// ============================================================================================ /* * vgabios.c */ // ============================================================================================ // // Copyright (C) 2001,2002 the LGPL VGABios developers Team // // 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // ============================================================================================ // // This VGA Bios is specific to the plex86/bochs Emulated VGA card. // You can NOT drive any physical vga card with it. // // ============================================================================================ // // This file contains code ripped from : // - rombios.c of plex86 // // This VGA Bios contains fonts from : // - fntcol16.zip (c) by Joseph Gil avalable at : // ftp://ftp.simtel.net/pub/simtelnet/msdos/screen/fntcol16.zip // These fonts are public domain // // This VGA Bios is based on information taken from : // - Kevin Lawton's vga card emulation for bochs/plex86 // - Ralf Brown's interrupts list available at http://www.cs.cmu.edu/afs/cs/user/ralf/pub/WWW/files.html // - Finn Thogersons' VGADOC4b available at http://home.worldonline.dk/~finth/ // - Michael Abrash's Graphics Programming Black Book // - Francois Gervais' book "programmation des cartes graphiques cga-ega-vga" edited by sybex // - DOSEMU 1.0.1 source code for several tables values and formulas // // Thanks for patches, comments and ideas to : // - techt@pikeonline.net // // ============================================================================================ /* * 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 #include "vgabios.h" #ifdef VBE #include "vbe.h" #endif #include "inlines.h" /* Declares */ extern void vgabios_int10_handler(void); #pragma aux vgabios_int10_handler "*"; // Output void __cdecl unimplemented(void); void __cdecl unknown(void); static uint8_t find_vga_entry(); extern uint8_t xread_byte(uint16_t seg, uint16_t offset); #ifdef VBE extern uint16_t __cdecl vbe_has_vbe_display(void); extern void vbe_init(void); #endif void set_int_vector(uint8_t int_vec, void *offset) { void __far * __far *ivt = 0; ivt[int_vec] = 0xC000 :> offset; } //@todo!! #if 0 vgabios_name: #ifdef VBOX .ascii "VirtualBox VGA BIOS" #else .ascii "Plex86/Bochs VGABios" #endif .ascii " " .byte 0x00 #ifndef VBOX vgabios_version: #ifndef VGABIOS_VERS .ascii "current-cvs" #else .ascii VGABIOS_VERS #endif .ascii " " vgabios_date: .ascii VGABIOS_DATE .byte 0x0a,0x0d .byte 0x00 #endif #ifndef VBOX char vgabios_copyright[] = "(C) 2003 the LGPL VGABios developers Team\r\n"; char vgabios_license[] = "This VGA/VBE Bios is released under the GNU LGPL\r\n\r\n"; char vgabios_website[] = "Please visit :\r\n" \ " . http://www.plex86.org\r\n" \ " . http://bochs.sourceforge.net\r\n" \ " . http://www.nongnu.org/vgabios\r\n\r\n" #endif #endif extern void set_mode(int mode); #pragma aux set_mode = \ "xor ah, ah" \ "int 10h" \ parm [ax]; char msg_vga_init[] = "Oracle VM VirtualBox Version " VBOX_VERSION_STRING " VGA BIOS\r\n"; /* * Boot time harware inits */ void init_vga_card(void) { /* Switch to color mode and enable CPU access 480 lines. */ outb(0x3C2, 0xC3); /* More than 64k 3C4/04. */ /// @todo 16-bit write outb(0x3C4, 0x04); outb(0x3C5, 0x02); #ifdef DEBUG_VGA printf(msg_vga_init); #endif } #include "vgatables.h" #include "vgadefs.h" // -------------------------------------------------------------------------------------------- /* * Boot time bios area inits */ void init_bios_area(void) { uint8_t __far *bda; bda = 0x40 :> 0; /* Indicate 80x25 color was detected. */ bda[BIOSMEM_INITIAL_MODE] = (bda[BIOSMEM_INITIAL_MODE] & 0xcf) | 0x20; /* Just for the first int10 find its children. */ /* The default char height. */ bda[BIOSMEM_CHAR_HEIGHT] = 16; /* Clear the screen. */ bda[BIOSMEM_VIDEO_CTL] = 0x60; /* Set the basic screen we have. */ bda[BIOSMEM_SWITCHES] = 0xf9; /* Set the basic mode set options. */ bda[BIOSMEM_MODESET_CTL] = 0x51; /* Set the default MSR. */ bda[BIOSMEM_CURRENT_MSR] = 0x09; } struct dcc { uint8_t n_ent; uint8_t version; uint8_t max_code; uint8_t reserved; uint16_t dccs[16]; } dcc_table = { 16, 1, 7, 0 }; struct ssa { uint16_t size; void __far *dcc; void __far *sacs; void __far *pal; void __far *resvd[3]; } secondary_save_area = { sizeof(struct ssa), &dcc_table }; void __far *video_save_pointer_table[7] = { &video_param_table, 0, 0, 0, &secondary_save_area }; // ============================================================================================ // // Init Entry point // // ============================================================================================ void __far __cdecl vgabios_init_func(void) { init_vga_card(); init_bios_area(); #ifdef VBE vbe_init(); #endif set_int_vector(0x10, vgabios_int10_handler); set_int_vector(0x6D, vgabios_int10_handler); #ifdef CIRRUS cirrus_init(); #endif #ifndef VBOX display_splash_screen(); // init video mode and clear the screen // @@AS: Do not remove this init, because it will break VESA graphics set_mode(3); display_info(); #ifdef VBE vbe_display_info(); #endif #ifdef CIRRUS cirrus_display_info(); #endif #else /* VBOX */ //#ifdef DEBUG_bird /* Init video mode and clear the screen */ set_mode(3); //#endif #endif /* VBOX */ } #include "vgafonts.h" #ifndef VBOX // -------------------------------------------------------------------------------------------- /* * Boot time Splash screen */ static void display_splash_screen() { } // -------------------------------------------------------------------------------------------- /* * Tell who we are */ static void display_string(void) { // Get length of string ASM_START mov ax,ds mov es,ax mov di,si xor cx,cx not cx xor al,al cld repne scasb not cx dec cx push cx mov ax,#0x0300 mov bx,#0x0000 int #0x10 pop cx mov ax,#0x1301 mov bx,#0x000b mov bp,si int #0x10 ASM_END } static void display_info(void) { display_string(vgabios_name); display_string(vgabios_version); display_string(vgabios_copyright); display_string(vgabios_license); display_string(vgabios_website); } #endif // -------------------------------------------------------------------------------------------- #ifdef VGA_DEBUG void __cdecl int10_debugmsg(uint16_t DI, uint16_t SI, uint16_t BP, uint16_t SP, uint16_t BX, uint16_t DX, uint16_t CX, uint16_t AX, uint16_t DS, uint16_t ES, uint16_t FLAGS) { /* Function 0Eh is write char and would generate way too much output. */ if (GET_AH() != 0x0E) printf("vgabios call ah%02x al%02x bx%04x cx%04x dx%04x\n", GET_AH(), GET_AL(), BX, CX, DX); } #endif static void vga_get_cursor_pos(uint8_t page, uint16_t STACK_BASED *scans, uint16_t STACK_BASED *loc) { if (page > 7) { *scans = 0; *loc = 0; } else { // FIXME should handle VGA 14/16 lines *scans = read_word(BIOSMEM_SEG,BIOSMEM_CURSOR_TYPE); *loc = read_word(BIOSMEM_SEG,BIOSMEM_CURSOR_POS + page * 2); } } /* Look for a glyph bitmap in a given font. */ static uint16_t vga_find_glyph(uint8_t __far *font, uint8_t STACK_BASED *glyph, uint8_t cp, uint16_t n_glyphs, uint8_t cheight) { uint16_t codepoint = 0; /* Zero returned when glyph not found. */ while (n_glyphs--) { if (!repe_cmpsb(font, glyph, cheight)) { codepoint = cp | 0x8000; /* Found matching glyph! */ break; } font += cheight; ++cp; /* Increment code point number. */ } return codepoint; } static void vga_read_glyph_planar(uint8_t __far *vptr, uint16_t stride, uint8_t STACK_BASED *glyph, uint8_t cheight) { /* Set Mode Register (GR5) to Read Mode 1. Assuming default register * state from our mode set, this