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freebsd-dev/sys/dev/fb/vesa.c
Jung-uk Kim bb6ba5f6b9 Do not penalize correct or correctable VESA mode tables by calling another 
VBE function.  Most problems should be corrected by the mode table sanity
check and we only need the paranoid in extremely rare cases.
2010-03-25 17:51:05 +00:00

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/*-
* Copyright (c) 1998 Kazutaka YOKOTA and Michael Smith
* Copyright (c) 2009-2010 Jung-uk Kim <jkim@FreeBSD.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer as
* the first lines of this file unmodified.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include "opt_vga.h"
#include "opt_vesa.h"
#ifndef VGA_NO_MODE_CHANGE
#include <sys/param.h>
#include <sys/bus.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/module.h>
#include <sys/malloc.h>
#include <sys/fbio.h>
#include <vm/vm.h>
#include <vm/vm_extern.h>
#include <vm/vm_kern.h>
#include <vm/vm_param.h>
#include <vm/pmap.h>
#include <machine/pc/bios.h>
#include <dev/fb/vesa.h>
#include <dev/fb/fbreg.h>
#include <dev/fb/vgareg.h>
#include <dev/pci/pcivar.h>
#include <isa/isareg.h>
#include <compat/x86bios/x86bios.h>
#define VESA_VIA_CLE266 "VIA CLE266\r\n"
#ifndef VESA_DEBUG
#define VESA_DEBUG 0
#endif
/* VESA video adapter state buffer stub */
struct adp_state {
int sig;
#define V_STATE_SIG 0x61736576
u_char regs[1];
};
typedef struct adp_state adp_state_t;
/* VESA video adapter */
static video_adapter_t *vesa_adp = NULL;
static ssize_t vesa_state_buf_size = -1;
/* VESA functions */
#if 0
static int vesa_nop(void);
#endif
static int vesa_error(void);
static vi_probe_t vesa_probe;
static vi_init_t vesa_init;
static vi_get_info_t vesa_get_info;
static vi_query_mode_t vesa_query_mode;
static vi_set_mode_t vesa_set_mode;
static vi_save_font_t vesa_save_font;
static vi_load_font_t vesa_load_font;
static vi_show_font_t vesa_show_font;
static vi_save_palette_t vesa_save_palette;
static vi_load_palette_t vesa_load_palette;
static vi_set_border_t vesa_set_border;
static vi_save_state_t vesa_save_state;
static vi_load_state_t vesa_load_state;
static vi_set_win_org_t vesa_set_origin;
static vi_read_hw_cursor_t vesa_read_hw_cursor;
static vi_set_hw_cursor_t vesa_set_hw_cursor;
static vi_set_hw_cursor_shape_t vesa_set_hw_cursor_shape;
static vi_blank_display_t vesa_blank_display;
static vi_mmap_t vesa_mmap;
static vi_ioctl_t vesa_ioctl;
static vi_clear_t vesa_clear;
static vi_fill_rect_t vesa_fill_rect;
static vi_bitblt_t vesa_bitblt;
static vi_diag_t vesa_diag;
static int vesa_bios_info(int level);
static video_switch_t vesavidsw = {
vesa_probe,
vesa_init,
vesa_get_info,
vesa_query_mode,
vesa_set_mode,
vesa_save_font,
vesa_load_font,
vesa_show_font,
vesa_save_palette,
vesa_load_palette,
vesa_set_border,
vesa_save_state,
vesa_load_state,
vesa_set_origin,
vesa_read_hw_cursor,
vesa_set_hw_cursor,
vesa_set_hw_cursor_shape,
vesa_blank_display,
vesa_mmap,
vesa_ioctl,
vesa_clear,
vesa_fill_rect,
vesa_bitblt,
vesa_error,
vesa_error,
vesa_diag,
};
static video_switch_t *prevvidsw;
/* VESA BIOS video modes */
#define VESA_MAXMODES 64
#define EOT (-1)
#define NA (-2)
#define MODE_TABLE_DELTA 8
static int vesa_vmode_max = 0;
static video_info_t vesa_vmode_empty = { EOT };
static video_info_t *vesa_vmode = &vesa_vmode_empty;
static int vesa_init_done = FALSE;
static int has_vesa_bios = FALSE;
static struct vesa_info *vesa_adp_info = NULL;
static u_int16_t *vesa_vmodetab = NULL;
static char *vesa_oemstr = NULL;
static char *vesa_venderstr = NULL;
static char *vesa_prodstr = NULL;
static char *vesa_revstr = NULL;
/* local macros and functions */
#define BIOS_SADDRTOLADDR(p) ((((p) & 0xffff0000) >> 12) + ((p) & 0x0000ffff))
static int int10_set_mode(int mode);
static int vesa_bios_post(void);
static int vesa_bios_get_mode(int mode, struct vesa_mode *vmode);
static int vesa_bios_set_mode(int mode);
#if 0
static int vesa_bios_get_dac(void);
#endif
static int vesa_bios_set_dac(int bits);
static int vesa_bios_save_palette(int start, int colors, u_char *palette,
int bits);
static int vesa_bios_save_palette2(int start, int colors, u_char *r, u_char *g,
u_char *b, int bits);
static int vesa_bios_load_palette(int start, int colors, u_char *palette,
int bits);
static int vesa_bios_load_palette2(int start, int colors, u_char *r, u_char *g,
u_char *b, int bits);
#define STATE_SIZE 0
#define STATE_SAVE 1
#define STATE_LOAD 2
#define STATE_HW (1<<0)
#define STATE_DATA (1<<1)
#define STATE_DAC (1<<2)
#define STATE_REG (1<<3)
#define STATE_MOST (STATE_HW | STATE_DATA | STATE_REG)
#define STATE_ALL (STATE_HW | STATE_DATA | STATE_DAC | STATE_REG)
static ssize_t vesa_bios_state_buf_size(void);
static int vesa_bios_save_restore(int code, void *p, size_t size);
#ifdef MODE_TABLE_BROKEN
static int vesa_bios_get_line_length(void);
#endif
static int vesa_bios_set_line_length(int pixel, int *bytes, int *lines);
#if 0
static int vesa_bios_get_start(int *x, int *y);
#endif
static int vesa_bios_set_start(int x, int y);
static int vesa_map_gen_mode_num(int type, int color, int mode);
