/* * vim:tabstop=4 * vim:noexpandtab * * Bochs VBE / QEMU vga=std Graphics Driver */ #include #include #define PREFERRED_X 1024 #define PREFERRED_Y 768 #define PREFERRED_B 32 uint16_t bochs_resolution_x = 0; uint16_t bochs_resolution_y = 0; uint16_t bochs_resolution_b = 0; uint32_t * BOCHS_VID_MEMORY = (uint32_t *)0xE0000000; #define TERM_WIDTH 128 #define TERM_HEIGHT 64 static short csr_x = 0; static short csr_y = 0; static uint8_t * term_buffer; static uint8_t current_fg = 7; static uint8_t current_bg = 0; void graphics_install_bochs() { outports(0x1CE, 0x00); uint16_t i = inports(0x1CF); if (i < 0xB0C0 || i > 0xB0C6) { kprintf("[bochs] You are not a Bochs VBE pseudo-card!\n"); kprintf("[bochs] 0x%x is totally wrong!\n", (unsigned int)i); return; } kprintf("[bochs] Successfully detected a Bochs VBE setup!\n"); kprintf("[bochs] You are using QEMU or Bochs and I love you.\n"); outports(0x1CF, 0xB0C4); i = inports(0x1CF); kprintf("[bochs] Enabling 1024x768x32 graphics mode!\n"); /* Disable VBE */ outports(0x1CE, 0x04); outports(0x1CF, 0x00); /* Set X resolution to 1024 */ outports(0x1CE, 0x01); outports(0x1CF, PREFERRED_X); /* Set Y resolution to 768 */ outports(0x1CE, 0x02); outports(0x1CF, PREFERRED_Y); /* Set bpp to 32 */ outports(0x1CE, 0x03); outports(0x1CF, PREFERRED_B); /* Re-enable VBE */ outports(0x1CE, 0x04); outports(0x1CF, 0x41); /* Herp derp */ uint32_t * herp = (uint32_t *)0xA0000; herp[0] = 0xA5ADFACE; uint16_t lfb_addr = pci_get_lfb_addr(0x1234); if (lfb_addr) { BOCHS_VID_MEMORY = (uint32_t *)((uint32_t)lfb_addr << 16); } else { /* Go find it */ for (uintptr_t x = 0xE0000000; x < 0xFFFFF000; x += 0x1000) { if (((uintptr_t *)x)[0] == 0xA5ADFACE) { BOCHS_VID_MEMORY = (uint32_t *)x; break; } } } bochs_resolution_x = PREFERRED_X; bochs_resolution_y = PREFERRED_Y; bochs_resolution_b = PREFERRED_B; /* Buffer contains characters, fg (of 256), bg (same), flags (one byte) */ term_buffer = (uint8_t *)malloc(sizeof(uint8_t) * 4 * TERM_WIDTH * TERM_HEIGHT); } static void bochs_set_point( uint16_t x, uint16_t y, uint32_t color ) { BOCHS_VID_MEMORY[(y * bochs_resolution_x + x)] = color; } void bochs_scroll() { __asm__ __volatile__ ("cli"); uint32_t size = sizeof(uint32_t) * bochs_resolution_x * (bochs_resolution_y - 12); memmove((void *)BOCHS_VID_MEMORY, (void *)((uintptr_t)BOCHS_VID_MEMORY + bochs_resolution_x * 12 * sizeof(uint32_t)), size); __asm__ __volatile__ ("sti"); } void bochs_draw_logo(char * filename) { /* This is slow and ineffecient, but it's also dead simple. */ if (!bochs_resolution_x) { return; } fs_node_t * file = kopen(filename,0); if (!file) { return; } char *bufferb = malloc(file->length); /* Read the boot logo */ size_t bytes_read = read_fs(file, 0, file->length, (uint8_t *)bufferb); uint16_t x = 0; /* -> 212 */ uint16_t y = 0; /* -> 68 */ /* Get the width / height of the image */ signed int *bufferi = (signed int *)((uintptr_t)bufferb + 2); uint32_t width = bufferi[4]; uint32_t height = bufferi[5]; uint32_t row_width = (24 * width + 31) / 32 * 4; /* Skip right to the important part */ size_t i = bufferi[2]; for (y = 0; y < height; ++y) { for (x = 0; x < width; ++x) { if (i > bytes_read) return; /* Extract the color */ uint32_t color = bufferb[i + 3 * x] + bufferb[i+1 + 3 * x] * 0x100 + bufferb[i+2 + 3 * x] * 0x10000; /* Set our point */ bochs_set_point((bochs_resolution_x - width) / 2 + x, (bochs_resolution_y - height) / 2 + (height - y), color); } i += row_width; } free(bufferb); } void bochs_fill_rect( uint16_t x, uint16_t y, uint16_t w, uint16_t h, uint32_t color ) { for (uint16_t i = y; i < h + y; ++i) { for (uint16_t j = x; j < w + x; ++j) { bochs_set_point(j,i,color); } } } void bochs_write_char( uint8_t val, uint16_t x, uint16_t y, uint32_t fg, uint32_t