/* * VBMouse - DOS mouse driver resident part * Copyright (C) 2022 Javier S. Pedro * * 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; either version 2 * of the License, or (at your option) any later version. * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include "dlog.h" #include "ps2.h" #include "int10vga.h" #include "int33.h" #include "dostsr.h" TSRDATA data; static const uint16_t default_cursor_graphic[] = { 0x3FFF, 0x1FFF, 0x0FFF, 0x07FF, 0x03FF, 0x01FF, 0x00FF, 0x007F, 0x003F, 0x001F, 0x01FF, 0x00FF, 0x30FF, 0xF87F, 0xF87F, 0xFCFF, 0x0000, 0x4000, 0x6000, 0x7000, 0x7800, 0x7C00, 0x7E00, 0x7F00, 0x7F80, 0x7C00, 0x6C00, 0x4600, 0x0600, 0x0300, 0x0300, 0x0000 }; static void bound_position_to_window(void) { if (data.pos.x < data.min.x) data.pos.x = data.min.x; if (data.pos.x > data.max.x) data.pos.x = data.max.x; if (data.pos.y < data.min.y) data.pos.y = data.min.y; if (data.pos.y > data.max.y) data.pos.y = data.max.y; } static inline bool is_text_mode(uint8_t mode) { switch (mode) { case 0: case 1: case 2: case 3: // CGA text modes with 25 rows and variable columns case 7: // MDA Mono text mode return true; default: return false; } } static void hide_text_cursor(void) { // Restore the character under the old position of the cursor uint16_t __far *ch = get_video_char(data.screen_page, data.cursor_pos.x / 8, data.cursor_pos.y / 8); *ch = data.cursor_prev_char; data.cursor_visible = false; } static void show_text_cursor(void) { uint16_t __far *ch = get_video_char(data.screen_page, data.pos.x / 8, data.pos.y / 8); data.cursor_prev_char = *ch; data.cursor_pos = data.pos; *ch = (*ch & data.cursor_text_and_mask) ^ data.cursor_text_xor_mask; data.cursor_visible = true; } static bool get_graphic_cursor_area(struct point __far *cursor_pos, struct point __far *start, struct point __far *size, struct point __far *offset) { struct point screen_size; screen_size.x = ((data.screen_max.x + 1) / data.screen_scale.x); screen_size.y = ((data.screen_max.y + 1) / data.screen_scale.y); start->x = (cursor_pos->x / data.screen_scale.x) - data.cursor_hotspot.x; start->y = (cursor_pos->y / data.screen_scale.y) - data.cursor_hotspot.y; size->x = GRAPHIC_CURSOR_WIDTH; size->y = GRAPHIC_CURSOR_HEIGHT; offset->x = 0; offset->y = 0; // Start clipping around if (start->x < 0) { offset->x += -start->x; start->x = 0; } if (start->y < 0) { offset->y += -start->y; start->y = 0; } if (start->x > screen_size.x) { return false; // Don't render cursor } else if (start->x + size->x > screen_size.x) { size->x -= (start->x + size->x) - screen_size.x; } if (start->y > screen_size.y) { return false; } else if (start->y + size->y > screen_size.y) { size->y -= (start->y + size->y) - screen_size.y; } return true; } static inline uint8_t * get_prev_graphic_cursor_scanline(unsigned y) { return &data.cursor_prev_graphic[y * GRAPHIC_CURSOR_WIDTH]; } static inline uint16_t get_graphic_cursor_and_mask(unsigned y) { return data.cursor_graphic[y]; } static inline uint16_t get_graphic_cursor_xor_mask(unsigned y) { return data.cursor_graphic[GRAPHIC_CURSOR_HEIGHT + y]; } static void hide_graphic_cursor(void) { uint8_t __far *pixel; uint8_t *cursor_prev; struct point start, size, offset; unsigned pixels_per_byte, y, x; // Compute the area where the cursor is currently positioned if (!get_graphic_cursor_area(&data.cursor_pos, &start, &size, &offset)) { return; } switch (data.screen_mode) { case 4: case 5: case 6: // CGA modes pixels_per_byte = data.screen_mode == 0x6 ? 