static int vesa_translate_flags(u_int16_t vflags);
static int vesa_translate_mmodel(u_int8_t vmodel);
static int vesa_get_bpscanline(struct vesa_mode *vmode);
static int vesa_bios_init(void);
static void vesa_clear_modes(video_info_t *info, int color);
#if 0
static int vesa_get_origin(video_adapter_t *adp, off_t *offset);
#endif
/* INT 10 BIOS calls */
static int
int10_set_mode(int mode)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AL = mode;
x86bios_intr(&regs, 0x10);
return (0);
}
static int
vesa_bios_post(void)
{
x86regs_t regs;
devclass_t dc;
device_t *devs;
device_t dev;
int count, i, is_pci;
if (x86bios_get_orm(0xc0000) == NULL)
return (1);
dev = NULL;
is_pci = 0;
/* Find the matching PCI video controller. */
dc = devclass_find("vgapci");
if (dc != NULL && devclass_get_devices(dc, &devs, &count) == 0) {
for (dev = NULL, i = 0; dev == NULL && i < count; devs++, i++)
if (device_get_flags(*devs) != 0 &&
x86bios_match_device(0xc0000, *devs)) {
dev = *devs;
is_pci = 1;
break;
}
free(devs, M_TEMP);
}
/* Try VGA if a PCI device is not found. */
if (dev == NULL) {
dc = devclass_find(VGA_DRIVER_NAME);
if (dc != NULL)
dev = devclass_get_device(dc, 0);
}
if (bootverbose)
printf("%s: calling BIOS POST\n",
dev == NULL ? "VESA" : device_get_nameunit(dev));
x86bios_init_regs(&regs);
if (is_pci) {
regs.R_AH = pci_get_bus(dev);
regs.R_AL = (pci_get_slot(dev) << 3) |
(pci_get_function(dev) & 0x07);
}
regs.R_DL = 0x80;
x86bios_call(&regs, 0xc000, 0x0003);
if (x86bios_get_intr(0x10) == 0)
return (1);
return (0);
}
/* VESA BIOS calls */
static int
vesa_bios_get_mode(int mode, struct vesa_mode *vmode)
{
x86regs_t regs;
uint32_t offs;
void *buf;
buf = x86bios_alloc(&offs, sizeof(*vmode));
if (buf == NULL)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f01;
regs.R_CX = mode;
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_DI = X86BIOS_PHYSTOOFF(offs);
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f) {
x86bios_free(buf, sizeof(*vmode));
return (1);
}
bcopy(buf, vmode, sizeof(*vmode));
x86bios_free(buf, sizeof(*vmode));
return (0);
}
static int
vesa_bios_set_mode(int mode)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f02;
regs.R_BX = mode;
x86bios_intr(&regs, 0x10);
return (regs.R_AX != 0x004f);
}
#if 0
static int
vesa_bios_get_dac(void)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f08;
regs.R_BL = 1;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (6);
return (regs.R_BH);
}
#endif
static int
vesa_bios_set_dac(int bits)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f08;
/* regs.R_BL = 0; */
regs.R_BH = bits;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (6);
return (regs.R_BH);
}
static int
vesa_bios_save_palette(int start, int colors, u_char *palette, int bits)
{
x86regs_t regs;
uint32_t offs;
u_char *p;
int i;
p = (u_char *)x86bios_alloc(&offs, colors * 4);
if (p == NULL)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f09;
regs.R_BL = 1;
regs.R_CX = colors;
regs.R_DX = start;
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_DI = X86BIOS_PHYSTOOFF(offs);
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f) {
x86bios_free(p, colors * 4);
return (1);
}
bits = 8 - bits;
for (i = 0; i < colors; ++i) {
palette[i * 3] = p[i * 4 + 2] << bits;
palette[i * 3 + 1] = p[i * 4 + 1] << bits;
palette[i * 3 + 2] = p[i * 4] << bits;
}
x86bios_free(p, colors * 4);
return (0);
}
static int
vesa_bios_save_palette2(int start, int colors, u_char *r, u_char *g, u_char *b,
int bits)
{
x86regs_t regs;
uint32_t offs;
u_char *p;
int i;
p = (u_char *)x86bios_alloc(&offs, colors * 4);
if (p == NULL)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f09;
regs.R_BL = 1;
regs.R_CX = colors;
regs.R_DX = start;
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_DI = X86BIOS_PHYSTOOFF(offs);
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f) {
x86bios_free(p, colors * 4);
return (1);
}
bits = 8 - bits;
for (i = 0; i < colors; ++i) {
r[i] = p[i * 4 + 2] << bits;
g[i] = p[i * 4 + 1] << bits;
b[i] = p[i * 4] << bits;
}
x86bios_free(p, colors * 4);
return (0);
}
static int
vesa_bios_load_palette(int start, int colors, u_char *palette, int bits)
{
x86regs_t regs;
uint32_t offs;
u_char *p;
int i;
p = (u_char *)x86bios_alloc(&offs, colors * 4);
if (p == NULL)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f09;
/* regs.R_BL = 0; */
regs.R_CX = colors;
regs.R_DX = start;
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_DI = X86BIOS_PHYSTOOFF(offs);
bits = 8 - bits;
for (i = 0; i < colors; ++i) {
p[i * 4] = palette[i * 3 + 2] >> bits;
p[i * 4 + 1] = palette[i * 3 + 1] >> bits;
p[i * 4 + 2] = palette[i * 3] >> bits;
p[i * 4 + 3] = 0;
}
x86bios_intr(&regs, 0x10);
x86bios_free(p, colors * 4);
return (regs.R_AX != 0x004f);
}
static int
vesa_bios_load_palette2(int start, int colors, u_char *r, u_char *g, u_char *b,
int bits)
{
x86regs_t regs;
uint32_t offs;
u_char *p;
int i;
p = (u_char *)x86bios_alloc(&offs, colors * 4);
if (p == NULL)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f09;
/* regs.R_BL = 0; */
regs.R_CX = colors;
