qemu/hw/display/cirrus_vga.c

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/*
* QEMU Cirrus CLGD 54xx VGA Emulator.
*
* Copyright (c) 2004 Fabrice Bellard
* Copyright (c) 2004 Makoto Suzuki (suzu)
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
/*
* Reference: Finn Thogersons' VGADOC4b:
*
* http://web.archive.org/web/20021019054927/http://home.worldonline.dk/finth/
*
* VGADOC4b.ZIP content available at:
*
* https://pdos.csail.mit.edu/6.828/2005/readings/hardware/vgadoc
*/
#include "qemu/osdep.h"
#include "qemu/module.h"
#include "qemu/units.h"
#include "qemu/log.h"
#include "sysemu/reset.h"
2016-03-14 11:01:28 +03:00
#include "qapi/error.h"
#include "trace.h"
#include "hw/pci/pci_device.h"
#include "hw/qdev-properties.h"
#include "migration/vmstate.h"
#include "ui/pixel_ops.h"
#include "cirrus_vga_internal.h"
#include "qom/object.h"
#include "ui/console.h"
/*
* TODO:
* - destination write mask support not complete (bits 5..7)
* - optimize linear mappings
* - optimize bitblt functions
*/
//#define DEBUG_CIRRUS
/***************************************
*
* definitions
*
***************************************/
// sequencer 0x07
#define CIRRUS_SR7_BPP_VGA 0x00
#define CIRRUS_SR7_BPP_SVGA 0x01
#define CIRRUS_SR7_BPP_MASK 0x0e
#define CIRRUS_SR7_BPP_8 0x00
#define CIRRUS_SR7_BPP_16_DOUBLEVCLK 0x02
#define CIRRUS_SR7_BPP_24 0x04
#define CIRRUS_SR7_BPP_16 0x06
#define CIRRUS_SR7_BPP_32 0x08
#define CIRRUS_SR7_ISAADDR_MASK 0xe0
// sequencer 0x0f
#define CIRRUS_MEMSIZE_512k 0x08
#define CIRRUS_MEMSIZE_1M 0x10
#define CIRRUS_MEMSIZE_2M 0x18
#define CIRRUS_MEMFLAGS_BANKSWITCH 0x80 // bank switching is enabled.
// sequencer 0x12
#define CIRRUS_CURSOR_SHOW 0x01
#define CIRRUS_CURSOR_HIDDENPEL 0x02
#define CIRRUS_CURSOR_LARGE 0x04 // 64x64 if set, 32x32 if clear
// sequencer 0x17
#define CIRRUS_BUSTYPE_VLBFAST 0x10
#define CIRRUS_BUSTYPE_PCI 0x20
#define CIRRUS_BUSTYPE_VLBSLOW 0x30
#define CIRRUS_BUSTYPE_ISA 0x38
#define CIRRUS_MMIO_ENABLE 0x04
#define CIRRUS_MMIO_USE_PCIADDR 0x40 // 0xb8000 if cleared.
#define CIRRUS_MEMSIZEEXT_DOUBLE 0x80
// control 0x0b
#define CIRRUS_BANKING_DUAL 0x01
#define CIRRUS_BANKING_GRANULARITY_16K 0x20 // set:16k, clear:4k
// control 0x30
#define CIRRUS_BLTMODE_BACKWARDS 0x01
#define CIRRUS_BLTMODE_MEMSYSDEST 0x02
#define CIRRUS_BLTMODE_MEMSYSSRC 0x04
#define CIRRUS_BLTMODE_TRANSPARENTCOMP 0x08
#define CIRRUS_BLTMODE_PATTERNCOPY 0x40
#define CIRRUS_BLTMODE_COLOREXPAND 0x80
#define CIRRUS_BLTMODE_PIXELWIDTHMASK 0x30
#define CIRRUS_BLTMODE_PIXELWIDTH8 0x00
#define CIRRUS_BLTMODE_PIXELWIDTH16 0x10
#define CIRRUS_BLTMODE_PIXELWIDTH24 0x20
#define CIRRUS_BLTMODE_PIXELWIDTH32 0x30
// control 0x31
#define CIRRUS_BLT_BUSY 0x01
#define CIRRUS_BLT_START 0x02