8 : 4; for (y = 0; y < size.y; y++) { cursor_prev = get_prev_graphic_cursor_scanline(offset.y + y); pixel = get_video_scanline(data.screen_mode, data.screen_page, start.y + y) + start.x / pixels_per_byte; // Restore this scaline from cursor_prev nfmemcpy(pixel, cursor_prev, ((start.x % pixels_per_byte) + size.x + (pixels_per_byte - 1)) / pixels_per_byte); } break; } data.cursor_visible = false; } static void show_graphic_cursor(void) { static const uint16_t msb_mask = 0x8000; uint16_t cursor_and_mask, cursor_xor_mask; uint8_t __far *pixel, pixel_mask; uint8_t *cursor_prev; struct point start, size, offset; unsigned pixels_per_byte, x, y; // Compute the area where the cursor is supposed to be drawn if (!get_graphic_cursor_area(&data.pos, &start, &size, &offset)) { return; } switch (data.screen_mode) { case 4: case 5: case 6: // CGA modes pixels_per_byte = data.screen_mode == 0x6 ? 8 : 4; for (y = 0; y < size.y; y++) { cursor_and_mask = get_graphic_cursor_and_mask(offset.y + y) << offset.x; cursor_xor_mask = get_graphic_cursor_xor_mask(offset.y + y) << offset.y; cursor_prev = get_prev_graphic_cursor_scanline(offset.y + y); pixel = get_video_scanline(data.screen_mode, data.screen_page, start.y + y) + start.x / pixels_per_byte; // First copy this scanline to cursor_prev before any changes fnmemcpy(cursor_prev, pixel, ((start.x % pixels_per_byte) + size.x + (pixels_per_byte - 1)) / pixels_per_byte); // pixel points the previous multiple of pixels_per_byte; // now advance to the start of cursor while updating the pixel_mask pixel_mask = pixels_per_byte == 8 ? 0x80 : 0xC0; for (x = 0; x < (start.x % pixels_per_byte); x++) { pixel_mask >>= 8 / pixels_per_byte; } // Now pixel points to the start of cursor for (; x < (start.x % pixels_per_byte) + size.x; x++) { uint8_t rest = *pixel & ~pixel_mask; if (!(cursor_and_mask & msb_mask)) { *pixel = rest; } if (cursor_xor_mask & msb_mask) { *pixel = rest | (*pixel ^ 0xFF) & pixel_mask; } // Advance to the next pixel if (x % pixels_per_byte == pixels_per_byte - 1) { // Next iteration starts new byte, reload pixel_mask pixel++; pixel_mask = pixels_per_byte == 8 ? 0x80 : 0xC0; } else { pixel_mask >>= 8 / pixels_per_byte; } // Advance to the next bit in the cursor mask cursor_and_mask <<= 1; cursor_xor_mask <<= 1; } } break; default: dlog_print("Graphic mode 0x"); dlog_printx(data.screen_mode); dlog_puts(" not supported"); return; } data.cursor_pos = data.pos; data.cursor_visible = true; } /** Refreshes cursor position and visibility. */ static void refresh_cursor(void) { bool should_show = data.visible_count >= 0; #if USE_VIRTUALBOX if (data.vbwantcursor) { int err = 0; if (should_show != data.cursor_visible) { int err = vbox_set_pointer_visible(&data.vb, should_show); if (err == 0 && data.vbhaveabs) { data.cursor_visible = should_show; } } if (err == 0 & data.vbhaveabs) { // No need to show the cursor; VirtualBox is already showing it for us. return; } } #endif if (is_text_mode(data.screen_mode)) { if (data.cursor_visible) { // Hide the cursor at the old position if any hide_text_cursor(); } if (should_show) { // Show the cursor at the new position show_text_cursor(); } } else { if (data.cursor_visible) { hide_graphic_cursor(); } if (should_show) { show_graphic_cursor(); } } } /** Forcefully hides the mouse cursor if shown. */ static void hide_cursor(void) { #if USE_VIRTUALBOX if (data.vbwantcursor) { vbox_set_pointer_visible(&data.vb, false); if (data.vbhaveabs) { data.cursor_visible = false; } } #endif if (is_text_mode(data.screen_mode)) { if (data.cursor_visible) { hide_text_cursor(); } } else { if (data.cursor_visible) { hide_graphic_cursor(); } } } static void load_cursor(void) { #if USE_VIRTUALBOX if (data.vbwantcursor) { VMMDevReqMousePointer *req = (VMMDevReqMousePointer *) data.vb.buf; const unsigned width = GRAPHIC_CURSOR_WIDTH, height = GRAPHIC_CURSOR_HEIGHT; const unsigned and_mask_size = (width + 7) / 8 * height; const unsigned xor_mask_size = width * height * 4; const unsigned data_size = and_mask_size + xor_mask_size; const unsigned full_size = MAX(sizeof(VMMDevReqMousePointer), 24 + 20 + data_size); unsigned int offset = 0, y, x; bzero(req, full_size); req->header.size = full_size; req->header.version = VMMDEV_REQUEST_HEADER_VERSION; req->header.requestType = VMMDevReq_SetPointerShape; req->header.rc = -1; req->fFlags = VBOX_MOUSE_POINTER_SHAPE; req->xHot = BOUND(data.cursor_hotspot.x, 0, width); req->yHot = BOUND(data.cursor_hotspot.y, 0, height); req->width = width; req->height = height; // Just byteswap the AND mask for (y = 0; y < height; ++y) { uint16_t line = get_graphic_cursor_and_mask(y); req->pointerData[(y*2)] = (line >> 8) & 0xFF; req->pointerData[(y*2)+1] = line & 0xFF; } offset += and_mask_size; // But the XOR mask needs to be converted to huge 4-byte "RGBA" format. for (y = 0; y < height; ++y) { uint16_t line = get_graphic_cursor_xor_mask(y); for (x = 0; x < width; ++x) { unsigned int pos = offset + (y * width * 4) + (x*4) + 0; uint8_t val = (line & 0x8000) ? 0xFF : 0; req->pointerData[pos + 0] = val; req->pointerData[pos + 1] = val; req->pointerData[pos + 2] = val; req->pointerData[pos + 3] = 0; line <<= 1; } } dlog_puts("Loading cursor to VBox"); vbox_send_request(data.vb.iobase, data.vb.buf_physaddr); if (req->header.rc != 0) { dlog_puts("Could not send cursor to VirtualBox"); } // After we send this message, it looks like VirtualBox shows the cursor // even if we didn't actually want it to be visible at this point. // Mark it as visible so that refresh_cursor() will rehide it if necessary. data.cursor_visible = true; refresh_cursor(); } #endif } static void refresh_video_info(void) { uint8_t screen_columns = bda_get_num_columns(); uint8_t mode = bda_get_video_mode() & ~0x80; bool mode_change = mode != data.screen_mode; if (mode_change && data.cursor_visible) { // Assume cursor is lost data.cursor_visible = false; } dlog_print("Current video mode="); dlog_printx(mode); dlog_print(" with cols="); dlog_printd(screen_columns); dlog_endline(); data.screen_mode = mode; data.screen_page = bda_get_cur_video_page(); data.screen_scale.x = 1; data.screen_scale.y = 1; // Compute screen coordinates which are used to events from // absolute mouse coordinates. switch (mode) { case 0: case 1: case 2: case 3: // CGA text modes with 25 rows and variable columns case 7: // MDA Mono text mode data.screen_max.x = (screen_columns * 8) - 1; data.screen_max.y = (25 * 8) - 1; break; case 4: case 5: // CGA low-res modes case 0xd: // EGA low-res mode data.screen_max.x = 640 - 1; data.screen_max.y = 200 - 1; data.screen_scale.x = 2; // Really 320x200 break; case 6: // CGA hi-res mode case 0xe: // EGA modes case 0x13: // VGA 256color mode data.screen_max.x = 640 - 1; data.screen_max.y = 200 - 1; break; case 0xf: case 0x10: // EGA 640x350 modes data.screen_max.x = 640 - 1; data.screen_max.y = 350 - 1; break; case 0x11: case 0x12: // VGA 