regs.R_DX = start;
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_DI = X86BIOS_PHYSTOOFF(offs);
bits = 8 - bits;
for (i = 0; i < colors; ++i) {
p[i * 4] = b[i] >> bits;
p[i * 4 + 1] = g[i] >> bits;
p[i * 4 + 2] = r[i] >> bits;
p[i * 4 + 3] = 0;
}
x86bios_intr(&regs, 0x10);
x86bios_free(p, colors * 4);
return (regs.R_AX != 0x004f);
}
static ssize_t
vesa_bios_state_buf_size(void)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f04;
/* regs.R_DL = STATE_SIZE; */
regs.R_CX = STATE_ALL;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (0);
return (regs.R_BX * 64);
}
static int
vesa_bios_save_restore(int code, void *p, size_t size)
{
x86regs_t regs;
uint32_t offs;
void *buf;
if (code != STATE_SAVE && code != STATE_LOAD)
return (1);
buf = x86bios_alloc(&offs, size);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f04;
regs.R_DL = code;
regs.R_CX = STATE_ALL;
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_BX = X86BIOS_PHYSTOOFF(offs);
switch (code) {
case STATE_SAVE:
x86bios_intr(&regs, 0x10);
bcopy(buf, p, size);
break;
case STATE_LOAD:
bcopy(p, buf, size);
x86bios_intr(&regs, 0x10);
break;
}
x86bios_free(buf, size);
return (regs.R_AX != 0x004f);
}
#ifdef MODE_TABLE_BROKEN
static int
vesa_bios_get_line_length(void)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f06;
regs.R_BL = 1;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (-1);
return (regs.R_BX);
}
#endif
static int
vesa_bios_set_line_length(int pixel, int *bytes, int *lines)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f06;
/* regs.R_BL = 0; */
regs.R_CX = pixel;
x86bios_intr(&regs, 0x10);
#if VESA_DEBUG > 1
printf("bx:%d, cx:%d, dx:%d\n", regs.R_BX, regs.R_CX, regs.R_DX);
#endif
if (regs.R_AX != 0x004f)
return (-1);
if (bytes != NULL)
*bytes = regs.R_BX;
if (lines != NULL)
*lines = regs.R_DX;
return (0);
}
#if 0
static int
vesa_bios_get_start(int *x, int *y)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f07;
regs.R_BL = 1;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (-1);
*x = regs.R_CX;
*y = regs.R_DX;
return (0);
}
#endif
static int
vesa_bios_set_start(int x, int y)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f07;
regs.R_BL = 0x80;
regs.R_CX = x;
regs.R_DX = y;
x86bios_intr(&regs, 0x10);
return (regs.R_AX != 0x004f);
}
/* map a generic video mode to a known mode */
static int
vesa_map_gen_mode_num(int type, int color, int mode)
{
static struct {
int from;
int to;
} mode_map[] = {
{ M_TEXT_132x25, M_VESA_C132x25 },
{ M_TEXT_132x43, M_VESA_C132x43 },
{ M_TEXT_132x50, M_VESA_C132x50 },
{ M_TEXT_132x60, M_VESA_C132x60 },
};
int i;
for (i = 0; i < sizeof(mode_map)/sizeof(mode_map[0]); ++i) {
if (mode_map[i].from == mode)
return (mode_map[i].to);
}
return (mode);
}
static int
vesa_translate_flags(u_int16_t vflags)
{
static struct {
u_int16_t mask;
int set;
int reset;
} ftable[] = {
{ V_MODECOLOR, V_INFO_COLOR, 0 },
{ V_MODEGRAPHICS, V_INFO_GRAPHICS, 0 },
{ V_MODELFB, V_INFO_LINEAR, 0 },
{ V_MODENONVGA, V_INFO_NONVGA, 0 },
};
int flags;
int i;
for (flags = 0, i = 0; i < sizeof(ftable)/sizeof(ftable[0]); ++i) {
flags |= (vflags & ftable[i].mask) ?
ftable[i].set : ftable[i].reset;
}
return (flags);
}
static int
vesa_translate_mmodel(u_int8_t vmodel)
{
static struct {
u_int8_t vmodel;
int mmodel;
} mtable[] = {
{ V_MMTEXT, V_INFO_MM_TEXT },
{ V_MMCGA, V_INFO_MM_CGA },
{ V_MMHGC, V_INFO_MM_HGC },
{ V_MMEGA, V_INFO_MM_PLANAR },
{ V_MMPACKED, V_INFO_MM_PACKED },
{ V_MMDIRCOLOR, V_INFO_MM_DIRECT },
};
int i;
for (i = 0; mtable[i].mmodel >= 0; ++i) {
if (mtable[i].vmodel == vmodel)
return (mtable[i].mmodel);
}
return (V_INFO_MM_OTHER);
}
static int
vesa_get_bpscanline(struct vesa_mode *vmode)
{
int bpsl;
if ((vmode->v_modeattr & V_MODEGRAPHICS) != 0) {
/* Find the minimum length. */
switch (vmode->v_bpp / vmode->v_planes) {
case 1:
bpsl = vmode->v_width / 8;
break;
case 2:
bpsl = vmode->v_width / 4;
break;
case 4:
bpsl = vmode->v_width / 2;
break;
default:
bpsl = vmode->v_width * ((vmode->v_bpp + 7) / 8);
bpsl /= vmode->v_planes;
break;
}
/* Use VBE 3.0 information if it looks sane. */
if ((vmode->v_modeattr & V_MODELFB) != 0 &&
vesa_adp_info->v_version >= 0x0300 &&
vmode->v_linbpscanline > bpsl)
return (vmode->v_linbpscanline);
/* Return the minimum if the mode table looks absurd. */
if (vmode->v_bpscanline < bpsl)
return (bpsl);
}
return (vmode->v_bpscanline);
}
#define VESA_MAXSTR 256
#define VESA_STRCPY(dst, src) do { \
char *str; \
int i; \
dst = malloc(VESA_MAXSTR, M_DEVBUF, M_WAITOK); \
str = x86bios_offset(BIOS_SADDRTOLADDR(src)); \
for (i = 0; i < VESA_MAXSTR - 1 && str[i] != '\0'; i++) \
dst[i] = str[i]; \
dst[i] = '\0'; \
} while (0)
static int
vesa_bios_init(void)
{
static struct vesa_info buf;
struct vesa_mode vmode;
video_info_t *p;
x86regs_t regs;
size_t bsize;
size_t msize;
void *vmbuf;
uint32_t offs;
uint16_t vers;
int is_via_cle266;
int modes;
int i;
if (vesa_init_done)
return (0);
has_vesa_bios = FALSE;
vesa_adp_info = NULL;
vesa_vmode_max = 0;
vesa_vmode[0].vi_mode = EOT;
/*
* If the VBE real mode interrupt vector is not found, try BIOS POST.