#define CIRRUS_BLT_RESET 0x04
#define CIRRUS_BLT_FIFOUSED 0x10
#define CIRRUS_BLT_AUTOSTART 0x80
// control 0x32
#define CIRRUS_ROP_0 0x00
#define CIRRUS_ROP_SRC_AND_DST 0x05
#define CIRRUS_ROP_NOP 0x06
#define CIRRUS_ROP_SRC_AND_NOTDST 0x09
#define CIRRUS_ROP_NOTDST 0x0b
#define CIRRUS_ROP_SRC 0x0d
#define CIRRUS_ROP_1 0x0e
#define CIRRUS_ROP_NOTSRC_AND_DST 0x50
#define CIRRUS_ROP_SRC_XOR_DST 0x59
#define CIRRUS_ROP_SRC_OR_DST 0x6d
#define CIRRUS_ROP_NOTSRC_OR_NOTDST 0x90
#define CIRRUS_ROP_SRC_NOTXOR_DST 0x95
#define CIRRUS_ROP_SRC_OR_NOTDST 0xad
#define CIRRUS_ROP_NOTSRC 0xd0
#define CIRRUS_ROP_NOTSRC_OR_DST 0xd6
#define CIRRUS_ROP_NOTSRC_AND_NOTDST 0xda
#define CIRRUS_ROP_NOP_INDEX 2
#define CIRRUS_ROP_SRC_INDEX 5
// control 0x33
#define CIRRUS_BLTMODEEXT_SOLIDFILL 0x04
#define CIRRUS_BLTMODEEXT_COLOREXPINV 0x02
#define CIRRUS_BLTMODEEXT_DWORDGRANULARITY 0x01
// memory-mapped IO
#define CIRRUS_MMIO_BLTBGCOLOR 0x00 // dword
#define CIRRUS_MMIO_BLTFGCOLOR 0x04 // dword
#define CIRRUS_MMIO_BLTWIDTH 0x08 // word
#define CIRRUS_MMIO_BLTHEIGHT 0x0a // word
#define CIRRUS_MMIO_BLTDESTPITCH 0x0c // word
#define CIRRUS_MMIO_BLTSRCPITCH 0x0e // word
#define CIRRUS_MMIO_BLTDESTADDR 0x10 // dword
#define CIRRUS_MMIO_BLTSRCADDR 0x14 // dword
#define CIRRUS_MMIO_BLTWRITEMASK 0x17 // byte
#define CIRRUS_MMIO_BLTMODE 0x18 // byte
#define CIRRUS_MMIO_BLTROP 0x1a // byte
#define CIRRUS_MMIO_BLTMODEEXT 0x1b // byte
#define CIRRUS_MMIO_BLTTRANSPARENTCOLOR 0x1c // word?
#define CIRRUS_MMIO_BLTTRANSPARENTCOLORMASK 0x20 // word?
#define CIRRUS_MMIO_LINEARDRAW_START_X 0x24 // word
#define CIRRUS_MMIO_LINEARDRAW_START_Y 0x26 // word
#define CIRRUS_MMIO_LINEARDRAW_END_X 0x28 // word
#define CIRRUS_MMIO_LINEARDRAW_END_Y 0x2a // word
#define CIRRUS_MMIO_LINEARDRAW_LINESTYLE_INC 0x2c // byte
#define CIRRUS_MMIO_LINEARDRAW_LINESTYLE_ROLLOVER 0x2d // byte
#define CIRRUS_MMIO_LINEARDRAW_LINESTYLE_MASK 0x2e // byte
#define CIRRUS_MMIO_LINEARDRAW_LINESTYLE_ACCUM 0x2f // byte
#define CIRRUS_MMIO_BRESENHAM_K1 0x30 // word
#define CIRRUS_MMIO_BRESENHAM_K3 0x32 // word
#define CIRRUS_MMIO_BRESENHAM_ERROR 0x34 // word
#define CIRRUS_MMIO_BRESENHAM_DELTA_MAJOR 0x36 // word
#define CIRRUS_MMIO_BRESENHAM_DIRECTION 0x38 // byte
#define CIRRUS_MMIO_LINEDRAW_MODE 0x39 // byte
#define CIRRUS_MMIO_BLTSTATUS 0x40 // byte
#define CIRRUS_PNPMMIO_SIZE 0x1000
typedef void (*cirrus_fill_t)(struct CirrusVGAState *s,
uint32_t dstaddr, int dst_pitch,
int width, int height);
struct PCICirrusVGAState {
PCIDevice dev;
CirrusVGAState cirrus_vga;
};
#define TYPE_PCI_CIRRUS_VGA "cirrus-vga"
OBJECT_DECLARE_SIMPLE_TYPE(PCICirrusVGAState, PCI_CIRRUS_VGA)
static uint8_t rop_to_index[256];
/***************************************
*
* prototypes.