does all the hard work for us such that * reading a byte from video memory gives us a bit mask for all eight * pixels, for both 16-color and monochrome modes. */ outw(VGAREG_GRDC_ADDRESS, 0x0805); while (cheight--) { *glyph++ = ~*vptr; vptr += stride; } /* Put GR5 back to Read Mode 0. */ outw(VGAREG_GRDC_ADDRESS, 0x0005); } static uint16_t vga_char_ofs_planar(uint8_t xcurs, uint8_t ycurs, uint16_t nbcols, uint8_t page, uint8_t cheight) { uint16_t ofs; ofs = ycurs * nbcols * cheight + xcurs; ofs += page * read_word(BIOSMEM_SEG, BIOSMEM_PAGE_SIZE); return ofs; } static uint8_t vga_read_char_planar(uint16_t nbcols, uint16_t ofs, uint8_t cheight) { uint8_t glyph[16]; /* NB: Don't try taller characters! */ vga_read_glyph_planar(0xA000 :> (uint8_t *)ofs, nbcols, &glyph, cheight); /* Look through font pointed to by INT 43h. */ return vga_find_glyph((void __far *)read_dword(0, 0x43 * 4), &glyph, 0, 256, cheight); } static uint16_t vga_char_ofs_linear(uint8_t xcurs, uint8_t ycurs, uint16_t nbcols, uint8_t page, uint8_t cheight) { uint16_t ofs; ofs = ycurs * nbcols * cheight + xcurs; ofs *= 8; return ofs; } static void vga_read_glyph_linear(uint8_t __far *vptr, uint16_t stride, uint8_t STACK_BASED *glyph, uint8_t cheight) { uint8_t bmap, cbit; int i; /* Zero pixels are background, everything else foreground. */ while (cheight--) { bmap = 0; cbit = 0x80; for (i = 0; i < 8; ++i) { if (vptr[i]) bmap |= cbit; cbit >>= 1; } *glyph++ = bmap; vptr += stride; } } static uint8_t vga_read_char_linear(uint16_t nbcols, uint16_t ofs, uint8_t cheight) { uint8_t glyph[16]; /* NB: Don't try taller characters! */ vga_read_glyph_linear(0xA000 :> (uint8_t *)ofs, nbcols * 8, &glyph, cheight); /* Look through font pointed to by INT 43h. */ return vga_find_glyph((void __far *)read_dword(0, 0x43 * 4), &glyph, 0, 256, cheight); } static uint8_t vga_read_2bpp_char(uint8_t __far *vptr) { uint16_t mask, pixb; uint8_t bmap, cbit; int i; mask = 0xC000; /* Check two bits at a time to see if they're zero. */ cbit = 0x80; /* Go from left to right. */ bmap = 0; pixb = swap_16(*((uint16_t __far *)vptr)); /* Go through 8 lines/words. */ for (i = 0; i < 8; ++i) { if (pixb & mask) bmap |= cbit; cbit >>= 1; mask >>= 2; } return bmap; } static void vga_read_glyph_cga(uint16_t ofs, uint8_t STACK_BASED *glyph, uint8_t mode) { int i; uint8_t __far *vptr; /* The font size is fixed at 8x8. Stride is always 80 bytes because the * mode is either 80 characters wide at 1bpp or 40 characters at 2bpp. */ if (mode != 6) { /* Adjust offset for 2bpp. */ vptr = 0xB800 :> (uint8_t *)(ofs * 2); /* For 2bpp modes, we have to extract the bits by hand. */ for (i = 0; i < 4; ++i) { *glyph++ = vga_read_2bpp_char(vptr); *glyph++ = vga_read_2bpp_char(vptr + 0x2000); vptr += 80; } } else { vptr = 0xB800 :> (uint8_t *)ofs; for (i = 0; i < 4; ++i) { *glyph++ = vptr[0]; *glyph++ = vptr[0x2000]; vptr += 80; } } } static uint16_t vga_char_ofs_cga(uint8_t xcurs, uint8_t ycurs, uint16_t nbcols) { /* Multiply ony by 8 due to line interleaving. NB: Caller * has to multiply the result for two for 2bpp mode. */ return ycurs * nbcols * 4 + xcurs; } static uint8_t vga_read_char_cga(uint16_t ofs, uint8_t mode) { uint8_t glyph[8]; /* Char height is hardcoded to 8. */ uint16_t found; /* Segment would be B000h for mono modes; we don't do those. */ vga_read_glyph_cga(ofs, &glyph, mode); /* Look through the first half of the font pointed to by INT 43h. */ found = vga_find_glyph((void __far *)read_dword(0, 0x43 * 4), &glyph, 0, 128, 8); /* If not found, look for the second half pointed to by INT 1Fh */ if (!(found & 0x8000)) { void __far *int1f; int1f = (void __far *)read_dword(0, 0x1f * 4); if (int1f) /* If null pointer, skip. */ found = vga_find_glyph(int1f, &glyph, 128, 128, 8); } return found; } static void vga_read_char_attr(uint8_t page, uint16_t STACK_BASED *chr_atr) { uint8_t xcurs, ycurs, mode, line, cheight; uint16_t nbcols, nbrows, address; uint16_t cursor, dummy, ofs; // Get the mode mode = read_byte(BIOSMEM_SEG, BIOSMEM_CURRENT_MODE); line = find_vga_entry(mode); if (line == 0xFF) return; // Get the cursor pos for the page vga_get_cursor_pos(page, &dummy, &cursor); xcurs = cursor & 0x00ff; ycurs = (cursor & 0xff00) >> 8; // Get the dimensions nbrows = read_byte(BIOSMEM_SEG, BIOSMEM_NB_ROWS) + 1; nbcols = read_word(BIOSMEM_SEG, BIOSMEM_NB_COLS); if (vga_modes[line].class == TEXT) { // Compute the address address = SCREEN_MEM_START(nbcols, nbrows, page) + (xcurs + ycurs * nbcols) * 2; *chr_atr = read_word(vga_modes[line].sstart, address); } else { switch (vga_modes[line].memmodel) { case CGA: /* For CGA graphics, font size is hardcoded at 8x8. */ ofs = vga_char_ofs_cga(xcurs, ycurs, nbcols); *chr_atr = vga_read_char_cga(ofs, mode); break; case PLANAR1: case PLANAR4: cheight = read_word(BIOSMEM_SEG, BIOSMEM_CHAR_HEIGHT); ofs = vga_char_ofs_planar(xcurs, ycurs, nbcols, page, cheight); *chr_atr = vga_read_char_planar(nbcols, ofs, cheight); break; case LINEAR8: cheight = read_word(BIOSMEM_SEG, BIOSMEM_CHAR_HEIGHT); ofs = vga_char_ofs_linear(xcurs, ycurs, nbcols, page, cheight); *chr_atr = vga_read_char_linear(nbcols, ofs, cheight); break; default: #ifdef VGA_DEBUG unimplemented(); #endif break; } } } static void vga_get_font_info (uint16_t func, uint16_t STACK_BASED *u_seg, uint16_t STACK_BASED *u_ofs, uint16_t STACK_BASED *c_height, uint16_t STACK_BASED *max_row) { void __far *ptr; switch (func) { case 0x00: ptr = (void __far *)read_dword(0x00, 0x1f * 4); break; case 0x01: ptr = (void __far *)read_dword(0x00, 0x43 * 4); break; case 0x02: ptr = 0xC000 :> vgafont14; break; case 0x03: ptr = 0xC000 :> vgafont8; break; case 0x04: ptr = 0xC000 :> (vgafont8 + 128 * 8); break; case 0x05: ptr = 0xC000 :> vgafont14alt; break; case 0x06: ptr = 0xC000 :> vgafont16; break; case 0x07: ptr = 0xC000 :> vgafont16alt; break; default: #ifdef VGA_DEBUG printf("Get font info subfn(%02x) not implemented\n", func); #endif return; } /* Split the far pointer and write it back. */ *u_ofs = (uint16_t)ptr; *u_seg = (uint32_t)ptr >> 16; /* The character height (effectively bytes per glyph). */ *c_height = read_byte(BIOSMEM_SEG, BIOSMEM_CHAR_HEIGHT); /* The highest row number. */ *max_row = read_byte(BIOSMEM_SEG, BIOSMEM_NB_ROWS); } static void vga_read_pixel(uint8_t page, uint16_t col, uint16_t row, uint16_t STACK_BASED *pixel) { uint8_t mode, line, mask, attr, data, i; uint16_t addr; /* Determine current mode characteristics. */ mode = read_byte(BIOSMEM_SEG, BIOSMEM_CURRENT_MODE); line = find_vga_entry(mode); if (line == 0xFF) return; if (vga_modes[line].class == TEXT) return; /* Read data depending on memory model. */ switch (vga_modes[line].memmodel) { case PLANAR4: case PLANAR1: addr = col / 8 + row * read_word(BIOSMEM_SEG, BIOSMEM_NB_COLS); addr += read_word(BIOSMEM_SEG, BIOSMEM_PAGE_SIZE) * page; mask = 0x80 >> (col & 0x07); attr = 0x00; for (i = 0; i < 4; i++) { outw(VGAREG_GRDC_ADDRESS, (i << 8) | 0x04); data = read_byte(0xa000,addr) & mask; if (data > 0) attr |= (0x01 << i); } break; case CGA: addr = (col >> (4 - vga_modes[line].pixbits)) + (row >> 1) * 80; if (row & 1) addr += 0x2000; data = read_byte(0xb800, addr); if (vga_modes[line].pixbits == 2) attr = (data >> ((3 - (col & 0x03)) * 2)) & 0x03; else attr = (data >> (7 - (col & 0x07))) & 0x01; break; case LINEAR8: addr = col + row * (read_word(BIOSMEM_SEG, BIOSMEM_NB_COLS) * 8); attr = read_byte(0xa000, addr); break; default: #ifdef VGA_DEBUG unimplemented(); #endif attr = 0; } *(uint8_t STACK_BASED *)pixel = attr; } // -------------------------------------------------------------------------------------------- /*static*/ void biosfn_perform_gray_scale_summing(uint16_t start, uint16_t count) {uint8_t r,g,b; uint16_t i; uint16_t index; inb(VGAREG_ACTL_RESET); outb(VGAREG_ACTL_ADDRESS,0x00); for( index = 0; index < count; index++ ) { // set read address and switch to read mode outb(VGAREG_DAC_READ_ADDRESS,start); // get 6-bit wide RGB data values r=inb( VGAREG_DAC_DATA ); g=inb( VGAREG_DAC_DATA ); b=inb( VGAREG_DAC_DATA ); // intensity = ( 0.3 * Red ) + ( 0.59 * Green ) + ( 0.11 * Blue ) i = ( ( 77*r + 151*g + 28*b ) + 0x80 ) >> 8; if(i>0x3f)i=0x3f; // set write address and switch to write mode outb(VGAREG_DAC_WRITE_ADDRESS,start); // write new intensity value outb( VGAREG_DAC_DATA, i&0xff ); outb( VGAREG_DAC_DATA, i&0xff ); outb( VGAREG_DAC_DATA, i&0xff ); start++; } inb(VGAREG_ACTL_RESET); outb(VGAREG_ACTL_ADDRESS,0x20); #ifdef VBOX inb(VGAREG_ACTL_RESET); #endif /* VBOX */ } // -------------------------------------------------------------------------------------------- static void biosfn_set_cursor_shape(uint8_t CH, uint8_t CL) { uint16_t cheight, curs, crtc_addr; int cga_emu; /* Unmodified input is stored in the BDA. */ curs = (CH << 8) + CL; write_word(BIOSMEM_SEG, BIOSMEM_CURSOR_TYPE, curs); /* Check if VGA is active. If not, just write the input to the CRTC. */ if (!(read_byte(BIOSMEM_SEG, BIOSMEM_VIDEO_CTL) & 8)) { /* Trying to disable the cursor? */ if ((CH & 0x60) == 0x20) { /* Special IBM-compatible value to turn off cursor. */ CH = 0x1E; CL = 0; } else { cga_emu = !(read_byte(BIOSMEM_SEG, BIOSMEM_VIDEO_CTL) & 1); /* If CGA cursor emulation is on and this is a text mode, adjust. * But if cursor star or end is bigger than 31, don't adjust. */ /// @todo Figure out if this is a text mode if (cga_emu /* && text mode*/ && (CH < 32) && (CL < 32)) { cheight = read_word(BIOSMEM_SEG, BIOSMEM_CHAR_HEIGHT); /* Is the end lower than start? VGA does not wrap around.*/ if (CL < CH) { /* For zero CL (end), leave values unchanged. */ if (CL) { CH = 0; CL = cheight - 1; } } else { if (((CL | CH) >= cheight) || ((CL != cheight - 1) && (CH != cheight - 2))) { /* If it's an overbar cursor, don't adjust. */ if (CL > 3) { if (CL <= CH + 2) { /* It's it a normal underline style cursor. */ CH = CH - CL + cheight - 1; CL = cheight - 1; if (cheight >= 14) { /* Shift up one pixel for normal EGA/VGA fonts. */ CL--; CH--; } } else if (CH <= 2) { /* It's a full block cursor. */ CL = cheight - 1; } else { /* It's a half block cursor. */ CH = cheight / 2; CL = cheight - 1; } } } } } } } // CTRC regs 0x0a and 0x0b crtc_addr = read_word(BIOSMEM_SEG, BIOSMEM_CRTC_ADDRESS); outb(crtc_addr, 0x0a); outb(crtc_addr + 1, CH); outb(crtc_addr, 0x0b); outb(crtc_addr + 1 ,CL); } // -------------------------------------------------------------------------------------------- static void biosfn_set_cursor_pos (uint8_t page, uint16_t cursor) { uint8_t xcurs,ycurs,current; uint16_t nbcols,nbrows,address,crtc_addr; // Should not happen... if(page>7)return; // Bios cursor pos write_word(BIOSMEM_SEG, BIOSMEM_CURSOR_POS+2*page, cursor); // Set the hardware cursor current=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE); if(page==current) { // Get the dimensions nbcols=read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); nbrows=read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1; xcurs=cursor&0x00ff;ycurs=(cursor&0xff00)>>8; // Calculate the address knowing nbcols nbrows and page num address=SCREEN_IO_START(nbcols,nbrows,page)+xcurs+ycurs*nbcols; // CRTC regs 0x0e and 0x0f crtc_addr=read_word(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS); outb(crtc_addr,0x0e); outb(crtc_addr+1,(address&0xff00)>>8); outb(crtc_addr,0x0f); outb(crtc_addr+1,address&0x00ff); } } // -------------------------------------------------------------------------------------------- static void biosfn_set_active_page(uint8_t page) { uint16_t cursor,dummy,crtc_addr; uint16_t nbcols,nbrows,address; uint8_t mode,line; if(page>7)return; // Get the mode mode=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); line=find_vga_entry(mode); if(line==0xFF)return; // Get pos curs pos for the right page vga_get_cursor_pos(page,&dummy,&cursor); if(vga_modes[line].class==TEXT) { // Get the dimensions nbcols=read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); nbrows=read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1; // Calculate the address knowing nbcols nbrows and page num address=SCREEN_MEM_START(nbcols,nbrows,page); write_word(BIOSMEM_SEG,BIOSMEM_CURRENT_START,address); // Start address address=SCREEN_IO_START(nbcols,nbrows,page); } else { address = page * video_param_table[line_to_vpti[line]].slength; } // CRTC regs 0x0c and 0x0d crtc_addr=read_word(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS); outb(crtc_addr,0x0c); outb(crtc_addr+1,(address&0xff00)>>8); outb(crtc_addr,0x0d); outb(crtc_addr+1,address&0x00ff); // And change the BIOS page write_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE,page); #ifdef VGA_DEBUG printf("Set active page %02x address %04x\n",page,address); #endif // Display the cursor, now the page is active biosfn_set_cursor_pos(page,cursor); } /// Recursive BIOS invocation, uses extern void vga_font_set(uint8_t function, uint8_t data); #pragma aux vga_font_set = \ "mov ah, 11h" \ "int 6Dh" \ parm [al] [bl]; // ============================================================================================ // // BIOS functions // // ============================================================================================ /* CGA-compatible MSR (0x3D8) register values for first modes 0-7. */ uint8_t cga_msr[8] = { 0x2C, 0x28, 0x2D, 0x29, 0x2A, 0x2E, 0x1E, 0x29 }; void biosfn_set_video_mode(uint8_t mode) {// mode: Bit 7 is 1 if no clear screen // Should we clear the screen ? uint8_t noclearmem=mode&0x80; uint8_t line,mmask,*palette,vpti; uint16_t i,twidth,theightm1,cheight; uint8_t modeset_ctl,video_ctl,vga_switches; uint16_t crtc_addr; #ifdef VBE if (vbe_has_vbe_display()) { // Force controller into VGA mode outb(VGAREG_SEQU_ADDRESS,7); outb(VGAREG_SEQU_DATA,0x00); } #endif // def VBE // The real mode mode=mode&0x7f; // Display switching is not supported, and mono monitors aren't either. // Requests to set mode 7 (mono) must set mode 0 instead (color). if (mode == 7) mode = 0; // find the entry in the video modes line=find_vga_entry(mode); #ifdef VGA_DEBUG printf("mode search %02x found line %02x\n",mode,line); #endif if(line==0xFF) return; vpti=line_to_vpti[line]; twidth=video_param_table[vpti].twidth; theightm1=video_param_table[vpti].theightm1; cheight=video_param_table[vpti].cheight; // Read the bios vga control video_ctl=read_byte(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL); // Read the bios vga switches vga_switches=read_byte(BIOSMEM_SEG,BIOSMEM_SWITCHES); // Read the bios mode set control modeset_ctl=read_byte(BIOSMEM_SEG,BIOSMEM_MODESET_CTL); // Then we know the number of lines // FIXME // if palette loading (bit 3 of modeset ctl = 0) if((modeset_ctl&0x08)==0) {// Set the PEL mask outb(VGAREG_PEL_MASK,vga_modes[line].pelmask); // Set the whole dac always, from 0 outb(VGAREG_DAC_WRITE_ADDRESS,0x00); // From which palette switch(vga_modes[line].dacmodel) {case 0: palette=&palette0[0]; break; case 1: palette=&palette1[0]; break; case 2: palette=&palette2[0]; break; case 3: palette=&palette3[0]; break; } // Always 256*3 values for(i=0;i<0x0100;i++) {if(i<=dac_regs[vga_modes[line].dacmodel]) {outb(VGAREG_DAC_DATA,palette[(i*3)+0]); outb(VGAREG_DAC_DATA,palette[(i*3)+1]); outb(VGAREG_DAC_DATA,palette[(i*3)+2]); } else {outb(VGAREG_DAC_DATA,0); outb(VGAREG_DAC_DATA,0); outb(VGAREG_DAC_DATA,0); } } if((modeset_ctl&0x02)==0x02) { biosfn_perform_gray_scale_summing(0x00, 0x100); } } // Reset Attribute Ctl flip-flop inb(VGAREG_ACTL_RESET); // Set Attribute Ctl for(i=0;i<=0x13;i++) {outb(VGAREG_ACTL_ADDRESS,i); outb(VGAREG_ACTL_WRITE_DATA,video_param_table[vpti].actl_regs[i]); } outb(VGAREG_ACTL_ADDRESS,0x14); outb(VGAREG_ACTL_WRITE_DATA,0x00); // Set Sequencer Ctl outb(VGAREG_SEQU_ADDRESS,0); outb(VGAREG_SEQU_DATA,0x03); for(i=1;i<=4;i++) {outb(VGAREG_SEQU_ADDRESS,i); outb(VGAREG_SEQU_DATA,video_param_table[vpti].sequ_regs[i - 1]); } // Set Grafx Ctl for(i=0;i<=8;i++) {outb(VGAREG_GRDC_ADDRESS,i); outb(VGAREG_GRDC_DATA,video_param_table[vpti].grdc_regs[i]); } // Set CRTC address VGA or MDA crtc_addr=vga_modes[line].memmodel==MTEXT?VGAREG_MDA_CRTC_ADDRESS:VGAREG_VGA_CRTC_ADDRESS; // Disable CRTC write protection outw(crtc_addr,0x0011); // Set CRTC regs for(i=0;i<=0x18;i++) {outb(crtc_addr,i); outb(crtc_addr+1,video_param_table[vpti].crtc_regs[i]); } // Set the misc register outb(VGAREG_WRITE_MISC_OUTPUT,video_param_table[vpti].miscreg); // Enable video outb(VGAREG_ACTL_ADDRESS,0x20); inb(VGAREG_ACTL_RESET); if(noclearmem==0x00) { if(vga_modes[line].class==TEXT) { memsetw(vga_modes[line].sstart,0,0x0720,0x4000); // 32k } else { if(mode<0x0d) { memsetw(vga_modes[line].sstart,0,0x0000,0x4000); // 32k } else { outb( VGAREG_SEQU_ADDRESS, 0x02 ); mmask = inb( VGAREG_SEQU_DATA ); outb( VGAREG_SEQU_DATA, 0x0f ); // all planes memsetw(vga_modes[line].sstart,0,0x0000,0x8000); // 64k outb( VGAREG_SEQU_DATA, mmask ); } } } // Set the BIOS mem write_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE,mode); write_word(BIOSMEM_SEG,BIOSMEM_NB_COLS,twidth); write_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE,video_param_table[vpti].slength); write_word(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS,crtc_addr); write_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS,theightm1); write_word(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT,cheight); write_byte(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL,(0x60|noclearmem)); write_byte(BIOSMEM_SEG,BIOSMEM_SWITCHES,0xF9); write_byte(BIOSMEM_SEG,BIOSMEM_MODESET_CTL,read_byte(BIOSMEM_SEG,BIOSMEM_MODESET_CTL)&0x7f); // FIXME We nearly have the good tables. to be reworked write_byte(BIOSMEM_SEG,BIOSMEM_DCC_INDEX,0x08); // 8 is VGA should be ok for now write_dword(BIOSMEM_SEG,BIOSMEM_VS_POINTER, (uint32_t)(void __far *)video_save_pointer_table); if (mode <= 7) { write_byte(BIOSMEM_SEG, BIOSMEM_CURRENT_MSR, cga_msr[mode]); /* Like CGA reg. 0x3D8 */ write_byte(BIOSMEM_SEG, BIOSMEM_CURRENT_PAL, mode == 6 ? 0x3F : 0x30); /* Like CGA reg. 0x3D9*/ } // Set cursor shape if(vga_modes[line].class==TEXT) { biosfn_set_cursor_shape(0x06,0x07); } // Set cursor pos for page 0..7 for(i=0;i<8;i++) biosfn_set_cursor_pos(i,0x0000); // Set active page 0 biosfn_set_active_page(0x00); // Write the fonts in memory if(vga_modes[line].class==TEXT) { biosfn_load_text_8_16_pat(0x04, 0); /* Load 8x16 font into page 0. */ vga_font_set(0x03, 0); /* Select font page mode 0. */ } // Set the ints 0x1F and 0x43 set_int_vector(0x1f, vgafont8+128*8); switch(cheight) {case 8: set_int_vector(0x43, vgafont8); break; case 14: set_int_vector(0x43, vgafont14); break; case 16: set_int_vector(0x43, vgafont16); break; } } // -------------------------------------------------------------------------------------------- static void vgamem_copy_pl4(uint8_t xstart, uint8_t ysrc, uint8_t ydest, uint8_t cols, uint8_t nbcols, uint8_t cheight) { uint16_t src,dest; uint8_t i; src=ysrc*cheight*nbcols+xstart; dest=ydest*cheight*nbcols+xstart; outw(VGAREG_GRDC_ADDRESS, 0x0105); for(i=0;i>1)+xstart; dest=((ydest*cheight*nbcols)>>1)+xstart; for(i=0;i>1)+xstart; for(i=0;irlr)return; if(cul>clr)return; // Get the mode mode=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); line=find_vga_entry(mode); if(line==0xFF)return; // Get the dimensions nbrows=read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1; nbcols=read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); // Get the current page if(page==0xFF) page=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE); if(rlr>=nbrows)rlr=nbrows-1; if(clr>=nbcols)clr=nbcols-1; if(nblines>nbrows)nblines=0; cols=clr-cul+1; if(vga_modes[line].class==TEXT) { // Compute the address address=SCREEN_MEM_START(nbcols,nbrows,page); #ifdef VGA_DEBUG printf("Scroll, address %04x (%04x %04x %02x)\n",address,nbrows,nbcols,page); #endif if(nblines==0&&rul==0&&cul==0&&rlr==nbrows-1&&clr==nbcols-1) { memsetw(vga_modes[line].sstart,address,(uint16_t)attr*0x100+' ',nbrows*nbcols); } else {// if Scroll up if(dir==SCROLL_UP) {for(i=rul;i<=rlr;i++) { if((i+nblines>rlr)||(nblines==0)) memsetw(vga_modes[line].sstart,address+(i*nbcols+cul)*2,(uint16_t)attr*0x100+' ',cols); else memcpyw(vga_modes[line].sstart,address+(i*nbcols+cul)*2,vga_modes[line].sstart,((i+nblines)*nbcols+cul)*2,cols); } } else {for(i=rlr;i>=rul;i--) { if((irlr) break; } } } } else { cheight=video_param_table[line_to_vpti[line]].cheight; switch(vga_modes[line].memmodel) { case PLANAR4: case PLANAR1: if(nblines==0&&rul==0&&cul==0&&rlr==nbrows-1&&clr==nbcols-1) { outw(VGAREG_GRDC_ADDRESS, 0x0205); memsetb(vga_modes[line].sstart,0,attr,nbrows*nbcols*cheight); outw(VGAREG_GRDC_ADDRESS, 0x0005); } else {// if Scroll up if(dir==SCROLL_UP) {for(i=rul;i<=rlr;i++) { if((i+nblines>rlr)||(nblines==0)) vgamem_fill_pl4(cul,i,cols,nbcols,cheight,attr); else vgamem_copy_pl4(cul,i+nblines,i,cols,nbcols,cheight); } } else {for(i=rlr;i>=rul;i--) { if((irlr) break; } } } break; case CGA: bpp=vga_modes[line].pixbits; if(nblines==0&&rul==0&&cul==0&&rlr==nbrows-1&&clr==nbcols-1) { memsetb(vga_modes[line].sstart,0,attr,nbrows*nbcols*cheight*bpp); } else { if(bpp==2) { cul<<=1; cols<<=1; nbcols<<=1; } // if Scroll up if(dir==SCROLL_UP) {for(i=rul;i<=rlr;i++) { if((i+nblines>rlr)||(nblines==0)) vgamem_fill_cga(cul,i,cols,nbcols,cheight,attr); else vgamem_copy_cga(cul,i+nblines,i,cols,nbcols,cheight); } } else {for(i=rlr;i>=rul;i--) { if((irlr) break; } } } break; case LINEAR8: if(nblines==0&&rul==0&&cul==0&&rlr==nbrows-1&&clr==nbcols-1) { memsetb(vga_modes[line].sstart,0,attr,nbrows*nbcols*cheight*8); } else { // if Scroll up if(dir==SCROLL_UP) {for(i=rul;i<=rlr;i++) { if((i+nblines>rlr)||(nblines==0)) vgamem_fill_linear(cul,i,cols,nbcols,cheight,attr); else vgamem_copy_linear(cul,i+nblines,i,cols,nbcols,cheight); } } else {for(i=rlr;i>=rul;i--) { if((irlr) break; } } } break; #ifdef VGA_DEBUG default: printf("Scroll in graphics mode "); unimplemented(); #endif } } } // -------------------------------------------------------------------------------------------- static void write_gfx_char_pl4(uint8_t car, uint8_t attr, uint8_t xcurs, uint8_t ycurs, uint8_t nbcols, uint8_t cheight, uint8_t page) { uint8_t i,j,mask; uint8_t __far *fdata; uint16_t addr,dest,src; fdata = (void __far *)read_dword(0x00, 0x43 * 4); addr=xcurs+ycurs*cheight*nbcols; addr+=read_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE)*page; src = car * cheight; outw(VGAREG_SEQU_ADDRESS, 0x0f02); outw(VGAREG_GRDC_ADDRESS, 0x0205); if(attr&0x80) { outw(VGAREG_GRDC_ADDRESS, 0x1803); } else { outw(VGAREG_GRDC_ADDRESS, 0x0003); } for(i=0;i>j; outw(VGAREG_GRDC_ADDRESS, (mask << 8) | 0x08); xread_byte(0xa000,dest); if(fdata[src+i]&mask) { write_byte(0xa000,dest,attr&0x0f); } else { write_byte(0xa000,dest,0x00); } } } outw(VGAREG_GRDC_ADDRESS, 0xff08); outw(VGAREG_GRDC_ADDRESS, 0x0005); outw(VGAREG_GRDC_ADDRESS, 0x0003); } // -------------------------------------------------------------------------------------------- static void write_gfx_char_cga(uint8_t car, uint8_t attr, uint8_t xcurs, uint8_t ycurs, uint8_t nbcols, uint8_t bpp) { uint8_t i,j,mask,data; uint8_t *fdata; uint16_t addr,dest,src; fdata = &vgafont8; addr=(xcurs*bpp)+ycurs*320; src = car * 8; for(i=0;i<8;i++) { dest=addr+(i>>1)*80; if (i & 1) dest += 0x2000; mask = 0x80; /* NB: In 1bpp modes, the attribute is ignored, only the XOR flag has meaning. */ if (bpp == 1) { if (attr & 0x80) { data = read_byte(0xb800,dest); data ^= fdata[src+i]; } else { data = fdata[src+i]; } write_byte(0xb800,dest,data); } else { while (mask > 0) { if (attr & 0x80) { data = read_byte(0xb800,dest); } else { data = 0x00; } for(j=0;j<4;j++) { if (fdata[src+i] & mask) { if (attr & 0x80) { data ^= (attr & 0x03) << ((3-j)*2); } else { data |= (attr & 0x03) << ((3-j)*2); } } mask >>= 1; } write_byte(0xb800,dest,data); dest += 1; } } } } // -------------------------------------------------------------------------------------------- static void write_gfx_char_lin(uint8_t car, uint8_t attr, uint8_t xcurs, uint8_t ycurs, uint8_t nbcols) { uint8_t i,j,mask,data; uint8_t *fdata; uint16_t addr,dest,src; fdata = &vgafont8; addr=xcurs*8+ycurs*nbcols*64; src = car * 8; for(i=0;i<8;i++) { dest=addr+i*nbcols*8; mask = 0x80; for(j=0;j<8;j++) { data = 0x00; if (fdata[src+i] & mask) { data = attr; } write_byte(0xa000,dest+j,data); mask >>= 1; } } } // -------------------------------------------------------------------------------------------- static void biosfn_write_char_attr(uint8_t car, uint8_t page, uint8_t attr, uint16_t count) { uint8_t cheight,xcurs,ycurs,mode,line,bpp; uint16_t nbcols,nbrows,address; uint16_t cursor,dummy; // Get the mode mode=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); line=find_vga_entry(mode); if(line==0xFF)return; // Get the cursor pos for the page vga_get_cursor_pos(page,&dummy,&cursor); xcurs=cursor&0x00ff;ycurs=(cursor&0xff00)>>8; // Get the dimensions nbrows=read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1; nbcols=read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); if(vga_modes[line].class==TEXT) { // Compute the address address=SCREEN_MEM_START(nbcols,nbrows,page)+(xcurs+ycurs*nbcols)*2; dummy=((uint16_t)attr<<8)+car; memsetw(vga_modes[line].sstart,address,dummy,count); } else { // FIXME gfx mode not complete cheight=video_param_table[line_to_vpti[line]].cheight; bpp=vga_modes[line].pixbits; while(count-->0) { switch(vga_modes[line].memmodel) { case PLANAR1: attr |= 0x01; /* Color is ignored in 1bpp modes, always foreground. */ case PLANAR4: write_gfx_char_pl4(car,attr,xcurs,ycurs,nbcols,cheight,page); break; case CGA: write_gfx_char_cga(car,attr,xcurs,ycurs,nbcols,bpp); break; case LINEAR8: write_gfx_char_lin(car,attr,xcurs,ycurs,nbcols); break; #ifdef VGA_DEBUG default: unimplemented(); #endif } xcurs++; } } } // -------------------------------------------------------------------------------------------- static void biosfn_write_char_only(uint8_t car, uint8_t page, uint8_t attr, uint16_t count) { uint8_t cheight,xcurs,ycurs,mode,line,bpp; uint16_t nbcols,nbrows,address; uint16_t cursor,dummy; // Get the mode mode=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); line=find_vga_entry(mode); if(line==0xFF)return; // Get the cursor pos for the page vga_get_cursor_pos(page,&dummy,&cursor); xcurs=cursor&0x00ff;ycurs=(cursor&0xff00)>>8; // Get the dimensions nbrows=read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1; nbcols=read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); if(vga_modes[line].class==TEXT) { // Compute the address address=SCREEN_MEM_START(nbcols,nbrows,page)+(xcurs+ycurs*nbcols)*2; while(count-->0) {write_byte(vga_modes[line].sstart,address,car); address+=2; } } else { // FIXME gfx mode not complete cheight=video_param_table[line_to_vpti[line]].cheight; bpp=vga_modes[line].pixbits; while(count-->0) { switch(vga_modes[line].memmodel) { case PLANAR1: attr |= 0x01; /* Color is ignored in 1bpp modes, always foreground. */ case PLANAR4: write_gfx_char_pl4(car,attr,xcurs,ycurs,nbcols,cheight,page); break; case CGA: write_gfx_char_cga(car,attr,xcurs,ycurs,nbcols,bpp); break; case LINEAR8: write_gfx_char_lin(car,attr,xcurs,ycurs,nbcols); break; #ifdef VGA_DEBUG default: unimplemented(); #endif } xcurs++; } } } // -------------------------------------------------------------------------------------------- static void biosfn_write_pixel(uint8_t BH, uint8_t AL, uint16_t CX, uint16_t DX) { uint8_t mode,line,mask,attr,data; uint16_t addr; // Get the mode mode=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); line=find_vga_entry(mode); if(line==0xFF)return; if(vga_modes[line].class==TEXT)return; switch(vga_modes[line].memmodel) { case PLANAR4: case PLANAR1: addr = CX/8+DX*read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); addr += read_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE) * BH; mask = 0x80 >> (CX & 0x07); outw(VGAREG_GRDC_ADDRESS, (mask << 8) | 0x08); outw(VGAREG_GRDC_ADDRESS, 0x0205); data = xread_byte(0xa000,addr); if (AL & 0x80) { outw(VGAREG_GRDC_ADDRESS, 0x1803); } write_byte(0xa000,addr,AL); outw(VGAREG_GRDC_ADDRESS, 0xff08); outw(VGAREG_GRDC_ADDRESS, 0x0005); outw(VGAREG_GRDC_ADDRESS, 0x0003); break; case CGA: if(vga_modes[line].pixbits==2) { addr=(CX>>2)+(DX>>1)*80; } else { addr=(CX>>3)+(DX>>1)*80; } if (DX & 1) addr += 0x2000; data = read_byte(0xb800,addr); if(vga_modes[line].pixbits==2) { attr = (AL & 0x03) << ((3 - (CX & 0x03)) * 2); mask = 0x03 << ((3 - (CX & 0x03)) * 2); } else { attr = (AL & 0x01) << (7 - (CX & 0x07)); mask = 0x01 << (7 - (CX & 0x07)); } if (AL & 0x80) { data ^= attr; } else { data &= ~mask; data |= attr; } write_byte(0xb800,addr,data); break; case LINEAR8: addr=CX+DX*(read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS)*8); write_byte(0xa000,addr,AL); break; #ifdef VGA_DEBUG default: unimplemented(); #endif } } // -------------------------------------------------------------------------------------------- static void biosfn_write_teletype(uint8_t car, uint8_t page, uint8_t attr, uint8_t flag) {// flag = WITH_ATTR / NO_ATTR uint8_t cheight,xcurs,ycurs,mode,line,bpp; uint16_t nbcols,nbrows,address; uint16_t cursor,dummy; // special case if page is 0xff, use current page if(page==0xff) page=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE); // Get the mode mode=read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); line=find_vga_entry(mode); if(line==0xFF)return; // Get the cursor pos for the page vga_get_cursor_pos(page,&dummy,&cursor); xcurs=cursor&0x00ff;ycurs=(cursor&0xff00)>>8; // Get the dimensions nbrows=read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1; nbcols=read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); switch(car) { case '\a': // ASCII 0x07, BEL //FIXME should beep break; case '\b': // ASCII 0x08, BS if(xcurs>0)xcurs--; break; case '\n': // ASCII 0x0A, LF ycurs++; break; case '\r': // ASCII 0x0D, CR xcurs=0; break; default: if(vga_modes[line].class==TEXT) { // Compute the address address=SCREEN_MEM_START(nbcols,nbrows,page)+(xcurs+ycurs*nbcols)*2; // Write the char write_byte(vga_modes[line].sstart,address,car); if(flag==WITH_ATTR) write_byte(vga_modes[line].sstart,address+1,attr); } else { // FIXME gfx mode not complete