*/
if (x86bios_get_intr(0x10) == 0) {
if (vesa_bios_post() != 0)
return (1);
if (bootverbose) {
offs = x86bios_get_intr(0x10);
printf("VESA: interrupt vector installed (0x%x)\n",
BIOS_SADDRTOLADDR(offs));
}
}
x86bios_init_regs(&regs);
regs.R_AX = 0x4f00;
vmbuf = x86bios_alloc(&offs, sizeof(buf));
if (vmbuf == NULL)
return (1);
regs.R_ES = X86BIOS_PHYSTOSEG(offs);
regs.R_DI = X86BIOS_PHYSTOOFF(offs);
bcopy("VBE2", vmbuf, 4); /* try for VBE2 data */
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f || bcmp("VESA", vmbuf, 4) != 0)
goto fail;
bcopy(vmbuf, &buf, sizeof(buf));
vesa_adp_info = &buf;
if (bootverbose) {
printf("VESA: information block\n");
hexdump(&buf, sizeof(buf), NULL, HD_OMIT_CHARS);
}
vers = buf.v_version = le16toh(buf.v_version);
buf.v_oemstr = le32toh(buf.v_oemstr);
buf.v_flags = le32toh(buf.v_flags);
buf.v_modetable = le32toh(buf.v_modetable);
buf.v_memsize = le16toh(buf.v_memsize);
buf.v_revision = le16toh(buf.v_revision);
buf.v_venderstr = le32toh(buf.v_venderstr);
buf.v_prodstr = le32toh(buf.v_prodstr);
buf.v_revstr = le32toh(buf.v_revstr);
if (vers < 0x0102) {
printf("VESA: VBE version %d.%d is not supported; "
"version 1.2 or later is required.\n",
((vers & 0xf000) >> 12) * 10 + ((vers & 0x0f00) >> 8),
((vers & 0x00f0) >> 4) * 10 + (vers & 0x000f));
return (1);
}
VESA_STRCPY(vesa_oemstr, buf.v_oemstr);
if (vers >= 0x0200) {
VESA_STRCPY(vesa_venderstr, buf.v_venderstr);
VESA_STRCPY(vesa_prodstr, buf.v_prodstr);
VESA_STRCPY(vesa_revstr, buf.v_revstr);
}
is_via_cle266 = strncmp(vesa_oemstr, VESA_VIA_CLE266,
sizeof(VESA_VIA_CLE266)) == 0;
if (buf.v_modetable == 0)
goto fail;
msize = (size_t)buf.v_memsize * 64 * 1024;
vesa_vmodetab = x86bios_offset(BIOS_SADDRTOLADDR(buf.v_modetable));
for (i = 0, modes = 0; (i < (M_VESA_MODE_MAX - M_VESA_BASE + 1)) &&
(vesa_vmodetab[i] != 0xffff); ++i) {
vesa_vmodetab[i] = le16toh(vesa_vmodetab[i]);
if (vesa_bios_get_mode(vesa_vmodetab[i], &vmode))
continue;
vmode.v_modeattr = le16toh(vmode.v_modeattr);
vmode.v_wgran = le16toh(vmode.v_wgran);
vmode.v_wsize = le16toh(vmode.v_wsize);
vmode.v_waseg = le16toh(vmode.v_waseg);
vmode.v_wbseg = le16toh(vmode.v_wbseg);
vmode.v_posfunc = le32toh(vmode.v_posfunc);
vmode.v_bpscanline = le16toh(vmode.v_bpscanline);
vmode.v_width = le16toh(vmode.v_width);
vmode.v_height = le16toh(vmode.v_height);
vmode.v_lfb = le32toh(vmode.v_lfb);
vmode.v_offscreen = le32toh(vmode.v_offscreen);
vmode.v_offscreensize = le16toh(vmode.v_offscreensize);
vmode.v_linbpscanline = le16toh(vmode.v_linbpscanline);
vmode.v_maxpixelclock = le32toh(vmode.v_maxpixelclock);
/* reject unsupported modes */
#if 0
if ((vmode.v_modeattr &
(V_MODESUPP | V_MODEOPTINFO | V_MODENONVGA)) !=
(V_MODESUPP | V_MODEOPTINFO))
continue;
#else
if ((vmode.v_modeattr & V_MODEOPTINFO) == 0) {
#if VESA_DEBUG > 1
printf("Rejecting VESA %s mode: %d x %d x %d bpp "
" attr = %x\n",
vmode.v_modeattr & V_MODEGRAPHICS ?
"graphics" : "text",
vmode.v_width, vmode.v_height, vmode.v_bpp,
vmode.v_modeattr);
#endif
continue;
}
#endif
bsize = vesa_get_bpscanline(&vmode) * vmode.v_height;
if ((vmode.v_modeattr & V_MODEGRAPHICS) != 0)
bsize *= vmode.v_planes;
/* Does it have enough memory to support this mode? */
if (msize < bsize) {
#if VESA_DEBUG > 1
printf("Rejecting VESA %s mode: %d x %d x %d bpp "
" attr = %x, not enough memory\n",
vmode.v_modeattr & V_MODEGRAPHICS ?
"graphics" : "text",
vmode.v_width, vmode.v_height, vmode.v_bpp,
vmode.v_modeattr);
#endif
continue;
}
/* expand the array if necessary */
if (modes >= vesa_vmode_max) {
vesa_vmode_max += MODE_TABLE_DELTA;
p = malloc(sizeof(*vesa_vmode) * (vesa_vmode_max + 1),
M_DEVBUF, M_WAITOK);
#if VESA_DEBUG > 1
printf("vesa_bios_init(): modes:%d, vesa_mode_max:%d\n",
modes, vesa_vmode_max);
#endif
if (modes > 0) {
bcopy(vesa_vmode, p, sizeof(*vesa_vmode)*modes);
free(vesa_vmode, M_DEVBUF);
}
vesa_vmode = p;
}
#if VESA_DEBUG > 1
printf("Found VESA %s mode: %d x %d x %d bpp\n",
vmode.v_modeattr & V_MODEGRAPHICS ? "graphics" : "text",
vmode.v_width, vmode.v_height, vmode.v_bpp);
#endif
if (is_via_cle266) {
if ((vmode.v_width & 0xff00) >> 8 == vmode.v_height - 1) {
vmode.v_width &= 0xff;
vmode.v_waseg = 0xb8000 >> 4;
}
}
/* copy some fields */
bzero(&vesa_vmode[modes], sizeof(vesa_vmode[modes]));
vesa_vmode[modes].vi_mode = vesa_vmodetab[i];
vesa_vmode[modes].vi_width = vmode.v_width;
vesa_vmode[modes].vi_height = vmode.v_height;
vesa_vmode[modes].vi_depth = vmode.v_bpp;
vesa_vmode[modes].vi_planes = vmode.v_planes;
vesa_vmode[modes].vi_cwidth = vmode.v_cwidth;
vesa_vmode[modes].vi_cheight = vmode.v_cheight;
vesa_vmode[modes].vi_window = (vm_offset_t)vmode.v_waseg << 4;
/* XXX window B */
vesa_vmode[modes].vi_window_size = vmode.v_wsize * 1024;
vesa_vmode[modes].vi_window_gran = vmode.v_wgran * 1024;
if (vmode.v_modeattr & V_MODELFB)
vesa_vmode[modes].vi_buffer = vmode.v_lfb;
vesa_vmode[modes].vi_buffer_size = bsize;
vesa_vmode[modes].vi_mem_model =
vesa_translate_mmodel(vmode.v_memmodel);
switch (vesa_vmode[modes].vi_mem_model) {
case V_INFO_MM_DIRECT:
if ((vmode.v_modeattr & V_MODELFB) != 0 &&
vers >= 0x0300) {
vesa_vmode[modes].vi_pixel_fields[0] =
vmode.v_linredfieldpos;
vesa_vmode[modes].vi_pixel_fields[1] =
vmode.v_lingreenfieldpos;
vesa_vmode[modes].vi_pixel_fields[2] =
vmode.v_linbluefieldpos;
vesa_vmode[modes].vi_pixel_fields[3] =
vmode.v_linresfieldpos;
vesa_vmode[modes].vi_pixel_fsizes[0] =