*
***************************************/
static void cirrus_bitblt_reset(CirrusVGAState *s);
static void cirrus_update_memory_access(CirrusVGAState *s);
/***************************************
*
* raster operations
*
***************************************/
static bool blit_region_is_unsafe(struct CirrusVGAState *s,
int32_t pitch, int32_t addr)
{
if (!pitch) {
return true;
}
if (pitch < 0) {
int64_t min = addr
+ ((int64_t)s->cirrus_blt_height - 1) * pitch
- s->cirrus_blt_width;
if (min < -1 || addr >= s->vga.vram_size) {
return true;
}
} else {
int64_t max = addr
+ ((int64_t)s->cirrus_blt_height-1) * pitch
+ s->cirrus_blt_width;
if (max > s->vga.vram_size) {
return true;
}
}
return false;
}
static bool blit_is_unsafe(struct CirrusVGAState *s, bool dst_only)
{
/* should be the case, see cirrus_bitblt_start */
assert(s->cirrus_blt_width > 0);
assert(s->cirrus_blt_height > 0);
if (s->cirrus_blt_width > CIRRUS_BLTBUFSIZE) {
return true;
}
if (blit_region_is_unsafe(s, s->cirrus_blt_dstpitch,
s->cirrus_blt_dstaddr)) {
return true;
}
if (dst_only) {
return false;
}
if (blit_region_is_unsafe(s, s->cirrus_blt_srcpitch,
s->cirrus_blt_srcaddr)) {
return true;
}
return false;
}
static void cirrus_bitblt_rop_nop(CirrusVGAState *s,
uint32_t dstaddr, uint32_t srcaddr,
int dstpitch,int srcpitch,
int bltwidth,int bltheight)
{
}
static void cirrus_bitblt_fill_nop(CirrusVGAState *s,
uint32_t dstaddr,
int dstpitch, int bltwidth,int bltheight)
{
}
static inline uint8_t cirrus_src(CirrusVGAState *s, uint32_t srcaddr)
{
if (s->cirrus_srccounter) {
/* cputovideo */
return s->cirrus_bltbuf[srcaddr & (CIRRUS_BLTBUFSIZE - 1)];
} else {
/* videotovideo */
return s->vga.vram_ptr[srcaddr & s->cirrus_addr_mask];
}
}
static inline uint16_t cirrus_src16(CirrusVGAState *s, uint32_t srcaddr)
{
uint16_t *src;
if (s->cirrus_srccounter) {
/* cputovideo */
src = (void *)&s->cirrus_bltbuf[srcaddr & (CIRRUS_BLTBUFSIZE - 1) & ~1];
} else {
/* videotovideo */
src = (void *)&s->vga.vram_ptr[srcaddr & s->cirrus_addr_mask & ~1];
}
return *src;
}
static inline uint32_t cirrus_src32(CirrusVGAState *s, uint32_t srcaddr)
{
uint32_t *src;
if (s->cirrus_srccounter) {
/* cputovideo */
src = (void *)&s->cirrus_bltbuf[srcaddr & (CIRRUS_BLTBUFSIZE - 1) & ~3];
} else {
/* videotovideo */
src = (void *)&s->vga.vram_ptr[srcaddr & s->cirrus_addr_mask & ~3];
}
return *src;
}
#define ROP_NAME 0
#define ROP_FN(d, s) 0
#include "cirrus_vga_rop.h"
#define ROP_NAME src_and_dst
#define ROP_FN(d, s) (s) & (d)
#include "cirrus_vga_rop.h"
#define ROP_NAME src_and_notdst
#define ROP_FN(d, s) (s) & (~(d))
#include "cirrus_vga_rop.h"
#define ROP_NAME notdst
#define ROP_FN(d, s) ~(d)
#include "cirrus_vga_rop.h"
#define ROP_NAME src
#define ROP_FN(d, s) s
#include "cirrus_vga_rop.h"
#define ROP_NAME 1
#define ROP_FN(d, s) ~0
#include "cirrus_vga_rop.h"
#define ROP_NAME notsrc_and_dst
#define ROP_FN(d, s) (~(s)) & (d)
#include "cirrus_vga_rop.h"
#define ROP_NAME src_xor_dst
#define ROP_FN(d, s) (s) ^ (d)
#include "cirrus_vga_rop.h"
#define ROP_NAME src_or_dst
#define ROP_FN(d, s) (s) | (d)
#include "cirrus_vga_rop.h"
#define ROP_NAME notsrc_or_notdst
#define ROP_FN(d, s) (~(s)) | (~(d))
#include "cirrus_vga_rop.h"
#define ROP_NAME src_notxor_dst
#define ROP_FN(d, s) ~((s) ^ (d))
#include "cirrus_vga_rop.h"
#define ROP_NAME src_or_notdst
#define ROP_FN(d, s) (s) | (~(d))
#include "cirrus_vga_rop.h"
#define ROP_NAME notsrc
#define ROP_FN(d, s) (~(s))
#include "cirrus_vga_rop.h"
#define ROP_NAME notsrc_or_dst
#define ROP_FN(d, s) (~(s)) | (d)
#include "cirrus_vga_rop.h"
#define ROP_NAME notsrc_and_notdst