640x480 modes data.screen_max.x = 640 - 1; data.screen_max.y = 480 - 1; break; default: // Unknown mode; assume default coordinates // Note that if program sets up larger window coordinates, we'll use that instead. data.screen_max.x = 640 - 1; data.screen_max.y = 200 - 1; break; } } static void call_event_handler(void (__far *handler)(), uint16_t events, uint16_t buttons, int16_t x, int16_t y, int16_t delta_x, int16_t delta_y) { #if TRACE_EVENT dlog_print("calling event handler events="); dlog_printx(events); dlog_print(" buttons="); dlog_printx(buttons); dlog_print(" x="); dlog_printd(x); dlog_print(" y="); dlog_printd(y); dlog_print(" dx="); dlog_printd(delta_x); dlog_print(" dy="); dlog_printd(delta_y); dlog_endline(); #endif __asm { mov ax, [events] mov bx, [buttons] mov cx, [x] mov dx, [y] mov si, [delta_x] mov di, [delta_y] call dword ptr [handler] } } static void handle_mouse_event(uint16_t buttons, bool absolute, int x, int y, int z) { uint16_t events = 0; int i; #if TRACE_EVENT dlog_print("handle mouse event"); if (absolute) dlog_print(" absolute"); dlog_print(" buttons="); dlog_printx(buttons); dlog_print(" x="); dlog_printd(x); dlog_print(" y="); dlog_printd(y); dlog_print(" z="); dlog_printd(z); dlog_endline(); #endif if (absolute) { // Absolute movement: x,y are in screen pixels units events |= INT33_EVENT_MASK_ABSOLUTE; if (x != data.pos.x || y != data.pos.y) { events |= INT33_EVENT_MASK_MOVEMENT; // Simulate a fake relative movement in mickeys // This is almost certainly broken. // Programs that expect relative movement data // will almost never set a mickeyPerPixel value. // So all we can do is guess. data.delta.x += (x - data.pos.x) * 8; data.delta.y += (y - data.pos.y) * 8; // Store the new absolute position data.pos.x = x; data.pos.y = y; data.pos_frac.x = 0; data.pos_frac.y = 0; } } else if (x || y) { // Relative movement: x,y are in mickeys uint16_t ticks = bda_get_tick_count_lo(); unsigned ax = ABS(x), ay = ABS(y); events |= INT33_EVENT_MASK_MOVEMENT; // Check if around one second has passed if ((ticks - data.last_ticks) >= 18) { data.total_motion = 0; data.last_ticks = ticks; } // If more than the double speed threshold has been moved in the last second, // double the speed data.total_motion += ax * ax + ay * ay; if (data.total_motion > data.doubleSpeedThreshold * data.doubleSpeedThreshold) { x *= 2; y *= 2; } data.delta.x += x; data.delta.y += y; data.delta_frac.x = 0; data.delta_frac.y = 0; // Convert mickeys into pixels data.pos.x += scalei_rem(x, data.mickeysPerLine.x, 8, &data.pos_frac.x); data.pos.y += scalei_rem(y, data.mickeysPerLine.y, 8, &data.pos_frac.y); } bound_position_to_window(); if (data.haswheel && z) { events |= INT33_EVENT_MASK_WHEEL_MOVEMENT; // Higher byte of buttons contains wheel movement buttons |= (z & 0xFF) << 8; } // Update button status for (i = 0; i < NUM_BUTTONS; ++i) { uint8_t btn = 1 << i; uint8_t evt = 0; if ((buttons & btn) && !(data.buttons & btn)) { // Button pressed evt = 1 << (1 + (i * 2)); // Press event mask data.button[i].pressed.count++; data.button[i].pressed.last.x = data.pos.x; data.button[i].pressed.last.y = data.pos.y; } else if (!