vmode.v_linredmasksize;
vesa_vmode[modes].vi_pixel_fsizes[1] =
vmode.v_lingreenmasksize;
vesa_vmode[modes].vi_pixel_fsizes[2] =
vmode.v_linbluemasksize;
vesa_vmode[modes].vi_pixel_fsizes[3] =
vmode.v_linresmasksize;
} else {
vesa_vmode[modes].vi_pixel_fields[0] =
vmode.v_redfieldpos;
vesa_vmode[modes].vi_pixel_fields[1] =
vmode.v_greenfieldpos;
vesa_vmode[modes].vi_pixel_fields[2] =
vmode.v_bluefieldpos;
vesa_vmode[modes].vi_pixel_fields[3] =
vmode.v_resfieldpos;
vesa_vmode[modes].vi_pixel_fsizes[0] =
vmode.v_redmasksize;
vesa_vmode[modes].vi_pixel_fsizes[1] =
vmode.v_greenmasksize;
vesa_vmode[modes].vi_pixel_fsizes[2] =
vmode.v_bluemasksize;
vesa_vmode[modes].vi_pixel_fsizes[3] =
vmode.v_resmasksize;
}
/* FALLTHROUGH */
case V_INFO_MM_PACKED:
vesa_vmode[modes].vi_pixel_size = (vmode.v_bpp + 7) / 8;
break;
}
vesa_vmode[modes].vi_flags =
vesa_translate_flags(vmode.v_modeattr) | V_INFO_VESA;
++modes;
}
vesa_vmode[modes].vi_mode = EOT;
if (bootverbose)
printf("VESA: %d mode(s) found\n", modes);
has_vesa_bios = (modes > 0);
if (!has_vesa_bios)
goto fail;
x86bios_free(vmbuf, sizeof(buf));
return (0);
fail:
if (vmbuf != NULL)
x86bios_free(vmbuf, sizeof(buf));
if (vesa_oemstr != NULL) {
free(vesa_oemstr, M_DEVBUF);
vesa_oemstr = NULL;
}
if (vesa_venderstr != NULL) {
free(vesa_venderstr, M_DEVBUF);
vesa_venderstr = NULL;
}
if (vesa_prodstr != NULL) {
free(vesa_prodstr, M_DEVBUF);
vesa_prodstr = NULL;
}
if (vesa_revstr != NULL) {
free(vesa_revstr, M_DEVBUF);
vesa_revstr = NULL;
}
return (1);
}
static void
vesa_clear_modes(video_info_t *info, int color)
{
while (info->vi_mode != EOT) {
if ((info->vi_flags & V_INFO_COLOR) != color)
info->vi_mode = NA;
++info;
}
}
/* entry points */
static int
vesa_configure(int flags)
{
video_adapter_t *adp;
int adapters;
int error;
int i;
if (vesa_init_done)
return (0);
if (flags & VIO_PROBE_ONLY)
return (0);
/*
* If the VESA module has already been loaded, abort loading
* the module this time.
*/
for (i = 0; (adp = vid_get_adapter(i)) != NULL; ++i) {
if (adp->va_flags & V_ADP_VESA)
return (ENXIO);
if (adp->va_type == KD_VGA)
break;
}
/*
* The VGA adapter is not found. This is because either
* 1) the VGA driver has not been initialized, or 2) the VGA card
* is not present. If 1) is the case, we shall defer
* initialization for now and try again later.
*/
if (adp == NULL) {
vga_sub_configure = vesa_configure;
return (ENODEV);
}
/* count number of registered adapters */
for (++i; vid_get_adapter(i) != NULL; ++i)
;
adapters = i;
/* call VESA BIOS */
vesa_adp = adp;
if (vesa_bios_init()) {
vesa_adp = NULL;
return (ENXIO);
}
vesa_adp->va_flags |= V_ADP_VESA;
/* remove conflicting modes if we have more than one adapter */
if (adapters > 1) {
vesa_clear_modes(vesa_vmode,
(vesa_adp->va_flags & V_ADP_COLOR) ?
V_INFO_COLOR : 0);
}
if ((error = vesa_load_ioctl()) == 0) {
prevvidsw = vidsw[vesa_adp->va_index];
vidsw[vesa_adp->va_index] = &vesavidsw;
vesa_init_done = TRUE;
} else {
vesa_adp = NULL;
return (error);
}
return (0);
}
#if 0
static int
vesa_nop(void)
{
return (0);
}
#endif
static int
vesa_error(void)
{
return (1);
}
static int
vesa_probe(int unit, video_adapter_t **adpp, void *arg, int flags)
{
return ((*prevvidsw->probe)(unit, adpp, arg, flags));
}
static int
vesa_init(int unit, video_adapter_t *adp, int flags)
{
return ((*prevvidsw->init)(unit, adp, flags));
}
static int
vesa_get_info(video_adapter_t *adp, int mode, video_info_t *info)
{
int i;
if ((*prevvidsw->get_info)(adp, mode, info) == 0)
return (0);
if (adp != vesa_adp)
return (1);
mode = vesa_map_gen_mode_num(vesa_adp->va_type,
vesa_adp->va_flags & V_ADP_COLOR, mode);
for (i = 0; vesa_vmode[i].vi_mode != EOT; ++i) {
if (vesa_vmode[i].vi_mode == NA)
continue;
if (vesa_vmode[i].vi_mode == mode) {
*info = vesa_vmode[i];
return (0);
}
}
return (1);
}
static int
vesa_query_mode(video_adapter_t *adp, video_info_t *info)
{
int i;
if ((*prevvidsw->query_mode)(adp, info) == 0)
return (0);
if (adp != vesa_adp)
return (ENODEV);
for (i = 0; vesa_vmode[i].vi_mode != EOT; ++i) {
if ((info->vi_width != 0)
&& (info->vi_width != vesa_vmode[i].vi_width))
continue;
if ((info->vi_height != 0)
&& (info->vi_height != vesa_vmode[i].vi_height))
continue;
if ((info->vi_cwidth != 0)
&& (info->vi_cwidth != vesa_vmode[i].vi_cwidth))
continue;
if ((info->vi_cheight != 0)
&& (info->vi_cheight != vesa_vmode[i].vi_cheight))
continue;
if ((info->vi_depth != 0)
&& (info->vi_depth != vesa_vmode[i].vi_depth))
continue;
if ((info->vi_planes != 0)
&& (info->vi_planes != vesa_vmode[i].vi_planes))
continue;
/* pixel format, memory model */
if ((info->vi_flags != 0)
&& (info->vi_flags != vesa_vmode[i].vi_flags))
continue;
*info = vesa_vmode[i];
return (0);
}
return (ENODEV);
}
static int
vesa_set_mode(video_adapter_t *adp, int mode)
{
video_info_t info;
if (adp != vesa_adp)
return ((*prevvidsw->set_mode)(adp, mode));
mode = vesa_map_gen_mode_num(adp->va_type,
adp->va_flags & V_ADP_COLOR, mode);
#if VESA_DEBUG > 0
printf("VESA: set_mode(): %d(%x) -> %d(%x)\n",
adp->va_mode, adp->va_mode, mode, mode);
#endif
/*
* If the current mode is a VESA mode and the new mode is not,
* restore the state of the adapter first by setting one of the
* standard VGA mode, so that non-standard, extended SVGA registers
* are set to the state compatible with the standard VGA modes.
* Otherwise (*prevvidsw->set_mode)() may not be able to set up
* the new mode correctly.