#define ROP_FN(d, s) (~(s)) & (~(d))
#include "cirrus_vga_rop.h"
static const cirrus_bitblt_rop_t cirrus_fwd_rop[16] = {
cirrus_bitblt_rop_fwd_0,
cirrus_bitblt_rop_fwd_src_and_dst,
cirrus_bitblt_rop_nop,
cirrus_bitblt_rop_fwd_src_and_notdst,
cirrus_bitblt_rop_fwd_notdst,
cirrus_bitblt_rop_fwd_src,
cirrus_bitblt_rop_fwd_1,
cirrus_bitblt_rop_fwd_notsrc_and_dst,
cirrus_bitblt_rop_fwd_src_xor_dst,
cirrus_bitblt_rop_fwd_src_or_dst,
cirrus_bitblt_rop_fwd_notsrc_or_notdst,
cirrus_bitblt_rop_fwd_src_notxor_dst,
cirrus_bitblt_rop_fwd_src_or_notdst,
cirrus_bitblt_rop_fwd_notsrc,
cirrus_bitblt_rop_fwd_notsrc_or_dst,
cirrus_bitblt_rop_fwd_notsrc_and_notdst,
};
static const cirrus_bitblt_rop_t cirrus_bkwd_rop[16] = {
cirrus_bitblt_rop_bkwd_0,
cirrus_bitblt_rop_bkwd_src_and_dst,
cirrus_bitblt_rop_nop,
cirrus_bitblt_rop_bkwd_src_and_notdst,
cirrus_bitblt_rop_bkwd_notdst,
cirrus_bitblt_rop_bkwd_src,
cirrus_bitblt_rop_bkwd_1,
cirrus_bitblt_rop_bkwd_notsrc_and_dst,
cirrus_bitblt_rop_bkwd_src_xor_dst,
cirrus_bitblt_rop_bkwd_src_or_dst,
cirrus_bitblt_rop_bkwd_notsrc_or_notdst,
cirrus_bitblt_rop_bkwd_src_notxor_dst,
cirrus_bitblt_rop_bkwd_src_or_notdst,
cirrus_bitblt_rop_bkwd_notsrc,
cirrus_bitblt_rop_bkwd_notsrc_or_dst,
cirrus_bitblt_rop_bkwd_notsrc_and_notdst,
};
#define TRANSP_ROP(name) {\
name ## _8,\
name ## _16,\
}
#define TRANSP_NOP(func) {\
func,\
func,\
}
static const cirrus_bitblt_rop_t cirrus_fwd_transp_rop[16][2] = {
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_0),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src_and_dst),
TRANSP_NOP(cirrus_bitblt_rop_nop),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src_and_notdst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_notdst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_1),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_notsrc_and_dst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src_xor_dst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src_or_dst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_notsrc_or_notdst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src_notxor_dst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_src_or_notdst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_notsrc),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_notsrc_or_dst),
TRANSP_ROP(cirrus_bitblt_rop_fwd_transp_notsrc_and_notdst),
};
static const cirrus_bitblt_rop_t cirrus_bkwd_transp_rop[16][2] = {
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_0),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src_and_dst),
TRANSP_NOP(cirrus_bitblt_rop_nop),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src_and_notdst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_notdst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_1),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_notsrc_and_dst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src_xor_dst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src_or_dst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_notsrc_or_notdst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src_notxor_dst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_src_or_notdst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_notsrc),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_notsrc_or_dst),
TRANSP_ROP(cirrus_bitblt_rop_bkwd_transp_notsrc_and_notdst),
};
#define ROP2(name) {\
name ## _8,\
name ## _16,\
name ## _24,\
name ## _32,\
}
#define ROP_NOP2(func) {\
func,\
func,\
func,\
func,\
}
static const cirrus_bitblt_rop_t cirrus_patternfill[16][4] = {