bg ) { uint8_t * c = number_font[val - 0x20]; __asm__ __volatile__ ("cli"); for (uint8_t i = 0; i < 12; ++i) { if (c[i] & 0x80) { bochs_set_point(x,y+i,fg); } else { bochs_set_point(x,y+i,bg); } if (c[i] & 0x40) { bochs_set_point(x+1,y+i,fg); } else { bochs_set_point(x+1,y+i,bg); } if (c[i] & 0x20) { bochs_set_point(x+2,y+i,fg); } else { bochs_set_point(x+2,y+i,bg); } if (c[i] & 0x10) { bochs_set_point(x+3,y+i,fg); } else { bochs_set_point(x+3,y+i,bg); } if (c[i] & 0x08) { bochs_set_point(x+4,y+i,fg); } else { bochs_set_point(x+4,y+i,bg); } if (c[i] & 0x04) { bochs_set_point(x+5,y+i,fg); } else { bochs_set_point(x+5,y+i,bg); } if (c[i] & 0x02) { bochs_set_point(x+6,y+i,fg); } else { bochs_set_point(x+6,y+i,bg); } if (c[i] & 0x01) { bochs_set_point(x+7,y+i,fg); } else { bochs_set_point(x+7,y+i,bg); } } __asm__ __volatile__ ("sti"); } uint32_t bochs_colors[16] = { /* black */ 0x000000, /* red */ 0xcc0000, /* green */ 0x3e9a06, /* brown */ 0xc4a000, /* navy */ 0x3465a4, /* purple */ 0x75507b, /* d cyan */ 0x06989a, /* gray */ 0xeeeeec, /* d gray */ 0x555753, /* red */ 0xef2929, /* green */ 0x8ae234, /* yellow */ 0xfce94f, /* blue */ 0x729fcf, /* magenta*/ 0xad7fa8, /* cyan */ 0x34e2e2, /* white */ 0xFFFFFF }; static void cell_set(uint16_t x, uint16_t y, uint8_t c, uint8_t fg, uint8_t bg) { uint8_t * cell = (uint8_t *)((uintptr_t)term_buffer + (y * TERM_WIDTH + x) * 4); cell[0] = c; cell[1] = fg; cell[2] = bg; } static uint16_t cell_ch(uint16_t x, uint16_t y) { uint8_t * cell = (uint8_t *)((uintptr_t)term_buffer + (y * TERM_WIDTH + x) * 4); return cell[0]; } static uint16_t cell_fg(uint16_t x, uint16_t y) { uint8_t * cell = (uint8_t *)((uintptr_t)term_buffer + (y * TERM_WIDTH + x) * 4); return cell[1]; } static uint16_t cell_bg(uint16_t x, uint16_t y) { uint8_t * cell = (uint8_t *)((uintptr_t)term_buffer + (y * TERM_WIDTH + x) * 4); return cell[2]; } static void cell_redraw(uint16_t x, uint16_t y) { uint8_t * cell = (uint8_t *)((uintptr_t)term_buffer + (y * TERM_WIDTH + x) * 4); bochs_write_char(cell[0], x * 8, y * 12, bochs_colors[cell[1]], bochs_colors[cell[2]]); } void bochs_redraw() { for (uint16_t y = 0; y < TERM_HEIGHT; ++y) { for (uint16_t x = 0; x < TERM_WIDTH; ++x) { cell_redraw(x,y); } } } void bochs_term_scroll() { /* Oh dear */ bochs_scroll(); for (uint16_t y = 0; y < TERM_HEIGHT - 1; ++y) { for (uint16_t x = 0; x < TERM_WIDTH; ++x) { cell_set(x,y,cell_ch(x,y+1),cell_fg(x,y+1),cell_bg(x,y+1)); } } for (uint16_t x = 0; x < TERM_WIDTH; ++x) { cell_set(x, TERM_HEIGHT-1,' ',current_fg, current_bg); cell_redraw(x, TERM_HEIGHT-1); } //bochs_redraw(); } void bochs_term_clear() { /* Oh dear */ csr_x = 0; csr_y = 0; for (uint16_t y = 0; y < TERM_HEIGHT; ++y) { for (uint16_t x = 0; x < TERM_WIDTH; ++x) { cell_set(x,y,' ',current_fg, current_bg); } } bochs_redraw(); } void bochs_set_colors(uint8_t fg, uint8_t bg) { current_fg = fg; current_bg = bg; } void bochs_reset_colors() { current_fg = 7; current_bg = 0; } void draw_cursor() { for (uint32_t x = 0; x < 8; ++x) { bochs_set_point(csr_x * 8 + x, csr_y * 12 + 11, bochs_colors[current_fg]); } } void bochs_write(char c) { __asm__ __volatile__ ("cli"); cell_redraw(csr_x, csr_y); if (c == '\n') { for (uint16_t i = csr_x; i < TERM_WIDTH; ++i) { /* I like this behaviour */ cell_set(i, csr_y, ' ',current_fg, current_bg); cell_redraw(i, csr_y); } csr_x = 0; ++csr_y; } else if (c == '\b') { --csr_x; cell_set(csr_x, csr_y, ' ',current_fg, current_bg); cell_redraw(csr_x, csr_y); } else { cell_set(csr_x,csr_y, c, current_fg, current_bg); cell_redraw(csr_x,csr_y); csr_x++; } if (csr_x == TERM_WIDTH) { csr_x = 0; ++csr_y; } if (csr_y == TERM_HEIGHT) { bochs_term_scroll(); csr_y = TERM_HEIGHT - 1; } draw_cursor(); __asm__ __volatile__ ("sti"); }