(buttons & btn) && (data.buttons & btn)) { // Button released evt = 1 << (2 + (i * 2)); // Release event mask data.button[i].released.count++; data.button[i].released.last.x = data.pos.x; data.button[i].released.last.y = data.pos.y; } events |= evt; } data.buttons = buttons; refresh_cursor(); events &= data.event_mask; if (data.event_handler && events) { call_event_handler(data.event_handler, events, buttons, data.pos.x, data.pos.y, data.delta.x, data.delta.y); } } static void __far ps2_mouse_callback(uint8_t status, uint8_t x, uint8_t y, uint8_t z) { #pragma aux (PS2_CB) ps2_mouse_callback int sx = status & PS2M_STATUS_X_NEG ? 0xFF00 | x : x; int sy = -(status & PS2M_STATUS_Y_NEG ? 0xFF00 | y : y); int sz = z; bool abs = false; #if TRACE_EVENT dlog_print("ps2 callback status="); dlog_printx(status); dlog_print(" sx="); dlog_printd(sx); dlog_print(" sy="); dlog_printd(sy); dlog_print(" sz="); dlog_printd(z); dlog_endline(); #endif #if USE_VIRTUALBOX if (data.vbavail) { uint16_t vbx, vby; if ((vbox_get_mouse(&data.vb, &abs, &vbx, &vby) == 0) && abs) { sx = scaleu(vbx, 0xFFFFU, MAX(data.max.x, data.screen_max.x)); sy = scaleu(vby, 0xFFFFU, MAX(data.max.y, data.screen_max.y)); data.vbhaveabs = true; } else { // VirtualBox does not support absolute coordinates, // or user has disabled them. data.vbhaveabs = false; } } #endif // VirtualBox/Bochs BIOS does not pass wheel data to the callback, // so we will fetch it directly from the BIOS data segment. if (data.haswheel && !sz) { int8_t __far * mouse_packet = MK_FP(bda_get_ebda_segment(), 0x28); sz = mouse_packet[3]; } handle_mouse_event(status & (PS2M_STATUS_BUTTON_1 | PS2M_STATUS_BUTTON_2 | PS2M_STATUS_BUTTON_3), abs, sx, sy, sz); } #if USE_VIRTUALBOX static void enable_vbox_absolute(bool enable) { data.vbhaveabs = false; if (data.vbavail) { int err = vbox_set_mouse(&data.vb, enable, false); if (enable && !err) { dlog_puts("VBox absolute mouse enabled"); data.vbhaveabs = true; } else if (!enable) { dlog_puts("VBox absolute mouse disabled"); } } } #endif static void reset_mouse_hardware() { ps2m_enable(false); #if USE_VIRTUALBOX // By default, enable the integration enable_vbox_absolute(true); load_cursor(); #endif if (data.usewheel && ps2m_detect_wheel()) { // Detect wheel also reinitializes the mouse to the proper packet size data.haswheel = true; } else { // Otherwise do an extra reset to return back to initial state, just in case data.haswheel = false; ps2m_init(PS2M_PACKET_SIZE_PLAIN); } ps2m_set_resolution(3); // 3 = 200 dpi, 8 counts per millimeter ps2m_set_sample_rate(4); // 4 = 80 reports per second ps2m_set_scaling_factor(1); // 1 = 1:1 scaling ps2m_set_callback(ps2_mouse_callback); ps2m_enable(true); } static void reset_mouse_settings() { data.event_mask = 0; data.event_handler = 0; data.mickeysPerLine.x = 8; data.mickeysPerLine.y = 16; data.doubleSpeedThreshold = 64; data.min.x = 0; data.max.x = data.screen_max.x; data.min.y = 0; data.max.y = data.screen_max.y; data.visible_count = -1; data.cursor_text_type = 0; data.cursor_text_and_mask = 0xFFFFU; data.cursor_text_xor_mask = 0x7700U; data.cursor_hotspot.x = 0; data.cursor_hotspot.y = 0; nnmemcpy(data.cursor_graphic, default_cursor_graphic, sizeof(data.cursor_graphic)); refresh_cursor(); // This will hide the cursor and update data.cursor_visible } static void reset_mouse_state() { int i; data.pos.x = data.min.x; data.pos.y = data.min.y; data.pos_frac.x = 0; data.pos_frac.y = 0; data.delta.x = 0; data.delta.y = 0; data.delta_frac.x = 0; data.delta_frac.y = 0; data.buttons = 0; for (i = 0; i < NUM_BUTTONS; i++) { data.button[i].pressed.count = 0; data.button[i].pressed.last.x = 0; data.button[i].pressed.last.y = 0; data.button[i].released.count = 0; data.button[i].released.last.x = 