ROP2(cirrus_patternfill_0),
ROP2(cirrus_patternfill_src_and_dst),
ROP_NOP2(cirrus_bitblt_rop_nop),
ROP2(cirrus_patternfill_src_and_notdst),
ROP2(cirrus_patternfill_notdst),
ROP2(cirrus_patternfill_src),
ROP2(cirrus_patternfill_1),
ROP2(cirrus_patternfill_notsrc_and_dst),
ROP2(cirrus_patternfill_src_xor_dst),
ROP2(cirrus_patternfill_src_or_dst),
ROP2(cirrus_patternfill_notsrc_or_notdst),
ROP2(cirrus_patternfill_src_notxor_dst),
ROP2(cirrus_patternfill_src_or_notdst),
ROP2(cirrus_patternfill_notsrc),
ROP2(cirrus_patternfill_notsrc_or_dst),
ROP2(cirrus_patternfill_notsrc_and_notdst),
};
static const cirrus_bitblt_rop_t cirrus_colorexpand_transp[16][4] = {
ROP2(cirrus_colorexpand_transp_0),
ROP2(cirrus_colorexpand_transp_src_and_dst),
ROP_NOP2(cirrus_bitblt_rop_nop),
ROP2(cirrus_colorexpand_transp_src_and_notdst),
ROP2(cirrus_colorexpand_transp_notdst),
ROP2(cirrus_colorexpand_transp_src),
ROP2(cirrus_colorexpand_transp_1),
ROP2(cirrus_colorexpand_transp_notsrc_and_dst),
ROP2(cirrus_colorexpand_transp_src_xor_dst),
ROP2(cirrus_colorexpand_transp_src_or_dst),
ROP2(cirrus_colorexpand_transp_notsrc_or_notdst),
ROP2(cirrus_colorexpand_transp_src_notxor_dst),
ROP2(cirrus_colorexpand_transp_src_or_notdst),
ROP2(cirrus_colorexpand_transp_notsrc),
ROP2(cirrus_colorexpand_transp_notsrc_or_dst),
ROP2(cirrus_colorexpand_transp_notsrc_and_notdst),
};
static const cirrus_bitblt_rop_t cirrus_colorexpand[16][4] = {
ROP2(cirrus_colorexpand_0),
ROP2(cirrus_colorexpand_src_and_dst),
ROP_NOP2(cirrus_bitblt_rop_nop),
ROP2(cirrus_colorexpand_src_and_notdst),
ROP2(cirrus_colorexpand_notdst),
ROP2(cirrus_colorexpand_src),
ROP2(cirrus_colorexpand_1),
ROP2(cirrus_colorexpand_notsrc_and_dst),
ROP2(cirrus_colorexpand_src_xor_dst),
ROP2(cirrus_colorexpand_src_or_dst),
ROP2(cirrus_colorexpand_notsrc_or_notdst),
ROP2(cirrus_colorexpand_src_notxor_dst),
ROP2(cirrus_colorexpand_src_or_notdst),
ROP2(cirrus_colorexpand_notsrc),
ROP2(cirrus_colorexpand_notsrc_or_dst),
ROP2(cirrus_colorexpand_notsrc_and_notdst),
};
static const cirrus_bitblt_rop_t cirrus_colorexpand_pattern_transp[16][4] = {
ROP2(cirrus_colorexpand_pattern_transp_0),
ROP2(cirrus_colorexpand_pattern_transp_src_and_dst),
ROP_NOP2(cirrus_bitblt_rop_nop),
ROP2(cirrus_colorexpand_pattern_transp_src_and_notdst),
ROP2(cirrus_colorexpand_pattern_transp_notdst),
ROP2(cirrus_colorexpand_pattern_transp_src),
ROP2(cirrus_colorexpand_pattern_transp_1),
ROP2(cirrus_colorexpand_pattern_transp_notsrc_and_dst),
ROP2(cirrus_colorexpand_pattern_transp_src_xor_dst),
ROP2(cirrus_colorexpand_pattern_transp_src_or_dst),
ROP2(cirrus_colorexpand_pattern_transp_notsrc_or_notdst),
ROP2(cirrus_colorexpand_pattern_transp_src_notxor_dst),
ROP2(cirrus_colorexpand_pattern_transp_src_or_notdst),
ROP2(cirrus_colorexpand_pattern_transp_notsrc),
ROP2(cirrus_colorexpand_pattern_transp_notsrc_or_dst),
ROP2(cirrus_colorexpand_pattern_transp_notsrc_and_notdst),
};
static const cirrus_bitblt_rop_t cirrus_colorexpand_pattern[16][4] = {
ROP2(cirrus_colorexpand_pattern_0),
ROP2(cirrus_colorexpand_pattern_src_and_dst),
ROP_NOP2(cirrus_bitblt_rop_nop),
ROP2(cirrus_colorexpand_pattern_src_and_notdst),
ROP2(cirrus_colorexpand_pattern_notdst),
ROP2(cirrus_colorexpand_pattern_src),
ROP2(cirrus_colorexpand_pattern_1),
ROP2(cirrus_colorexpand_pattern_notsrc_and_dst),
ROP2(cirrus_colorexpand_pattern_src_xor_dst),
ROP2(cirrus_colorexpand_pattern_src_or_dst),
ROP2(cirrus_colorexpand_pattern_notsrc_or_notdst),
ROP2(cirrus_colorexpand_pattern_src_notxor_dst),
ROP2(cirrus_colorexpand_pattern_src_or_notdst),
ROP2(cirrus_colorexpand_pattern_notsrc),