*/
if (VESA_MODE(adp->va_mode)) {
if (!VESA_MODE(mode) &&
(*prevvidsw->get_info)(adp, mode, &info) == 0) {
if ((adp->va_flags & V_ADP_DAC8) != 0) {
vesa_bios_set_dac(6);
adp->va_flags &= ~V_ADP_DAC8;
}
int10_set_mode(adp->va_initial_bios_mode);
if (adp->va_info.vi_flags & V_INFO_LINEAR)
pmap_unmapdev(adp->va_buffer,
vesa_adp_info->v_memsize * 64 * 1024);
/*
* Once (*prevvidsw->get_info)() succeeded,
* (*prevvidsw->set_mode)() below won't fail...
*/
}
}
/* we may not need to handle this mode after all... */
if (!VESA_MODE(mode) && (*prevvidsw->set_mode)(adp, mode) == 0)
return (0);
/* is the new mode supported? */
if (vesa_get_info(adp, mode, &info))
return (1);
/* assert(VESA_MODE(mode)); */
#if VESA_DEBUG > 0
printf("VESA: about to set a VESA mode...\n");
#endif
/* don't use the linear frame buffer for text modes. XXX */
if (!(info.vi_flags & V_INFO_GRAPHICS))
info.vi_flags &= ~V_INFO_LINEAR;
if (vesa_bios_set_mode(mode | ((info.vi_flags & V_INFO_LINEAR) ? 0x4000 : 0)))
return (1);
/* Palette format is reset by the above VBE function call. */
adp->va_flags &= ~V_ADP_DAC8;
if ((vesa_adp_info->v_flags & V_DAC8) != 0 &&
(info.vi_flags & V_INFO_GRAPHICS) != 0 &&
vesa_bios_set_dac(8) > 6)
adp->va_flags |= V_ADP_DAC8;
if (adp->va_info.vi_flags & V_INFO_LINEAR)
pmap_unmapdev(adp->va_buffer,
vesa_adp_info->v_memsize * 64 * 1024);
#if VESA_DEBUG > 0
printf("VESA: mode set!\n");
#endif
vesa_adp->va_mode = mode;
vesa_adp->va_flags &= ~V_ADP_COLOR;
vesa_adp->va_flags |=
(info.vi_flags & V_INFO_COLOR) ? V_ADP_COLOR : 0;
vesa_adp->va_crtc_addr =
(vesa_adp->va_flags & V_ADP_COLOR) ? COLOR_CRTC : MONO_CRTC;
vesa_adp->va_line_width = info.vi_buffer_size / info.vi_height;
if ((info.vi_flags & V_INFO_GRAPHICS) != 0)
vesa_adp->va_line_width /= info.vi_planes;
#ifdef MODE_TABLE_BROKEN
/* If VBE function returns bigger bytes per scan line, use it. */
{
int bpsl = vesa_bios_get_line_length();
if (bpsl > vesa_adp->va_line_width) {
vesa_adp->va_line_width = bpsl;
info.vi_buffer_size = bpsl * info.vi_height;
if ((info.vi_flags & V_INFO_GRAPHICS) != 0)
info.vi_buffer_size *= info.vi_planes;
}
}
#endif
if (info.vi_flags & V_INFO_LINEAR) {
#if VESA_DEBUG > 1
printf("VESA: setting up LFB\n");
#endif
vesa_adp->va_buffer =
(vm_offset_t)pmap_mapdev_attr(info.vi_buffer,
vesa_adp_info->v_memsize * 64 * 1024, PAT_WRITE_COMBINING);
vesa_adp->va_window = vesa_adp->va_buffer;
vesa_adp->va_window_size = info.vi_buffer_size / info.vi_planes;
vesa_adp->va_window_gran = info.vi_buffer_size / info.vi_planes;
} else {
vesa_adp->va_buffer = 0;
vesa_adp->va_window = (vm_offset_t)x86bios_offset(info.vi_window);
vesa_adp->va_window_size = info.vi_window_size;
vesa_adp->va_window_gran = info.vi_window_gran;
}
vesa_adp->va_buffer_size = info.vi_buffer_size;
vesa_adp->va_window_orig = 0;
vesa_adp->va_disp_start.x = 0;
vesa_adp->va_disp_start.y = 0;
#if VESA_DEBUG > 0
printf("vesa_set_mode(): vi_width:%d, line_width:%d\n",
info.vi_width, vesa_adp->va_line_width);
#endif
bcopy(&info, &vesa_adp->va_info, sizeof(vesa_adp->va_info));
/* move hardware cursor out of the way */
(*vidsw[vesa_adp->va_index]->set_hw_cursor)(vesa_adp, -1, -1);
return (0);
}
static int
vesa_save_font(video_adapter_t *adp, int page, int fontsize, int fontwidth,
u_char *data, int ch, int count)
{
return ((*prevvidsw->save_font)(adp, page, fontsize, fontwidth, data,
ch, count));
}
static int
vesa_load_font(video_adapter_t *adp, int page, int fontsize, int fontwidth,
u_char *data, int ch, int count)
{
return ((*prevvidsw->load_font)(adp, page, fontsize, fontwidth, data,
ch, count));
}
static int
vesa_show_font(video_adapter_t *adp, int page)
{
return ((*prevvidsw->show_font)(adp, page));
}
static int
vesa_save_palette(video_adapter_t *adp, u_char *palette)
{
int bits;
if (adp == vesa_adp && VESA_MODE(adp->va_mode)) {
bits = (adp->va_flags & V_ADP_DAC8) != 0 ? 8 : 6;
if (vesa_bios_save_palette(0, 256, palette, bits) == 0)
return (0);
}
return ((*prevvidsw->save_palette)(adp, palette));
}
static int
vesa_load_palette(video_adapter_t *adp, u_char *palette)
{
int bits;
if (adp == vesa_adp && VESA_MODE(adp->va_mode)) {
bits = (adp->va_flags & V_ADP_DAC8) != 0 ? 8 : 6;
if (vesa_bios_load_palette(0, 256, palette, bits) == 0)
return (0);
}
return ((*prevvidsw->load_palette)(adp, palette));
}
static int
vesa_set_border(video_adapter_t *adp, int color)
{
return ((*prevvidsw->set_border)(adp, color));
}
static int
vesa_save_state(video_adapter_t *adp, void *p, size_t size)
{
if (adp != vesa_adp)
return ((*prevvidsw->save_state)(adp, p, size));
if (vesa_state_buf_size == -1) {
vesa_state_buf_size = vesa_bios_state_buf_size();
if (vesa_state_buf_size == 0)
return (1);
}
if (size == 0)
return (offsetof(adp_state_t, regs) + vesa_state_buf_size);
else if (size < (offsetof(adp_state_t, regs) + vesa_state_buf_size))
return (1);
((adp_state_t *)p)->sig = V_STATE_SIG;
bzero(((adp_state_t *)p)->regs, vesa_state_buf_size);
return (vesa_bios_save_restore(STATE_SAVE, ((adp_state_t *)p)->regs,
vesa_state_buf_size));
}
static int
vesa_load_state(video_adapter_t *adp, void *p)
{
if ((adp != vesa_adp) || (((adp_state_t *)p)->sig != V_STATE_SIG))
return ((*prevvidsw->load_state)(adp, p));
if (vesa_state_buf_size <= 0)
return (1);
/* Try BIOS POST to restore a sane state. */
(void)vesa_bios_post();
(void)int10_set_mode(adp->va_initial_bios_mode);
return (vesa_bios_save_restore(STATE_LOAD, ((adp_state_t *)p)->regs,
vesa_state_buf_size));
}
#if 0
static int
vesa_get_origin(video_adapter_t *adp, off_t *offset)
{
x86regs_t regs;
x86bios_init_regs(&regs);
regs.R_AX = 0x4f05;
regs.R_BL = 0x10;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (1);
*offset = regs.DX * adp->va_window_gran;
return (0);
}
#endif
static int
vesa_set_origin(video_adapter_t *adp, off_t offset)
{
x86regs_t regs;
/*
* This function should return as quickly as possible to
* maintain good performance of the system. For this reason,
* error checking is kept minimal and let the VESA BIOS to
* detect error.