0; data.button[i].released.last.y = 0; } data.cursor_visible = false; data.cursor_pos.x = 0; data.cursor_pos.y = 0; data.cursor_prev_char = 0; bzero(data.cursor_prev_graphic, sizeof(data.cursor_prev_graphic)); } static void return_clear_button_counter(union INTPACK __far *r, struct buttoncounter *c) { r->x.cx = c->last.x; r->x.dx = c->last.y; r->x.bx = c->count; c->last.x = 0; c->last.y = 0; c->count = 0; } static void int33_handler(union INTPACK r) #pragma aux int33_handler "*" parm caller [] modify [ax bx cx dx es] { switch (r.x.ax) { case INT33_RESET_MOUSE: dlog_puts("Mouse reset"); refresh_video_info(); reset_mouse_settings(); reset_mouse_hardware(); reset_mouse_state(); r.x.ax = INT33_MOUSE_FOUND; r.x.bx = NUM_BUTTONS; break; case INT33_SHOW_CURSOR: data.visible_count++; refresh_cursor(); break; case INT33_HIDE_CURSOR: data.visible_count--; refresh_cursor(); break; case INT33_GET_MOUSE_POSITION: r.x.cx = data.pos.x; r.x.dx = data.pos.y; r.x.bx = data.buttons; break; case INT33_SET_MOUSE_POSITION: data.pos.x = r.x.cx; data.pos.y = r.x.dx; data.pos_frac.x = 0; data.pos_frac.y = 0; data.delta.x = 0; data.delta.y = 0; data.delta_frac.x = 0; data.delta_frac.y = 0; bound_position_to_window(); break; case INT33_GET_BUTTON_PRESSED_COUNTER: r.x.ax = data.buttons; return_clear_button_counter(&r, &data.button[MIN(r.x.bx, NUM_BUTTONS - 1)].pressed); break; case INT33_GET_BUTTON_RELEASED_COUNTER: r.x.ax = data.buttons; return_clear_button_counter(&r, &data.button[MIN(r.x.bx, NUM_BUTTONS - 1)].released); break; case INT33_SET_HORIZONTAL_WINDOW: dlog_print("Mouse set horizontal window ["); dlog_printd(r.x.cx); dlog_putc(','); dlog_printd(r.x.dx); dlog_puts("]"); // Recheck in case someone changed the video mode refresh_video_info(); data.min.x = r.x.cx; data.max.x = r.x.dx; bound_position_to_window(); break; case INT33_SET_VERTICAL_WINDOW: dlog_print("Mouse set vertical window ["); dlog_printd(r.x.cx); dlog_putc(','); dlog_printd(r.x.dx); dlog_puts("]"); refresh_video_info(); data.min.y = r.x.cx; data.max.y = r.x.dx; bound_position_to_window(); break; case INT33_SET_GRAPHICS_CURSOR: dlog_puts("Mouse set graphics cursor"); hide_cursor(); data.cursor_hotspot.x = r.x.bx; data.cursor_hotspot.y = r.x.cx; fnmemcpy(data.cursor_graphic, MK_FP(r.x.es, r.x.dx), 64); load_cursor(); refresh_cursor(); break; case INT33_SET_TEXT_CURSOR: dlog_print("Mouse set text cursor "); dlog_printd(r.x.bx); dlog_endline(); hide_cursor(); data.cursor_text_type = r.x.bx; data.cursor_text_and_mask = r.x.cx; data.cursor_text_xor_mask = r.x.dx; refresh_cursor(); break; case INT33_GET_MOUSE_MOTION: r.x.cx = data.delta.x; r.x.dx = data.delta.y; data.delta.x = 0; data.delta.y = 0; #if USE_VIRTUALBOX // Likely this means we need a relative mouse, or we will get out of sync //if (data.vbabs) enable_vbox_absolute(false); #endif break; case INT33_SET_EVENT_HANDLER: dlog_puts("Mouse set event handler"); data.event_mask = r.x.cx; data.event_handler = MK_FP(r.x.es, r.x.dx); break; case INT33_SET_MOUSE_SPEED: dlog_print("Mouse set speed x="); dlog_printd(r.x.cx); dlog_print(" y="); dlog_printd(r.x.dx); dlog_endline(); data.mickeysPerLine.x = r.x.cx; data.mickeysPerLine.y = r.x.dx; break; case INT33_SET_SPEED_DOUBLE_THRESHOLD: dlog_print("Mouse set speed double threshold="); dlog_printd(r.x.dx); dlog_endline(); data.doubleSpeedThreshold = r.x.dx; break; case INT33_EXCHANGE_EVENT_HANDLER: dlog_puts("Mouse exchange event handler"); data.event_mask = r.x.cx; { void (__far *prev_event_handler)() = data.event_handler; data.event_handler = MK_FP(r.x.es, r.x.dx); r.x.es = FP_SEG(prev_event_handler); r.x.dx = FP_OFF(prev_event_handler); } break; case INT33_GET_MOUSE_STATUS_SIZE: dlog_puts("Mouse get status size"); r.x.bx = sizeof(TSRDATA); break; case INT33_SAVE_MOUSE_STATUS: dlog_puts("Mouse save status"); nfmemcpy(MK_FP(r.x.es, r.x.dx), &data, sizeof(TSRDATA)); break; case INT33_LOAD_MOUSE_STATUS: dlog_puts("Mouse load status"); fnmemcpy(&data, MK_FP(r.x.es, r.x.dx), sizeof(TSRDATA)); break; case INT33_SET_MOUSE_SENSITIVITY: dlog_print("Mouse set speed x="); dlog_printd(r.x.bx); dlog_print(" y="); dlog_printd(r.x.cx); dlog_print(" threshold="); dlog_printd(r.x.dx); dlog_endline(); data.mickeysPerLine.x = r.x.bx; data.mickeysPerLine.y = r.x.cx; data.doubleSpeedThreshold = r.x.dx; break; case INT33_GET_MOUSE_SENSITIVITY: r.x.bx = data.mickeysPerLine.x; r.x.cx = data.mickeysPerLine.y; r.x.dx = data.doubleSpeedThreshold; break; case INT33_RESET_SETTINGS: dlog_puts("Mouse reset settings"); refresh_video_info(); reset_mouse_settings(); reset_mouse_state(); r.x.ax = INT33_MOUSE_FOUND; r.x.bx = NUM_BUTTONS; break; case INT33_GET_LANGUAGE: r.x.bx = 0; break; case INT33_GET_DRIVER_INFO: dlog_puts("Mouse get driver info"); r.h.bh = REPORTED_VERSION_MAJOR; r.h.bl = REPORTED_VERSION_MINOR; r.h.ch = INT33_MOUSE_TYPE_PS2; r.h.cl = 0; break; case INT33_GET_MAX_COORDINATES: r.x.cx = data.screen_max.x; r.x.dx = data.screen_max.y; break; case INT33_GET_WINDOW: r.x.ax = data.min.x; r.x.bx = data.min.y; r.x.cx = data.max.x; r.x.dx = data.max.y; break; case INT33_GET_TSR_DATA: dlog_puts("Get TSR data"); r.x.es = FP_SEG(&data); r.x.di = FP_OFF(&data); break; default: dlog_print("Unknown mouse function ax="); dlog_printx(r.x.ax); dlog_endline(); break; } } // Can't use __interrupt, it makes a call to GETDS on the runtime void __declspec(naked) __far int33_isr(void) { __asm { pusha push ds push es push fs push gs mov bp, sp push cs pop ds call int33_handler pop gs pop fs pop es pop ds popa iret } } #if USE_INT2F static void int2f_handler(union INTPACK r) #pragma aux int2f_handler "*" parm caller [] modify [ax bx cx dx es] { } void __declspec(naked) __far int2f_isr(void) { __asm { ; Space for the pointer to the next ISR in the chain push dword ptr 0 ; Save all registers (also acts as the INTPACK paramenter later) pusha push ds push es push fs push gs mov bp, sp push cs pop ds ; Load the address of the next ISR in the chain ; Stack looks like sp+0: gs, fs, es, ds (4*2bytes) ; sp+8: pusha (8 * 2bytes) ; sp+24: dword ptr (the space we reserved to store the next ISR) mov ax, word ptr [data + 4] ; i.e. data.prev_int2f_handler -- Watcom doesn't support structs mov [bp + 24], ax mov ax, word ptr [data + 6] ; i.e. data.prev_int2f_handler[2] mov [bp + 26], ax ; Now call our handler call int2f_handler pop gs pop fs pop es pop ds popa ; This will jump to the address of the next ISR we loaded before retf } } #endif static LPTSRDATA int33_get_tsr_data(void); #pragma aux int33_get_tsr_data = \ "xor ax, ax" \ "mov es, ax" \ "mov di, ax" \ "mov ax, 0x7f" \ "int 0x33" \ __value [es di] \ __modify [ax] static LPTSRDATA local_get_tsr_data(void); #pragma aux local_get_tsr_data = \ "mov ax, cs" \ "mov es, ax" \ "mov di, offset data" \ __value [es di] \ __modify [ax] LPTSRDATA __far get_tsr_data(bool installed) { if (installed) { return int33_get_tsr_data(); } else { return local_get_tsr_data(); } } int resident_end;