ROP2(cirrus_colorexpand_pattern_notsrc_or_dst),
ROP2(cirrus_colorexpand_pattern_notsrc_and_notdst),
};
static const cirrus_fill_t cirrus_fill[16][4] = {
ROP2(cirrus_fill_0),
ROP2(cirrus_fill_src_and_dst),
ROP_NOP2(cirrus_bitblt_fill_nop),
ROP2(cirrus_fill_src_and_notdst),
ROP2(cirrus_fill_notdst),
ROP2(cirrus_fill_src),
ROP2(cirrus_fill_1),
ROP2(cirrus_fill_notsrc_and_dst),
ROP2(cirrus_fill_src_xor_dst),
ROP2(cirrus_fill_src_or_dst),
ROP2(cirrus_fill_notsrc_or_notdst),
ROP2(cirrus_fill_src_notxor_dst),
ROP2(cirrus_fill_src_or_notdst),
ROP2(cirrus_fill_notsrc),
ROP2(cirrus_fill_notsrc_or_dst),
ROP2(cirrus_fill_notsrc_and_notdst),
};
static inline void cirrus_bitblt_fgcol(CirrusVGAState *s)
{
unsigned int color;
switch (s->cirrus_blt_pixelwidth) {
case 1:
s->cirrus_blt_fgcol = s->cirrus_shadow_gr1;
break;
case 2:
color = s->cirrus_shadow_gr1 | (s->vga.gr[0x11] << 8);
s->cirrus_blt_fgcol = le16_to_cpu(color);
break;
case 3:
s->cirrus_blt_fgcol = s->cirrus_shadow_gr1 |
(s->vga.gr[0x11] << 8) | (s->vga.gr[0x13] << 16);
break;
default:
case 4:
color = s->cirrus_shadow_gr1 | (s->vga.gr[0x11] << 8) |
(s->vga.gr[0x13] << 16) | (s->vga.gr[0x15] << 24);
s->cirrus_blt_fgcol = le32_to_cpu(color);
break;
}
}
static inline void cirrus_bitblt_bgcol(CirrusVGAState *s)
{
unsigned int color;
switch (s->cirrus_blt_pixelwidth) {
case 1:
s->cirrus_blt_bgcol = s->cirrus_shadow_gr0;
break;
case 2:
color = s->cirrus_shadow_gr0 | (s->vga.gr[0x10] << 8);
s->cirrus_blt_bgcol = le16_to_cpu(color);
break;
case 3:
s->cirrus_blt_bgcol = s->cirrus_shadow_gr0 |
(s->vga.gr[0x10] << 8) | (s->vga.gr[0x12] << 16);
break;
default:
case 4:
color = s->cirrus_shadow_gr0 | (s->vga.gr[0x10] << 8) |
(s->vga.gr[0x12] << 16) | (s->vga.gr[0x14] << 24);
s->cirrus_blt_bgcol = le32_to_cpu(color);
break;
}
}
static void cirrus_invalidate_region(CirrusVGAState * s, int off_begin,
int off_pitch, int bytesperline,
int lines)
{
int y;
int off_cur;
int off_cur_end;
if (off_pitch < 0) {
off_begin -= bytesperline - 1;
}
for (y = 0; y < lines; y++) {
off_cur = off_begin & s->cirrus_addr_mask;
off_cur_end = ((off_cur + bytesperline - 1) & s->cirrus_addr_mask) + 1;
if (off_cur_end >= off_cur) {
memory_region_set_dirty(&s->vga.vram, off_cur, off_cur_end - off_cur);
} else {
/* wraparound */
memory_region_set_dirty(&s->vga.vram, off_cur,
s->cirrus_addr_mask + 1 - off_cur);
memory_region_set_dirty(&s->vga.vram, 0, off_cur_end);
}
off_begin += off_pitch;
}
}
static int cirrus_bitblt_common_patterncopy(CirrusVGAState *s)
{
uint32_t patternsize;
bool videosrc = !s->cirrus_srccounter;
if (videosrc) {
switch (s->vga.get_bpp(&s->vga)) {
case 8:
patternsize = 64;
break;
case 15:
case 16:
patternsize = 128;
break;
case 24:
case 32:
default:
patternsize = 256;
break;
}
s->cirrus_blt_srcaddr &= ~(patternsize - 1);
if (s->cirrus_blt_srcaddr + patternsize > s->vga.vram_size) {
return 0;
}
}
if (blit_is_unsafe(s, true)) {
return 0;
}
(*s->cirrus_rop) (s, s->cirrus_blt_dstaddr,
videosrc ? s->cirrus_blt_srcaddr : 0,
s->cirrus_blt_dstpitch, 0,
s->cirrus_blt_width, s->cirrus_blt_height);
cirrus_invalidate_region(s, s->cirrus_blt_dstaddr,
s->cirrus_blt_dstpitch, s->cirrus_blt_width,
s->cirrus_blt_height);
return 1;
}
/* fill */
static int cirrus_bitblt_solidfill(CirrusVGAState *s, int blt_rop)
{
cirrus_fill_t rop_func;
if (blit_is_unsafe(s, true)) {
return 0;
}
rop_func = cirrus_fill[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
rop_func(s, s->cirrus_blt_dstaddr,
s->cirrus_blt_dstpitch,
s->cirrus_blt_width, s->cirrus_blt_height);
cirrus_invalidate_region(s, s->cirrus_blt_dstaddr,
