOCK | STAT_CD; keyboard_olim24.wantirq = 0; keyboard_scan = 1; keyboard_olim24.param = keyboard_olim24.param_total = 0; keyboard_olim24.mouse_mode = 0; mouse_scancodes[0] = 0x1c; mouse_scancodes[1] = 0x53; mouse_scancodes[2] = 0x01; mouse_scancodes[3] = 0x4b; mouse_scancodes[4] = 0x4d; mouse_scancodes[5] = 0x48; mouse_scancodes[6] = 0x50; } typedef struct mouse_olim24_t { int x, y, b; } mouse_olim24_t; uint8_t mouse_olim24_poll(int x, int y, int z, int b, void *p) { mouse_olim24_t *mouse = (mouse_olim24_t *)p; mouse->x += x; mouse->y += y; if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); if ((b & 1) && !(mouse->b & 1)) keyboard_olim24_adddata(mouse_scancodes[0]); if (!(b & 1) && (mouse->b & 1)) keyboard_olim24_adddata(mouse_scancodes[0] | 0x80); mouse->b = (mouse->b & ~1) | (b & 1); if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); if ((b & 2) && !(mouse->b & 2)) keyboard_olim24_adddata(mouse_scancodes[2]); if (!(b & 2) && (mouse->b & 2)) keyboard_olim24_adddata(mouse_scancodes[2] | 0x80); mouse->b = (mouse->b & ~2) | (b & 2); if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); if ((b & 4) && !(mouse->b & 4)) keyboard_olim24_adddata(mouse_scancodes[1]); if (!(b & 4) && (mouse->b & 4)) keyboard_olim24_adddata(mouse_scancodes[1] | 0x80); mouse->b = (mouse->b & ~4) | (b & 4); if (keyboard_olim24.mouse_mode) { if (((key_queue_end - key_queue_start) & 0xf) > 12) return(0xff); if (!mouse->x && !mouse->y) return(0xff); mouse->y = -mouse->y; if (mouse->x < -127) mouse->x = -127; if (mouse->x > 127) mouse->x = 127; if (mouse->x < -127) mouse->x = 0x80 | ((-mouse->x) & 0x7f); if (mouse->y < -127) mouse->y = -127; if (mouse->y > 127) mouse->y = 127; if (mouse->y < -127) mouse->y = 0x80 | ((-mouse->y) & 0x7f); keyboard_olim24_adddata(0xfe); keyboard_olim24_adddata(mouse->x); keyboard_olim24_adddata(mouse->y); mouse->x = mouse->y = 0; } else { while (mouse->x < -4) { if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); mouse->x += 4; keyboard_olim24_adddata(mouse_scancodes[3]); } while (mouse->x > 4) { if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); mouse->x -= 4; keyboard_olim24_adddata(mouse_scancodes[4]); } while (mouse->y < -4) { if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); mouse->y += 4; keyboard_olim24_adddata(mouse_scancodes[5]); } while (mouse->y > 4) { if (((key_queue_end - key_queue_start) & 0xf) > 14) return(0xff); mouse->y -= 4; keyboard_olim24_adddata(mouse_scancodes[6]); } } return(0); } static void *mouse_olim24_init() { mouse_olim24_t *mouse = (mouse_olim24_t *)malloc(sizeof(mouse_olim24_t)); memset(mouse, 0, sizeof(mouse_olim24_t)); return mouse; } static void mouse_olim24_close(void *p) { mouse_olim24_t *mouse = (mouse_olim24_t *)p; free(mouse); } mouse_t mouse_olim24 = { "Olivetti M24 mouse", "olim24", MOUSE_TYPE_OLIM24, mouse_olim24_init, mouse_olim24_close, mouse_olim24_poll }; void keyboard_olim24_init() { io_sethandler(0x0060, 0x0002, keyboard_olim24_read, NULL, NULL, keyboard_olim24_write, NULL, NULL, NULL); io_sethandler(0x0064, 0x0001, keyboard_olim24_read, NULL, NULL, keyboard_olim24_write, NULL, NULL, NULL); keyboard_olim24_reset(); keyboard_send = keyboard_olim24_adddata; keyboard_poll = keyboard_olim24_poll; timer_add(keyboard_olim24_poll, &keybsenddelay, TIMER_ALWAYS_ENABLED, NULL); }