/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2000,2001,2002,2003,2004,2005,2007,2008,2009 Free Software Foundation, Inc. * * GRUB 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 3 of the License, or * (at your option) any later version. * * GRUB 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 GRUB. If not, see . */ // TODO: Deprecated and broken. Needs to be converted to Video Driver! #include #include #include #include #include #include #include #include #define DEBUG_VGA 0 #define VGA_WIDTH 640 #define VGA_HEIGHT 350 #define CHAR_WIDTH 8 #define CHAR_HEIGHT 16 #define TEXT_WIDTH (VGA_WIDTH / CHAR_WIDTH) #define TEXT_HEIGHT (VGA_HEIGHT / CHAR_HEIGHT) #define VGA_MEM ((grub_uint8_t *) GRUB_MEMORY_MACHINE_VGA_ADDR) #define PAGE_OFFSET(x) ((x) * (VGA_WIDTH * VGA_HEIGHT / 8)) #define DEFAULT_FG_COLOR 0xa #define DEFAULT_BG_COLOR 0x0 struct colored_char { /* An Unicode codepoint. */ grub_uint32_t code; /* Color indexes. */ unsigned char fg_color; unsigned char bg_color; /* The width of this character minus one. */ unsigned char width; /* The column index of this character. */ unsigned char index; }; static unsigned char text_mode; static unsigned xpos, ypos; static int cursor_state; static unsigned char fg_color, bg_color; static struct colored_char text_buf[TEXT_WIDTH * TEXT_HEIGHT]; static unsigned char saved_map_mask; static int page = 0; static grub_font_t font = 0; #define SEQUENCER_ADDR_PORT 0x3C4 #define SEQUENCER_DATA_PORT 0x3C5 #define MAP_MASK_REGISTER 0x02 #define CRTC_ADDR_PORT 0x3D4 #define CRTC_DATA_PORT 0x3D5 #define START_ADDR_HIGH_REGISTER 0x0C #define START_ADDR_LOW_REGISTER 0x0D #define GRAPHICS_ADDR_PORT 0x3CE #define GRAPHICS_DATA_PORT 0x3CF #define READ_MAP_REGISTER 0x04 #define INPUT_STATUS1_REGISTER 0x3DA #define INPUT_STATUS1_VERTR_BIT 0x08 static inline void wait_vretrace (void) { /* Wait until there is a vertical retrace. */ while (! (grub_inb (INPUT_STATUS1_REGISTER) & INPUT_STATUS1_VERTR_BIT)); } /* Get Map Mask Register. */ static unsigned char get_map_mask (void) { unsigned char old_addr; unsigned char old_data; old_addr = grub_inb (SEQUENCER_ADDR_PORT); grub_outb (MAP_MASK_REGISTER, SEQUENCER_ADDR_PORT); old_data = grub_inb (SEQUENCER_DATA_PORT); grub_outb (old_addr, SEQUENCER_ADDR_PORT); return old_data; } /* Set Map Mask Register. */ static void set_map_mask (unsigned char mask) { unsigned char old_addr; old_addr = grub_inb (SEQUENCER_ADDR_PORT); grub_outb (MAP_MASK_REGISTER, SEQUENCER_ADDR_PORT); grub_outb (mask, SEQUENCER_DATA_PORT); grub_outb (old_addr, SEQUENCER_ADDR_PORT); } /* Set Read Map Register. */ static void set_read_map (unsigned char map) { unsigned char old_addr; old_addr = grub_inb (GRAPHICS_ADDR_PORT); grub_outb (READ_MAP_REGISTER, GRAPHICS_ADDR_PORT); grub_outb (map, GRAPHICS_DATA_PORT); grub_outb (old_addr, GRAPHICS_ADDR_PORT); } /* Set start address. */ static void set_start_address (unsigned int start) { unsigned char old_addr; old_addr = grub_inb (CRTC_ADDR_PORT); grub_outb (START_ADDR_LOW_REGISTER, CRTC_ADDR_PORT); grub_outb (start & 0xFF, CRTC_DATA_PORT); grub_outb (START_ADDR_HIGH_REGISTER, CRTC_ADDR_PORT); grub_outb (start >> 8, CRTC_DATA_PORT); grub_outb (old_addr, CRTC_ADDR_PORT); } static grub_err_t grub_vga_mod_init (void) { text_mode = grub_vga_set_mode (0x10); cursor_state = 1; fg_color = DEFAULT_FG_COLOR; bg_color = DEFAULT_BG_COLOR; saved_map_mask = get_map_mask (); set_map_mask (0x0f); set_start_address (PAGE_OFFSET (page)); font = grub_font_get (""); /* Choose any font, for now. */ if (!font) return grub_error (GRUB_ERR_BAD_FONT, "no font loaded"); return GRUB_ERR_NONE; } static grub_err_t grub_vga_mod_fini (void) { set_map_mask (saved_map_mask); grub_vga_set_mode (text_mode); return GRUB_ERR_NONE; } static int check_vga_mem (void *p) { return (p >= (void *) (VGA_MEM + PAGE_OFFSET (page)) && p <= (void *) (VGA_MEM + PAGE_OFFSET (page) + VGA_WIDTH * VGA_HEIGHT / 8)); } static void write_char (void) { struct colored_char *p = text_buf + xpos + ypos * TEXT_WIDTH; struct grub_font_glyph *glyph; unsigned char *mem_base; unsigned plane; mem_base = (VGA_MEM + xpos + ypos * CHAR_HEIGHT * TEXT_WIDTH + PAGE_OFFSET (page)) - p->index; p -= p->index; /* Get glyph for character. */ glyph = grub_font_get_glyph (font, p->code); for (plane = 0x01; plane <= 0x08; plane <<= 1) { unsigned y; unsigned offset; unsigned char *mem; set_map_mask (plane); for (y = 0, offset = 0, mem = mem_base; y < CHAR_HEIGHT; y++, mem += TEXT_WIDTH) { /* TODO Re-implement glyph drawing for vga module. */ #if 0 unsigned i; unsigned char_width = 1; /* TODO Figure out wide characters. */ for (i = 0; i < char_width && offset < 32; i++) { unsigned char fg_mask, bg_mask; fg_mask = (p->fg_color & plane) ? glyph->bitmap[offset] : 0; bg_mask = (p->bg_color & plane) ? ~(glyph->bitmap[offset]) : 0; offset++; if (check_vga_mem (mem + i)) mem[i] = (fg_mask | bg_mask); } #endif /* 0 */ } } set_map_mask (0x0f); } static void write_cursor (void) { unsigned char *mem = (VGA_MEM + PAGE_OFFSET (page) + xpos + (ypos * CHAR_HEIGHT + CHAR_HEIGHT - 3) * TEXT_WIDTH); if (check_vga_mem (mem)) *mem = 0xff; mem += TEXT_WIDTH; if (check_vga_mem (mem)) *mem = 0xff; } static void scroll_up (void) { unsigned i; unsigned plane; /* Do all the work in the other page. */ grub_memmove (text_buf, text_buf + TEXT_WIDTH, sizeof (struct colored_char) * TEXT_WIDTH * (TEXT_HEIGHT - 1)); for (i = TEXT_WIDTH * (TEXT_HEIGHT - 1); i < TEXT_WIDTH * TEXT_HEIGHT; i++) { text_buf[i].code = ' '; text_buf[i].fg_color = 0; text_buf[i].bg_color = 0; text_buf[i].width = 0; text_buf[i].index = 0; } for (plane = 1; plane <= 4; plane++) { set_read_map (plane); set_map_mask (1 << plane); grub_memmove (VGA_MEM + PAGE_OFFSET (1 - page), VGA_MEM + PAGE_OFFSET (page) + VGA_WIDTH * CHAR_HEIGHT / 8, VGA_WIDTH * (VGA_HEIGHT - CHAR_HEIGHT) / 8); } set_map_mask (0x0f); grub_memset (VGA_MEM + PAGE_OFFSET (1 - page) + VGA_WIDTH * (VGA_HEIGHT - CHAR_HEIGHT) / 8, 0, VGA_WIDTH * CHAR_HEIGHT / 8); /* Activate the other page. */ page = 1 - page; wait_vretrace (); set_start_address (PAGE_OFFSET (page)); } static void grub_vga_putchar (const struct grub_unicode_glyph *c) { #if DEBUG_VGA static int show = 1; #endif if (c->base == '\a') /* FIXME */ return; if (c->base == '\b' || c->base == '\n' || c->base == '\r') { /* Erase current cursor, if any. */ if (cursor_state) write_char (); switch (c->base) { case '\b': if (xpos > 0) xpos--; break; case '\n': if (ypos >= TEXT_HEIGHT - 1) scroll_up (); else ypos++; break; case '\r': xpos = 0; break; } if (cursor_state) write_cursor (); } else { struct grub_font_glyph *glyph; struct colored_char *p; unsigned char_width = 1; glyph = grub_font_get_glyph(font, c->base); if (xpos + char_width > TEXT_WIDTH) { xpos = 0; if (ypos >= TEXT_HEIGHT - 1) scroll_up (); else ypos++; } p = text_buf + xpos + ypos * TEXT_WIDTH; p->code = c->base; p->fg_color = fg_color; p->bg_color = bg_color; p->width = char_width - 1; p->index = 0; if (char_width > 1) { unsigned i; for (i = 1; i < char_width; i++) { p[i].code = ' '; p[i].width = char_width - 1; p[i].index = i; } } write_char (); xpos += char_width; if (xpos >= TEXT_WIDTH) { xpos = 0; if (ypos >= TEXT_HEIGHT - 1) scroll_up (); else ypos++; } if (cursor_state) write_cursor (); } #if DEBUG_VGA if (show) { grub_uint16_t pos = grub_getxy (); show = 0; grub_gotoxy (0, 0); grub_printf ("[%u:%u]", (unsigned) (pos >> 8), (unsigned) (pos & 0xff)); grub_gotoxy (pos >> 8, pos & 0xff); show = 1; } #endif } static grub_ssize_t grub_vga_getcharwidth (const struct grub_unicode_glyph *c) { #if 0 struct grub_font_glyph glyph; glyph = grub_font_get_glyph (c->base); return glyph.char_width; #else (void) c; /* Prevent warning. */ return 1; /* TODO Fix wide characters? */ #endif } static grub_uint16_t grub_vga_getwh (void) { return (TEXT_WIDTH << 8) | TEXT_HEIGHT; } static grub_uint16_t grub_vga_getxy (void) { return ((xpos << 8) | ypos); } static void grub_vga_gotoxy (grub_uint8_t x, grub_uint8_t y) { if (x >= TEXT_WIDTH || y >= TEXT_HEIGHT) { grub_error (GRUB_ERR_OUT_OF_RANGE, "invalid point (%u,%u)", (unsigned) x, (unsigned) y); return; } if (cursor_state) write_char (); xpos = x; ypos = y; if (cursor_state) write_cursor (); } static void grub_vga_cls (void) { unsigned i; wait_vretrace (); for (i = 0; i < TEXT_WIDTH * TEXT_HEIGHT; i++) { text_buf[i].code = ' '; text_buf[i].fg_color = 0; text_buf[i].bg_color = 0; text_buf[i].width = 0; text_buf[i].index = 0; } grub_memset (VGA_MEM + PAGE_OFFSET (page), 0, VGA_WIDTH * VGA_HEIGHT / 8); xpos = ypos = 0; } static void grub_vga_setcolorstate (grub_term_color_state state) { switch (state) { case GRUB_TERM_COLOR_STANDARD: case GRUB_TERM_COLOR_NORMAL: fg_color = DEFAULT_FG_COLOR; bg_color = DEFAULT_BG_COLOR; break; case GRUB_TERM_COLOR_HIGHLIGHT: fg_color = DEFAULT_BG_COLOR; bg_color = DEFAULT_FG_COLOR; break; default: break; } } static void grub_vga_setcursor (int on) { if (cursor_state != on) { if (cursor_state) write_char (); else write_cursor (); cursor_state = on; } } static struct grub_term_output grub_vga_term = { .name = "vga", .init = grub_vga_mod_init, .fini = grub_vga_mod_fini, .putchar = grub_vga_putchar, .getcharwidth = grub_vga_getcharwidth, .getwh = grub_vga_getwh, .getxy = grub_vga_getxy, .gotoxy = grub_vga_gotoxy, .cls = grub_vga_cls, .setcolorstate = grub_vga_setcolorstate, .setcursor = grub_vga_setcursor, .flags = GRUB_TERM_CODE_TYPE_VISUAL_GLYPHS, }; GRUB_MOD_INIT(vga) { grub_term_register_output ("vga", &grub_vga_term); } GRUB_MOD_FINI(vga) { grub_term_unregister_output (&grub_vga_term); }