s->cirrus_blt_dstpitch, s->cirrus_blt_width,
s->cirrus_blt_height);
cirrus_bitblt_reset(s);
return 1;
}
/***************************************
*
* bitblt (video-to-video)
*
***************************************/
static int cirrus_bitblt_videotovideo_patterncopy(CirrusVGAState * s)
{
return cirrus_bitblt_common_patterncopy(s);
}
static int cirrus_do_copy(CirrusVGAState *s, int dst, int src, int w, int h)
{
int sx = 0, sy = 0;
int dx = 0, dy = 0;
int depth = 0;
int notify = 0;
/* make sure to only copy if it's a plain copy ROP */
if (*s->cirrus_rop == cirrus_bitblt_rop_fwd_src ||
*s->cirrus_rop == cirrus_bitblt_rop_bkwd_src) {
int width, height;
depth = s->vga.get_bpp(&s->vga) / 8;
if (!depth) {
return 0;
}
s->vga.get_resolution(&s->vga, &width, &height);
/* extra x, y */
sx = (src % ABS(s->cirrus_blt_srcpitch)) / depth;
sy = (src / ABS(s->cirrus_blt_srcpitch));
dx = (dst % ABS(s->cirrus_blt_dstpitch)) / depth;
dy = (dst / ABS(s->cirrus_blt_dstpitch));
/* normalize width */
w /= depth;
/* if we're doing a backward copy, we have to adjust
our x/y to be the upper left corner (instead of the lower
right corner) */
if (s->cirrus_blt_dstpitch < 0) {
sx -= (s->cirrus_blt_width / depth) - 1;
dx -= (s->cirrus_blt_width / depth) - 1;
sy -= s->cirrus_blt_height - 1;
dy -= s->cirrus_blt_height - 1;
}
/* are we in the visible portion of memory? */
if (sx >= 0 && sy >= 0 && dx >= 0 && dy >= 0 &&
(sx + w) <= width && (sy + h) <= height &&
(dx + w) <= width && (dy + h) <= height) {
notify = 1;
}
}
(*s->cirrus_rop) (s, s->cirrus_blt_dstaddr,
s->cirrus_blt_srcaddr,
s->cirrus_blt_dstpitch, s->cirrus_blt_srcpitch,
s->cirrus_blt_width, s->cirrus_blt_height);
if (notify) {
cirrus/vnc: zap bitblit support from console code. There is a special code path (dpy_gfx_copy) to allow graphic emulation notify user interface code about bitblit operations carryed out by guests. It is supported by cirrus and vnc server. The intended purpose is to optimize display scrolls and just send over the scroll op instead of a full display update. This is rarely used these days though because modern guests simply don't use the cirrus blitter any more. Any linux guest using the cirrus drm driver doesn't. Any windows guest newer than winxp doesn't ship with a cirrus driver any more and thus uses the cirrus as simple framebuffer. So this code tends to bitrot and bugs can go unnoticed for a long time. See for example commit "3e10c3e vnc: fix qemu crash because of SIGSEGV" which fixes a bug lingering in the code for almost a year, added by commit "c7628bf vnc: only alloc server surface with clients connected". Also the vnc server will throttle the frame rate in case it figures the network can't keep up (send buffers are full). This doesn't work with dpy_gfx_copy, for any copy operation sent to the vnc client we have to send all outstanding updates beforehand, otherwise the vnc client might run the client side blit on outdated data and thereby corrupt the display. So this dpy_gfx_copy "optimization" might even make things worse on slow network links. Lets kill it once for all. Oh, and one more reason: Turns out (after writing the patch) we have a security bug in that code path ... Fixes: CVE-2016-9603 Signed-off-by: Gerd Hoffmann <kraxel@redhat.com> Message-id: 1489494419-14340-1-git-send-email-kraxel@redhat.com
2017-03-14 15:26:59 +03:00
dpy_gfx_update(s->vga.con, dx, dy,
s->cirrus_blt_width / depth,
s->cirrus_blt_height);
}
/* we don't have to notify the display that this portion has
changed since qemu_console_copy implies this */
cirrus_invalidate_region(s, s->cirrus_blt_dstaddr,
