/* List the available VESA graphics and text modes. This program is in the public domain. */ #include #include #include #include #include #include #include #include "lrmi.h" #include "vbe.h" struct { struct vbe_info_block *info; struct vbe_mode_info_block *mode; } vbe; int main(int argc, char *argv[]) { struct LRMI_regs r; int mode; if((argc!=2)||((mode=atoi(argv[1]))==0)){ printf("usage: vbemodeinfo \n" "where is a vesa mode numder.\n" "use vbetest to list available modes\n\n"); return 0; }; if (!LRMI_init()) return 1; vbe.info = LRMI_alloc_real(sizeof(struct vbe_info_block) + sizeof(struct vbe_mode_info_block)); if (vbe.info == NULL) { fprintf(stderr, "Can't alloc real mode memory\n"); return 1; } vbe.mode = (struct vbe_mode_info_block *)(vbe.info + 1); /* Allow read/write to all IO ports */ ioperm(0, 0x400 , 1); iopl(3); memset(&r, 0, sizeof(r)); r.eax = 0x4f00; r.es = (unsigned int)vbe.info >> 4; r.edi = 0; memcpy(vbe.info->vbe_signature, "VBE2", 4); if (!LRMI_int(0x10, &r)) { fprintf(stderr, "Can't get VESA info (vm86 failure)\n"); return 1; } if ((r.eax & 0xffff) != 0x4f || strncmp(vbe.info->vbe_signature, "VESA", 4) != 0) { fprintf(stderr, "No VESA bios\n"); return 1; } printf("VBE Version %x.%x\n", (int)(vbe.info->vbe_version >> 8) & 0xff, (int)vbe.info->vbe_version & 0xff); printf("%s\n", (char *)(vbe.info->oem_string_seg * 16 + vbe.info->oem_string_off)); memset(&r, 0, sizeof(r)); r.eax = 0x4f01; r.ecx = mode; r.es = (unsigned int)vbe.mode >> 4; r.edi = (unsigned int)vbe.mode & 0xf; if (!LRMI_int(0x10, &r)) { fprintf(stderr, "Can't get mode info (vm86 failure)\n"); return 1; } printf("mode %i\n",mode); printf ("mode_attributes = %i\n", vbe.mode->mode_attributes); printf ("win_a_attributes = %i\n", vbe.mode->win_a_attributes); printf ("win_b_attributes = %i\n", vbe.mode->win_b_attributes); printf ("win_granularity = %i\n", vbe.mode->win_granularity); printf ("win_size = %i\n", vbe.mode->win_size); printf ("win_a_segment = %i\n", vbe.mode->win_a_segment); printf ("win_b_segment = %i\n", vbe.mode->win_b_segment); printf ("win_func_ptr_off = %i\n", vbe.mode->win_func_ptr_off); printf ("win_func_ptr_seg = %i\n", vbe.mode->win_func_ptr_seg); printf ("bytes_per_scanline = %i\n", vbe.mode->bytes_per_scanline); printf ("x_resolution = %i\n", vbe.mode->x_resolution); printf ("y_resolution = %i\n", vbe.mode->y_resolution); printf ("x_char_size = %i\n", vbe.mode->x_char_size); printf ("y_char_size = %i\n", vbe.mode->y_char_size); printf ("number_of_planes = %i\n", vbe.mode->number_of_planes); printf ("bits_per_pixel = %i\n", vbe.mode->bits_per_pixel); printf ("number_of_banks = %i\n", vbe.mode->number_of_banks); printf ("memory_model = %i\n", vbe.mode->memory_model); printf ("bank_size = %i\n", vbe.mode->bank_size); printf ("number_of_image_pages = %i\n", vbe.mode->number_of_image_pages); printf ("res1 = %i\n", vbe.mode->res1); printf ("red_mask_size = %i\n", vbe.mode->red_mask_size); printf ("red_field_position = %i\n", vbe.mode->red_field_position); printf ("green_mask_size = %i\n", vbe.mode->green_mask_size); printf ("green_field_position = %i\n", vbe.mode->green_field_position); printf ("blue_mask_size = %i\n", vbe.mode->blue_mask_size); printf ("blue_field_position = %i\n", vbe.mode->blue_field_position); printf ("rsvd_mask_size = %i\n", vbe.mode->rsvd_mask_size); printf ("rsvd_field_position = %i\n", vbe.mode->rsvd_field_position); printf ("direct_color_mode_info = %i\n", vbe.mode->direct_color_mode_info); printf ("phys_base_ptr = %i\n", vbe.mode->phys_base_ptr); printf ("offscreen_mem_offset = %i\n", vbe.mode->offscreen_mem_offset); printf ("offscreen_mem_size = %i\n", vbe.mode->offscreen_mem_size); LRMI_free_real(vbe.info); return 0; }