cheight=video_param_table[line_to_vpti[line]].cheight; bpp=vga_modes[line].pixbits; switch(vga_modes[line].memmodel) { case PLANAR1: attr |= 0x01; /* Color is ignored in 1bpp modes, always foreground. */ case PLANAR4: write_gfx_char_pl4(car,attr,xcurs,ycurs,nbcols,cheight,page); break; case CGA: write_gfx_char_cga(car,attr,xcurs,ycurs,nbcols,bpp); break; case LINEAR8: write_gfx_char_lin(car,attr,xcurs,ycurs,nbcols); break; #ifdef VGA_DEBUG default: unimplemented(); #endif } } xcurs++; // Do we need to wrap ? if(xcurs==nbcols) {xcurs=0; ycurs++; } } // Do we need to scroll ? if(ycurs==nbrows) { if(vga_modes[line].class==TEXT) { address=SCREEN_MEM_START(nbcols,nbrows,page)+(xcurs+(ycurs-1)*nbcols)*2; attr=read_byte(vga_modes[line].sstart,address+1); biosfn_scroll(0x01,attr,0,0,nbrows-1,nbcols-1,page,SCROLL_UP); } else { biosfn_scroll(0x01,0x00,0,0,nbrows-1,nbcols-1,page,SCROLL_UP); } ycurs-=1; } // Set the cursor for the page cursor=ycurs; cursor<<=8; cursor+=xcurs; biosfn_set_cursor_pos(page,cursor); } // -------------------------------------------------------------------------------------------- static void get_font_access(void) { outw(VGAREG_SEQU_ADDRESS, 0x0100); outw(VGAREG_SEQU_ADDRESS, 0x0402); outw(VGAREG_SEQU_ADDRESS, 0x0704); outw(VGAREG_SEQU_ADDRESS, 0x0300); outw(VGAREG_GRDC_ADDRESS, 0x0204); outw(VGAREG_GRDC_ADDRESS, 0x0005); outw(VGAREG_GRDC_ADDRESS, 0x0406); } static void release_font_access(void) { outw(VGAREG_SEQU_ADDRESS, 0x0100); outw(VGAREG_SEQU_ADDRESS, 0x0302); outw(VGAREG_SEQU_ADDRESS, 0x0304); outw(VGAREG_SEQU_ADDRESS, 0x0300); outw(VGAREG_GRDC_ADDRESS, (((0x0a | ((inb(VGAREG_READ_MISC_OUTPUT) & 0x01) << 2)) << 8) | 0x06)); outw(VGAREG_GRDC_ADDRESS, 0x0004); outw(VGAREG_GRDC_ADDRESS, 0x1005); } static void set_scan_lines(uint8_t lines) { uint16_t crtc_addr,cols,vde; uint8_t crtc_r9,ovl,rows; crtc_addr = read_word(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS); outb(crtc_addr, 0x09); crtc_r9 = inb(crtc_addr+1); crtc_r9 = (crtc_r9 & 0xe0) | (lines - 1); outb(crtc_addr+1, crtc_r9); if(lines==8) { biosfn_set_cursor_shape(0x06,0x07); } else { biosfn_set_cursor_shape(lines-4,lines-3); } write_word(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT, lines); outb(crtc_addr, 0x12); vde = inb(crtc_addr+1); outb(crtc_addr, 0x07); ovl = inb(crtc_addr+1); vde += (((ovl & 0x02) << 7) + ((ovl & 0x40) << 3) + 1); rows = vde / lines; write_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS, rows-1); cols = read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS); write_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE, rows * cols * 2); } static void biosfn_load_text_user_pat(uint8_t AL, uint16_t ES, uint16_t BP, uint16_t CX, uint16_t DX, uint8_t BL, uint8_t BH) { uint16_t blockaddr,dest,i,src; get_font_access(); blockaddr = ((BL & 0x03) << 14) + ((BL & 0x04) << 11); for(i=0;i=0x10) { set_scan_lines(BH); } } static void biosfn_load_text_8_14_pat(uint8_t AL, uint8_t BL) { uint16_t blockaddr,dest,i,src; get_font_access(); blockaddr = ((BL & 0x03) << 14) + ((BL & 0x04) << 11); for(i=0;i<0x100;i++) { src = i * 14; dest = blockaddr + i * 32; memcpyb(0xA000, dest, 0xC000, (uint16_t)vgafont14+src, 14); } release_font_access(); if(AL>=0x10) { set_scan_lines(14); } } static void biosfn_load_text_8_8_pat(uint8_t AL, uint8_t BL) { uint16_t blockaddr,dest,i,src; get_font_access(); blockaddr = ((BL & 0x03) << 14) + ((BL & 0x04) << 11); for(i=0;i<0x100;i++) { src = i * 8; dest = blockaddr + i * 32; memcpyb(0xA000, dest, 0xC000, (uint16_t)vgafont8+src, 8); } release_font_access(); if(AL>=0x10) { set_scan_lines(8); } } // -------------------------------------------------------------------------------------------- static void biosfn_load_text_8_16_pat(uint8_t AL, uint8_t BL) { uint16_t blockaddr,dest,i,src; get_font_access(); blockaddr = ((BL & 0x03) << 14) + ((BL & 0x04) << 11); for(i=0;i<0x100;i++) { src = i * 16; dest = blockaddr + i * 32; memcpyb(0xA000, dest, 0xC000, (uint16_t)vgafont16+src, 16); } release_font_access(); if(AL>=0x10) { set_scan_lines(16); } } static void biosfn_load_gfx_8_8_chars(uint16_t ES, uint16_t BP) { #ifdef VGA_DEBUG unimplemented(); #endif } static void biosfn_load_gfx_user_chars(uint16_t ES, uint16_t BP, uint16_t CX, uint8_t BL, uint8_t DL) { #ifdef VGA_DEBUG unimplemented(); #endif } static void biosfn_load_gfx_8_14_chars(uint8_t BL) { #ifdef VGA_DEBUG unimplemented(); #endif } static void biosfn_load_gfx_8_8_dd_chars(uint8_t BL) { #ifdef VGA_DEBUG unimplemented(); #endif } static void biosfn_load_gfx_8_16_chars(uint8_t BL) { #ifdef VGA_DEBUG unimplemented(); #endif } // -------------------------------------------------------------------------------------------- static void biosfn_alternate_prtsc(void) { #ifdef VGA_DEBUG unimplemented(); #endif } // -------------------------------------------------------------------------------------------- static void biosfn_switch_video_interface (AL,ES,DX) uint8_t AL;uint16_t ES;uint16_t DX; { #ifdef VGA_DEBUG unimplemented(); #endif } static void biosfn_enable_video_refresh_control(uint8_t AL) { #ifdef VGA_DEBUG unimplemented(); #endif } // -------------------------------------------------------------------------------------------- static void biosfn_write_string(uint8_t flag, uint8_t page, uint8_t attr, uint16_t count, uint8_t row, uint8_t col, uint16_t seg, uint16_t offset) { uint16_t newcurs,oldcurs,dummy; uint8_t car; // Read curs info for the page vga_get_cursor_pos(page,&dummy,&oldcurs); // if row=0xff special case : use current cursor position if(row==0xff) {col=oldcurs&0x00ff; row=(oldcurs&0xff00)>>8; } newcurs=row; newcurs<<=8; newcurs+=col; biosfn_set_cursor_pos(page,newcurs); while(count--!=0) { car=read_byte(seg,offset++); if((flag&0x02)!=0) attr=read_byte(seg,offset++); biosfn_write_teletype(car,page,attr,WITH_ATTR); } // Set back curs pos if((flag&0x01)==0) biosfn_set_cursor_pos(page,oldcurs); } // -------------------------------------------------------------------------------------------- static void biosfn_read_state_info(uint16_t BX, uint16_t ES, uint16_t DI) { uint16_t pg_sz; uint16_t scans; uint8_t mode; uint8_t mctl; uint8_t temp; mode = read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE); pg_sz = read_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE); // Address of static functionality table write_dword(ES,DI+0x00, (uint32_t)(void __far *)static_functionality); // A lot is a straight copy from the BDA. Note that the number // of character rows in the BDA is zero-based but one-based in // the dynamic state area memcpyb(ES,DI+0x04,BIOSMEM_SEG,BIOSMEM_CURRENT_MODE,30); write_byte(ES,DI+0x22,read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1); memcpyb(ES,DI+0x23,BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT,2); write_byte(ES,DI+0x25,read_byte(BIOSMEM_SEG,BIOSMEM_DCC_INDEX)); write_byte(ES,DI+0x26,0); // Alternate display code write_word(ES,DI+0x27,16); // Number of colors write_byte(ES,DI+0x29,8); // Number of pages write_byte(ES,DI+0x2a,2); // Vertical resolution specifier write_byte(ES,DI+0x2b,0); // Primary font block write_byte(ES,DI+0x2c,0); // Secondary font block write_byte(ES,DI+0x2d,0x21); write_byte(ES,DI+0x31,3); // 256K video RAM write_byte(ES,DI+0x32,0); // Save pointer state information mctl = read_byte(BIOSMEM_SEG,BIOSMEM_MODESET_CTL); /* Extract and write the vertical resolution specifier bits. */ scans = ((mctl & 0x80) >> 6) | ((mctl & 0x10) >> 4); switch (scans) { case 0: temp = 1; break; /* 350 lines */ case 1: temp = 2; break; /* 400 lines */ default: case 2: temp = 0; break; /* 200 lines */ } write_byte(ES,DI+0x2a,temp); /* Patch up the data for graphics modes. */ if (mode >= 0x0E && mode <= 0x12) { if (pg_sz) write_byte(ES,DI+0x29,16384/(pg_sz >> 2)); } else if (mode == 0x13) { write_byte(ES,DI+0x29,1); /* Just one page due to chaining */ write_word(ES,DI+0x27,256); /* But 256!! colors!!! */ } else if (mode >= 4 && mode <= 6) { /* CGA modes. */ if (pg_sz) write_byte(ES,DI+0x29,16384/pg_sz); write_word(ES,DI+0x27,4); } if (mode == 6 || mode == 0x11) write_word(ES,DI+0x27,2); /* 2-color modes. */ if ((mode >= 4) && (mode != 7)) { write_byte(ES,DI+0x2d,0x01); scans = (read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)+1) * read_byte(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT); switch (scans) { case 200: temp = 0; break; case 350: temp = 1; break; case 400: temp = 2; break; default: case 480: temp = 3; break; } write_byte(ES,DI+0x2a,temp); } memsetb(ES,DI+0x33,0,13); } // -------------------------------------------------------------------------------------------- uint16_t biosfn_read_video_state_size2(uint16_t state) { uint16_t size; size = 0; if (state & 1) size += 0x46; if (state & 2) size += (5 + 8 + 5) * 2 + 6; if (state & 4) size += 3 + 256 * 3 + 1; return size; } static void vga_get_video_state_size(uint16_t state, uint16_t STACK_BASED *size) { /* The size is the number of 64-byte blocks required to save the state. */ *size = (biosfn_read_video_state_size2(state) + 63) / 64; } uint16_t biosfn_save_video_state(uint16_t CX, uint16_t ES, uint16_t BX) { uint16_t i, crtc_addr, ar_index; crtc_addr = read_word(BIOSMEM_SEG, BIOSMEM_CRTC_ADDRESS); if (CX & 1) { write_byte(ES, BX, inb(VGAREG_SEQU_ADDRESS)); BX++; write_byte(ES, BX, inb(crtc_addr)); BX++; write_byte(ES, BX, inb(VGAREG_GRDC_ADDRESS)); BX++; inb(VGAREG_ACTL_RESET); ar_index = inb(VGAREG_ACTL_ADDRESS); write_byte(ES, BX, ar_index); BX++; write_byte(ES, BX, inb(VGAREG_READ_FEATURE_CTL)); BX++; for(i=1;i<=4;i++){ outb(VGAREG_SEQU_ADDRESS, i); write_byte(ES, BX, inb(VGAREG_SEQU_DATA)); BX++; } outb(VGAREG_SEQU_ADDRESS, 0); write_byte(ES, BX, inb(VGAREG_SEQU_DATA)); BX++; for(i=0;i<=0x18;i++) { outb(crtc_addr,i); write_byte(ES, BX, inb(crtc_addr+1)); BX++; } for(i=0;i<=0x13;i++) { inb(VGAREG_ACTL_RESET); outb(VGAREG_ACTL_ADDRESS, i | (ar_index & 0x20)); write_byte(ES, BX, inb(VGAREG_ACTL_READ_DATA)); BX++; } inb(VGAREG_ACTL_RESET); for(i=0;i<=8;i++) { outb(VGAREG_GRDC_ADDRESS,i); write_byte(ES, BX, inb(VGAREG_GRDC_DATA)); BX++; } write_word(ES, BX, crtc_addr); BX+= 2; /* XXX: read plane latches */ write_byte(ES, BX, 0); BX++; write_byte(ES, BX, 0); BX++; write_byte(ES, BX, 0); BX++; write_byte(ES, BX, 0); BX++; } if (CX & 2) { write_byte(ES, BX, read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE)); BX++; write_word(ES, BX, read_word(BIOSMEM_SEG,BIOSMEM_NB_COLS)); BX += 2; write_word(ES, BX, read_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE)); BX += 2; write_word(ES, BX, read_word(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS)); BX += 2; write_byte(ES, BX, read_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS)); BX++; write_word(ES, BX, read_word(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT)); BX += 2; write_byte(ES, BX, read_byte(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL)); BX++; write_byte(ES, BX, read_byte(BIOSMEM_SEG,BIOSMEM_SWITCHES)); BX++; write_byte(ES, BX, read_byte(BIOSMEM_SEG,BIOSMEM_MODESET_CTL)); BX++; write_word(ES, BX, read_word(BIOSMEM_SEG,BIOSMEM_CURSOR_TYPE)); BX += 2; for(i=0;i<8;i++) { write_word(ES, BX, read_word(BIOSMEM_SEG, BIOSMEM_CURSOR_POS+2*i)); BX += 2; } write_word(ES, BX, read_word(BIOSMEM_SEG,BIOSMEM_CURRENT_START)); BX += 2; write_byte(ES, BX, read_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE)); BX++; /* current font */ write_word(ES, BX, read_word(0, 0x1f * 4)); BX += 2; write_word(ES, BX, read_word(0, 0x1f * 4 + 2)); BX += 2; write_word(ES, BX, read_word(0, 0x43 * 4)); BX += 2; write_word(ES, BX, read_word(0, 0x43 * 4 + 2)); BX += 2; } if (CX & 4) { /* XXX: check this */ write_byte(ES, BX, inb(VGAREG_DAC_STATE)); BX++; /* read/write mode dac */ write_byte(ES, BX, inb(VGAREG_DAC_WRITE_ADDRESS)); BX++; /* pix address */ write_byte(ES, BX, inb(VGAREG_PEL_MASK)); BX++; // Set the whole dac always, from 0 outb(VGAREG_DAC_WRITE_ADDRESS,0x00); for(i=0;i<256*3;i++) { write_byte(ES, BX, inb(VGAREG_DAC_DATA)); BX++; } write_byte(ES, BX, 0); BX++; /* color select register */ } return BX; } uint16_t biosfn_restore_video_state(uint16_t CX, uint16_t ES, uint16_t BX) { uint16_t i, crtc_addr, v, addr1, ar_index; if (CX & 1) { // Reset Attribute Ctl flip-flop inb(VGAREG_ACTL_RESET); crtc_addr = read_word(ES, BX + 0x40); addr1 = BX; BX += 5; for(i=1;i<=4;i++){ outb(VGAREG_SEQU_ADDRESS, i); outb(VGAREG_SEQU_DATA, read_byte(ES, BX)); BX++; } outb(VGAREG_SEQU_ADDRESS, 0); outb(VGAREG_SEQU_DATA, read_byte(ES, BX)); BX++; // Disable CRTC write protection outw(crtc_addr,0x0011); // Set CRTC regs for(i=0;i<=0x18;i++) { if (i != 0x11) { outb(crtc_addr,i); outb(crtc_addr+1, read_byte(ES, BX)); } BX++; } // select crtc base address v = inb(VGAREG_READ_MISC_OUTPUT) & ~0x01; if (crtc_addr == 0x3d4) v |= 0x01; outb(VGAREG_WRITE_MISC_OUTPUT, v); // enable write protection if needed outb(crtc_addr, 0x11); outb(crtc_addr+1, read_byte(ES, BX - 0x18 + 0x11)); // Set Attribute Ctl ar_index = read_byte(ES, addr1 + 0x03); inb(VGAREG_ACTL_RESET); for(i=0;i<=0x13;i++) { outb(VGAREG_ACTL_ADDRESS, i | (ar_index & 0x20)); outb(VGAREG_ACTL_WRITE_DATA, read_byte(ES, BX)); BX++; } outb(VGAREG_ACTL_ADDRESS, ar_index); inb(VGAREG_ACTL_RESET); for(i=0;i<=8;i++) { outb(VGAREG_GRDC_ADDRESS,i); outb(VGAREG_GRDC_DATA, read_byte(ES, BX)); BX++; } BX += 2; /* crtc_addr */ BX += 4; /* plane latches */ outb(VGAREG_SEQU_ADDRESS, read_byte(ES, addr1)); addr1++; outb(crtc_addr, read_byte(ES, addr1)); addr1++; outb(VGAREG_GRDC_ADDRESS, read_byte(ES, addr1)); addr1++; addr1++; outb(crtc_addr - 0x4 + 0xa, read_byte(ES, addr1)); addr1++; } if (CX & 2) { write_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_MODE, read_byte(ES, BX)); BX++; write_word(BIOSMEM_SEG,BIOSMEM_NB_COLS, read_word(ES, BX)); BX += 2; write_word(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE, read_word(ES, BX)); BX += 2; write_word(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS, read_word(ES, BX)); BX += 2; write_byte(BIOSMEM_SEG,BIOSMEM_NB_ROWS, read_byte(ES, BX)); BX++; write_word(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT, read_word(ES, BX)); BX += 2; write_byte(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL, read_byte(ES, BX)); BX++; write_byte(BIOSMEM_SEG,BIOSMEM_SWITCHES, read_byte(ES, BX)); BX++; write_byte(BIOSMEM_SEG,BIOSMEM_MODESET_CTL, read_byte(ES, BX)); BX++; write_word(BIOSMEM_SEG,BIOSMEM_CURSOR_TYPE, read_word(ES, BX)); BX += 2; for(i=0;i<8;i++) { write_word(BIOSMEM_SEG, BIOSMEM_CURSOR_POS+2*i, read_word(ES, BX)); BX += 2; } write_word(BIOSMEM_SEG,BIOSMEM_CURRENT_START, read_word(ES, BX)); BX += 2; write_byte(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE, read_byte(ES, BX)); BX++; /* current font */ write_word(0, 0x1f * 4, read_word(ES, BX)); BX += 2; write_word(0, 0x1f * 4 + 2, read_word(ES, BX)); BX += 2; write_word(0, 0x43 * 4, read_word(ES, BX)); BX += 2; write_word(0, 0x43 * 4 + 2, read_word(ES, BX)); BX += 2; } if (CX & 4) { BX++; v = read_byte(ES, BX); BX++; outb(VGAREG_PEL_MASK, read_byte(ES, BX)); BX++; // Set the whole dac always, from 0 outb(VGAREG_DAC_WRITE_ADDRESS,0x00); for(i=0;i<256*3;i++) { outb(VGAREG_DAC_DATA, read_byte(ES, BX)); BX++; } BX++; outb(VGAREG_DAC_WRITE_ADDRESS, v); } return