*/
if (adp != vesa_adp)
return ((*prevvidsw->set_win_org)(adp, offset));
/* if this is a linear frame buffer, do nothing */
if (adp->va_info.vi_flags & V_INFO_LINEAR)
return (0);
/* XXX */
if (adp->va_window_gran == 0)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f05;
regs.R_DX = offset / adp->va_window_gran;
x86bios_intr(&regs, 0x10);
if (regs.R_AX != 0x004f)
return (1);
x86bios_init_regs(&regs);
regs.R_AX = 0x4f05;
regs.R_BL = 1;
regs.R_DX = offset / adp->va_window_gran;
x86bios_intr(&regs, 0x10);
adp->va_window_orig = (offset/adp->va_window_gran)*adp->va_window_gran;
return (0); /* XXX */
}
static int
vesa_read_hw_cursor(video_adapter_t *adp, int *col, int *row)
{
return ((*prevvidsw->read_hw_cursor)(adp, col, row));
}
static int
vesa_set_hw_cursor(video_adapter_t *adp, int col, int row)
{
return ((*prevvidsw->set_hw_cursor)(adp, col, row));
}
static int
vesa_set_hw_cursor_shape(video_adapter_t *adp, int base, int height,
int celsize, int blink)
{
return ((*prevvidsw->set_hw_cursor_shape)(adp, base, height, celsize,
blink));
}
static int
vesa_blank_display(video_adapter_t *adp, int mode)
{
/* XXX: use VESA DPMS */
return ((*prevvidsw->blank_display)(adp, mode));
}
static int
vesa_mmap(video_adapter_t *adp, vm_ooffset_t offset, vm_paddr_t *paddr,
int prot, vm_memattr_t *memattr)
{
#if VESA_DEBUG > 0
printf("vesa_mmap(): window:0x%tx, buffer:0x%tx, offset:0x%jx\n",
adp->va_info.vi_window, adp->va_info.vi_buffer, offset);
#endif
if ((adp == vesa_adp) &&
(adp->va_info.vi_flags & V_INFO_LINEAR) != 0) {
/* va_window_size == va_buffer_size/vi_planes */
/* XXX: is this correct? */
if (offset > adp->va_window_size - PAGE_SIZE)
return (-1);
*paddr = adp->va_info.vi_buffer + offset;
return (0);
}
return ((*prevvidsw->mmap)(adp, offset, paddr, prot, memattr));
}
static int
vesa_clear(video_adapter_t *adp)
{
return ((*prevvidsw->clear)(adp));
}
static int
vesa_fill_rect(video_adapter_t *adp, int val, int x, int y, int cx, int cy)
{
return ((*prevvidsw->fill_rect)(adp, val, x, y, cx, cy));
}
static int
vesa_bitblt(video_adapter_t *adp,...)
{
/* FIXME */
return (1);
}
static int
get_palette(video_adapter_t *adp, int base, int count,
u_char *red, u_char *green, u_char *blue, u_char *trans)
{
u_char *r;
u_char *g;
u_char *b;
int bits;
int error;
if (base < 0 || base >= 256 || count < 0 || count > 256)
return (1);
if ((base + count) > 256)
return (1);
if (!VESA_MODE(adp->va_mode))
return (1);
bits = (adp->va_flags & V_ADP_DAC8) != 0 ? 8 : 6;
r = malloc(count * 3, M_DEVBUF, M_WAITOK);
g = r + count;
b = g + count;
error = vesa_bios_save_palette2(base, count, r, g, b, bits);
if (error == 0) {
copyout(r, red, count);
copyout(g, green, count);
copyout(b, blue, count);
if (trans != NULL) {
bzero(r, count);
copyout(r, trans, count);
}
}
free(r, M_DEVBUF);
return (error);
}
static int
set_palette(video_adapter_t *adp, int base, int count,
u_char *red, u_char *green, u_char *blue, u_char *trans)
{
u_char *r;
u_char *g;
u_char *b;
int bits;
int error;
if (base < 0 || base >= 256 || count < 0 || count > 256)
return (1);
if ((base + count) > 256)
return (1);
if (!VESA_MODE(adp->va_mode))
return (1);
bits = (adp->va_flags & V_ADP_DAC8) != 0 ? 8 : 6;
r = malloc(count * 3, M_DEVBUF, M_WAITOK);
g = r + count;
b = g + count;
copyin(red, r, count);
copyin(green, g, count);
copyin(blue, b, count);
error = vesa_bios_load_palette2(base, count, r, g, b, bits);
free(r, M_DEVBUF);
return (error);
}
static int
vesa_ioctl(video_adapter_t *adp, u_long cmd, caddr_t arg)
{
int bytes;
if (adp != vesa_adp)
return ((*prevvidsw->ioctl)(adp, cmd, arg));
switch (cmd) {
case FBIO_SETWINORG: /* set frame buffer window origin */
if (!VESA_MODE(adp->va_mode))
return (*prevvidsw->ioctl)(adp, cmd, arg);
return (vesa_set_origin(adp, *(off_t *)arg) ? ENODEV : 0);
case FBIO_SETDISPSTART: /* set display start address */
if (!VESA_MODE(adp->va_mode))
return ((*prevvidsw->ioctl)(adp, cmd, arg));
if (vesa_bios_set_start(((video_display_start_t *)arg)->x,
((video_display_start_t *)arg)->y))
return (ENODEV);
adp->va_disp_start.x = ((video_display_start_t *)arg)->x;
adp->va_disp_start.y = ((video_display_start_t *)arg)->y;
return (0);
case FBIO_SETLINEWIDTH: /* set line length in pixel */
if (!VESA_MODE(adp->va_mode))
return ((*prevvidsw->ioctl)(adp, cmd, arg));
if (vesa_bios_set_line_length(*(u_int *)arg, &bytes, NULL))
return (ENODEV);
adp->va_line_width = bytes;
#if VESA_DEBUG > 1
printf("new line width:%d\n", adp->va_line_width);
#endif
return (0);
case FBIO_GETPALETTE: /* get color palette */
if (get_palette(adp, ((video_color_palette_t *)arg)->index,
((video_color_palette_t *)arg)->count,
((video_color_palette_t *)arg)->red,
((video_color_palette_t *)arg)->green,
((video_color_palette_t *)arg)->blue,
((video_color_palette_t *)arg)->transparent))
return ((*prevvidsw->ioctl)(adp, cmd, arg));