BX; } // ============================================================================================ // // Video Utils // // ============================================================================================ // -------------------------------------------------------------------------------------------- static uint8_t find_vga_entry(uint8_t mode) { uint8_t i,line=0xFF; for(i=0;i<=MODE_MAX;i++) if(vga_modes[i].svgamode==mode) {line=i; break; } return line; } /* =========================================================== */ /* * Misc Utils */ /* =========================================================== */ /* This function is used for planar VGA memory reads to defeat the * optimizer. We must read exactly one byte, otherwise the screen * may be corrupted. */ uint8_t xread_byte(uint16_t seg, uint16_t offset) { return( *(seg:>(uint8_t *)offset) ); } #ifdef VGA_DEBUG void __cdecl unimplemented() { printf("--> Unimplemented\n"); } void __cdecl unknown() { printf("--> Unknown int10\n"); } #undef VBE_PRINTF_PORT #define VBE_PRINTF_PORT 0x504 // -------------------------------------------------------------------------------------------- void __cdecl printf(char *s, ...) { char c; Boolean in_format; unsigned format_width, i; uint16_t arg, digit, nibble; uint16_t STACK_BASED *arg_ptr; arg_ptr = (uint16_t STACK_BASED *)&s; in_format = 0; format_width = 0; while (c = *s) { if (c == '%') { in_format = 1; format_width = 0; } else if (in_format) { if ((c >= '0') && (c <= '9')) { format_width = (format_width * 10) + (c - '0'); } else if (c == 'x') { arg_ptr++; // increment to next arg arg = *arg_ptr; if (format_width == 0) format_width = 4; i = 0; digit = format_width - 1; for (i = 0; i < format_width; i++) { nibble = (arg >> (4 * digit)) & 0x000f; if (nibble <= 9) outb(VBE_PRINTF_PORT, nibble + '0'); else outb(VBE_PRINTF_PORT, (nibble - 10) + 'A'); digit--; } in_format = 0; } //else if (c == 'd') { // in_format = 0; // } } else { outb(VBE_PRINTF_PORT, c); } ++s; } } #endif /// @todo rearrange, call only from VBE module? extern void vbe_biosfn_return_controller_information(uint16_t STACK_BASED *AX, uint16_t ES, uint16_t DI); extern void vbe_biosfn_return_mode_information(uint16_t STACK_BASED *AX, uint16_t CX, uint16_t ES, uint16_t DI); extern void vbe_biosfn_set_mode(uint16_t STACK_BASED *AX, uint16_t BX, uint16_t ES, uint16_t DI); extern void vbe_biosfn_save_restore_state(uint16_t STACK_BASED *AX, uint16_t CX, uint16_t DX, uint16_t ES, uint16_t STACK_BASED *BX); extern void vbe_biosfn_get_set_scanline_length(uint16_t STACK_BASED *AX, uint16_t STACK_BASED *BX, uint16_t STACK_BASED *CX, uint16_t STACK_BASED *DX); extern void private_biosfn_custom_mode(uint16_t STACK_BASED *AX, uint16_t STACK_BASED *BX, uint16_t STACK_BASED *CX, uint16_t STACK_BASED *DX); // -------------------------------------------------------------------------------------------- /* * int10 main dispatcher */ void __cdecl int10_func(uint16_t DI, uint16_t SI, uint16_t BP, uint16_t SP, uint16_t BX, uint16_t DX, uint16_t CX, uint16_t AX, uint16_t DS, uint16_t ES, uint16_t FLAGS) { // BIOS functions switch(GET_AH()) { case 0x00: biosfn_set_video_mode(GET_AL()); switch(GET_AL()&0x7F) {case 6: SET_AL(0x3F); break; case 0: case 1: case 2: case 3: case 4: case 5: case 7: SET_AL(0x30); break; default: SET_AL(0x20); } break; case 0x01: biosfn_set_cursor_shape(GET_CH(),GET_CL()); break; case 0x02: biosfn_set_cursor_pos(GET_BH(),DX); break; case 0x03: vga_get_cursor_pos(GET_BH(), &CX, &DX); break; case 0x04: // Read light pen pos (unimplemented) #ifdef VGA_DEBUG unimplemented(); #endif AX=0x00; BX=0x00; CX=0x00; DX=0x00; break; case 0x05: biosfn_set_active_page(GET_AL()); break; case 0x06: biosfn_scroll(GET_AL(),GET_BH(),GET_CH(),GET_CL(),GET_DH(),GET_DL(),0xFF,SCROLL_UP); break; case 0x07: biosfn_scroll(GET_AL(),GET_BH(),GET_CH(),GET_CL(),GET_DH(),GET_DL(),0xFF,SCROLL_DOWN); break; case 0x08: vga_read_char_attr(GET_BH(), &AX); break; case 0x09: biosfn_write_char_attr(GET_AL(),GET_BH(),GET_BL(),CX); break; case 0x0A: biosfn_write_char_only(GET_AL(),GET_BH(),GET_BL(),CX); break; case 0x0C: biosfn_write_pixel(GET_BH(),GET_AL(),CX,DX); break; case 0x0D: vga_read_pixel(GET_BH(), CX, DX, &AX); break; case 0x0E: // Ralf Brown Interrupt list is WRONG on bh(page) // We do output only on the current page ! #ifdef VGA_DEBUG printf("write_teletype %02x\n", GET_AL()); #endif biosfn_write_teletype(GET_AL(),0xff,GET_BL(),NO_ATTR); break; case 0x10: // All other functions of group AH=0x10 rewritten in assembler biosfn_perform_gray_scale_summing(BX,CX); break; case 0x11: switch(GET_AL()) { case 0x00: case 0x10: biosfn_load_text_user_pat(GET_AL(),ES,BP,CX,DX,GET_BL(),GET_BH()); break; case 0x01: case 0x11: biosfn_load_text_8_14_pat(GET_AL(),GET_BL()); break; case 0x02: case 0x12: biosfn_load_text_8_8_pat(GET_AL(),GET_BL()); break; case 0x04: case 0x14: biosfn_load_text_8_16_pat(GET_AL(),GET_BL()); break; case 0x20: biosfn_load_gfx_8_8_chars(ES,BP); break; case 0x21: biosfn_load_gfx_user_chars(ES,BP,CX,GET_BL(),GET_DL()); break; case 0x22: biosfn_load_gfx_8_14_chars(GET_BL()); break; case 0x23: biosfn_load_gfx_8_8_dd_chars(GET_BL()); break; case 0x24: biosfn_load_gfx_8_16_chars(GET_BL()); break; case 0x30: vga_get_font_info(GET_BH(), &ES, &BP, &CX, &DX); break; #ifdef VGA_DEBUG default: unknown(); #endif } break; case 0x12: switch(GET_BL()) { case 0x20: biosfn_alternate_prtsc(); break; case 0x34: /* CGA text cursor emulation control. */ if (GET_AL() < 2) { write_byte(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL, (xread_byte(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL) & ~1) | GET_AL()); SET_AL(0x12); } else SET_AL(0); /* Invalid argument. */ break; case 0x35: biosfn_switch_video_interface(GET_AL(),ES,DX); SET_AL(0x12); break; case 0x36: biosfn_enable_video_refresh_control(GET_AL()); SET_AL(0x12); break; #ifdef VGA_DEBUG default: unknown(); #endif } break; case 0x13: biosfn_write_string(GET_AL(),GET_BH(),GET_BL(),CX,GET_DH(),GET_DL(),ES,BP); break; case 0x1B: biosfn_read_state_info(BX,ES,DI); SET_AL(0x1B); break; case 0x1C: switch(GET_AL()) { case 0x00: vga_get_video_state_size(CX,&BX); break; case 0x01: biosfn_save_video_state(CX,ES,BX); break; case 0x02: biosfn_restore_video_state(CX,ES,BX); break; #ifdef VGA_DEBUG default: unknown(); #endif } SET_AL(0x1C); break; #ifdef VBE case 0x4f: if (vbe_has_vbe_display()) { switch(GET_AL()) { case 0x00: vbe_biosfn_return_controller_information(&AX,ES,DI); break; case 0x01: vbe_biosfn_return_mode_information(&AX,CX,ES,DI); break; case 0x02: vbe_biosfn_set_mode(&AX,BX,ES,DI); break; case 0x04: vbe_biosfn_save_restore_state(&AX, CX, DX, ES, &BX); break; case 0x06: vbe_biosfn_get_set_scanline_length(&AX, &BX, &CX, &DX); break; case 0x09: //FIXME #ifdef VGA_DEBUG unimplemented(); #endif // function failed AX=0x100; break; case 0x0A: //FIXME #ifdef VGA_DEBUG unimplemented(); #endif // function failed AX=0x100; break; default: #ifdef VGA_DEBUG unknown(); #endif // function failed AX=0x100; } } else { // No VBE display AX=0x0100; } break; case 0x56: if (vbe_has_vbe_display()) { switch(GET_AL()) { case 0x42: private_biosfn_custom_mode(&AX,&BX,&CX,&DX); break; default: AX=0x0100; break; } } else { // No VBE display AX=0x0100; } break; #endif #ifdef VGA_DEBUG default: unknown(); #endif } } #ifdef VBE //#include "vbe.c" #endif #ifdef CIRRUS #include "clext.c" #endif // --------------------------------------------------------------------------------------------