return (0);
case FBIO_SETPALETTE: /* set color palette */
if (set_palette(adp, ((video_color_palette_t *)arg)->index,
((video_color_palette_t *)arg)->count,
((video_color_palette_t *)arg)->red,
((video_color_palette_t *)arg)->green,
((video_color_palette_t *)arg)->blue,
((video_color_palette_t *)arg)->transparent))
return ((*prevvidsw->ioctl)(adp, cmd, arg));
return (0);
case FBIOGETCMAP: /* get color palette */
if (get_palette(adp, ((struct fbcmap *)arg)->index,
((struct fbcmap *)arg)->count,
((struct fbcmap *)arg)->red,
((struct fbcmap *)arg)->green,
((struct fbcmap *)arg)->blue, NULL))
return ((*prevvidsw->ioctl)(adp, cmd, arg));
return (0);
case FBIOPUTCMAP: /* set color palette */
if (set_palette(adp, ((struct fbcmap *)arg)->index,
((struct fbcmap *)arg)->count,
((struct fbcmap *)arg)->red,
((struct fbcmap *)arg)->green,
((struct fbcmap *)arg)->blue, NULL))
return ((*prevvidsw->ioctl)(adp, cmd, arg));
return (0);
default:
return ((*prevvidsw->ioctl)(adp, cmd, arg));
}
}
static int
vesa_diag(video_adapter_t *adp, int level)
{
int error;
/* call the previous handler first */
error = (*prevvidsw->diag)(adp, level);
if (error)
return (error);
if (adp != vesa_adp)
return (1);
if (level <= 0)
return (0);
return (0);
}
static int
vesa_bios_info(int level)
{
#if VESA_DEBUG > 1
struct vesa_mode vmode;
int i;
#endif
uint16_t vers;
vers = vesa_adp_info->v_version;
if (bootverbose) {
/* general adapter information */
printf(
"VESA: v%d.%d, %dk memory, flags:0x%x, mode table:%p (%x)\n",
(vers >> 12) * 10 + ((vers & 0x0f00) >> 8),
((vers & 0x00f0) >> 4) * 10 + (vers & 0x000f),
vesa_adp_info->v_memsize * 64, vesa_adp_info->v_flags,
vesa_vmodetab, vesa_adp_info->v_modetable);
/* OEM string */
if (vesa_oemstr != NULL)
printf("VESA: %s\n", vesa_oemstr);
}
if (level <= 0)
return (0);
if (vers >= 0x0200 && bootverbose) {
/* vender name, product name, product revision */
printf("VESA: %s %s %s\n",
(vesa_venderstr != NULL) ? vesa_venderstr : "unknown",
(vesa_prodstr != NULL) ? vesa_prodstr : "unknown",
(vesa_revstr != NULL) ? vesa_revstr : "?");
}
#if VESA_DEBUG > 1
/* mode information */
for (i = 0;
(i < (M_VESA_MODE_MAX - M_VESA_BASE + 1))
&& (vesa_vmodetab[i] != 0xffff); ++i) {
if (vesa_bios_get_mode(vesa_vmodetab[i], &vmode))
continue;
/* print something for diagnostic purpose */
printf("VESA: mode:0x%03x, flags:0x%04x",
vesa_vmodetab[i], vmode.v_modeattr);
if (vmode.v_modeattr & V_MODEOPTINFO) {
if (vmode.v_modeattr & V_MODEGRAPHICS) {
printf(", G %dx%dx%d %d, ",
vmode.v_width, vmode.v_height,
vmode.v_bpp, vmode.v_planes);
} else {
printf(", T %dx%d, ",
vmode.v_width, vmode.v_height);
}
printf("font:%dx%d, ",
vmode.v_cwidth, vmode.v_cheight);
printf("pages:%d, mem:%d",
vmode.v_ipages + 1, vmode.v_memmodel);
}
if (vmode.v_modeattr & V_MODELFB) {
printf("\nVESA: LFB:0x%x, off:0x%x, off_size:0x%x",
vmode.v_lfb, vmode.v_offscreen,
vmode.v_offscreensize*1024);
}
printf("\n");
printf("VESA: window A:0x%x (%x), window B:0x%x (%x), ",
vmode.v_waseg, vmode.v_waattr,
vmode.v_wbseg, vmode.v_wbattr);
printf("size:%dk, gran:%dk\n",
vmode.v_wsize, vmode.v_wgran);
}
#endif /* VESA_DEBUG > 1 */
return (0);
}
/* module loading */
static int
vesa_load(void)
{
int error;
int s;
if (vesa_init_done)
return (0);
/* locate a VGA adapter */
s = spltty();
vesa_adp = NULL;
error = vesa_configure(0);
splx(s);
if (error == 0)
vesa_bios_info(bootverbose);
return (error);
}
static int
vesa_unload(void)
{
u_char palette[256*3];
int error;
int s;
/* if the adapter is currently in a VESA mode, don't unload */
if ((vesa_adp != NULL) && VESA_MODE(vesa_adp->va_mode))
return (EBUSY);
/*
* FIXME: if there is at least one vty which is in a VESA mode,
* we shouldn't be unloading! XXX
*/
s = spltty();
if ((error = vesa_unload_ioctl()) == 0) {
if (vesa_adp != NULL) {
if ((vesa_adp->va_flags & V_ADP_DAC8) != 0) {
vesa_bios_save_palette(0, 256, palette, 8);
vesa_bios_set_dac(6);
vesa_adp->va_flags &= ~V_ADP_DAC8;
vesa_bios_load_palette(0, 256, palette, 6);
}
vesa_adp->va_flags &= ~V_ADP_VESA;
vidsw[vesa_adp->va_index] = prevvidsw;
}
}
splx(s);
if (vesa_oemstr != NULL)
free(vesa_oemstr, M_DEVBUF);
if (vesa_venderstr != NULL)
free(vesa_venderstr, M_DEVBUF);
if (vesa_prodstr != NULL)
free(vesa_prodstr, M_DEVBUF);
if (vesa_revstr != NULL)
free(vesa_revstr, M_DEVBUF);
if (vesa_vmode != &vesa_vmode_empty)
free(vesa_vmode, M_DEVBUF);
return (error);
}
static int
vesa_mod_event(module_t mod, int type, void *data)
{
switch (type) {
case MOD_LOAD:
return (vesa_load());
case MOD_UNLOAD:
return (vesa_unload());
}
return (EOPNOTSUPP);
}
static moduledata_t vesa_mod = {
"vesa",
vesa_mod_event,
NULL,
};
DECLARE_MODULE(vesa, vesa_mod, SI_SUB_DRIVERS, SI_ORDER_MIDDLE);
MODULE_DEPEND(vesa, x86bios, 1, 1, 1);
#endif /* VGA_NO_MODE_CHANGE */
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