s->cirrus_blt_dstpitch, s->cirrus_blt_width,
s->cirrus_blt_height);
return 1;
}
static int cirrus_bitblt_videotovideo_copy(CirrusVGAState * s)
{
if (blit_is_unsafe(s, false))
return 0;
return cirrus_do_copy(s, s->cirrus_blt_dstaddr - s->vga.start_addr,
s->cirrus_blt_srcaddr - s->vga.start_addr,
DisplayState interface change (Stefano Stabellini) This patch changes the DisplayState interface adding support for multiple frontends at the same time (sdl and vnc) and implements most of the benefit of the shared_buf patch without the added complexity. Currently DisplayState is managed by sdl (or vnc) and sdl (or vnc) is also responsible for allocating the data and setting the depth. Vga.c (or another backend) will do any necessary conversion. The idea is to change it so that is vga.c (or another backend) together with console.c that fully manage the DisplayState interface allocating data and setting the depth (either 16 or 32 bit, if the guest uses a different resolution or is in text mode, vga.c (or another backend) is in charge of doing the conversion seamlessly). The other idea is that DisplayState supports *multiple* frontends like sdl and vnc; each of them can register some callbacks to be called when a display event occurs. The interesting changes are: - the new structures and related functions in console.h and console.c in particular the following functions are very helpful to manage a DisplaySurface: qemu_create_displaysurface qemu_resize_displaysurface qemu_create_displaysurface_from qemu_free_displaysurface - console_select and qemu_console_resize in console.c this two functions manage multiple consoles on a single host display - moving code around in hw/vga.c as for the shared_buf patch this is necessary to be able to handle a dynamic DisplaySurface bpp - changes to vga_draw_graphic in hw/vga.c this is the place where the DisplaySurface buffer is shared with the videoram, when possible; Compared to the last version the only changes are: - do not remove support to dpy_copy in cirrus_vga - change the name of the displaysurface handling functions Signed-off-by: Stefano Stabellini <stefano.stabellini@eu.citrix.com> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com> git-svn-id: svn://svn.savannah.nongnu.org/qemu/trunk@6336 c046a42c-6fe2-441c-8c8c-71466251a162
2009-01-16 01:14:11 +03:00
s->cirrus_blt_width, s->cirrus_blt_height);
}
/***************************************
*
* bitblt (cpu-to-video)
*
***************************************/
static void cirrus_bitblt_cputovideo_next(CirrusVGAState * s)
{
int copy_count;
uint8_t *end_ptr;
if (s->cirrus_srccounter > 0) {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_PATTERNCOPY) {
cirrus_bitblt_common_patterncopy(s);
the_end:
s->cirrus_srccounter = 0;
cirrus_bitblt_reset(s);
} else {
/* at least one scan line */
do {
(*s->cirrus_rop)(s, s->cirrus_blt_dstaddr,
0, 0, 0, s->cirrus_blt_width, 1);
cirrus_invalidate_region(s, s->cirrus_blt_dstaddr, 0,
s->cirrus_blt_width, 1);
s->cirrus_blt_dstaddr += s->cirrus_blt_dstpitch;
s->cirrus_srccounter -= s->cirrus_blt_srcpitch;
if (s->cirrus_srccounter <= 0)
goto the_end;
/* more bytes than needed can be transferred because of
word alignment, so we keep them for the next line */
/* XXX: keep alignment to speed up transfer */
end_ptr = s->cirrus_bltbuf + s->cirrus_blt_srcpitch;
copy_count = MIN(s->cirrus_srcptr_end - end_ptr, CIRRUS_BLTBUFSIZE);
memmove(s->cirrus_bltbuf, end_ptr, copy_count);
s->cirrus_srcptr = s->cirrus_bltbuf + copy_count;
s->cirrus_srcptr_end = s->cirrus_bltbuf + s->cirrus_blt_srcpitch;
} while (s->cirrus_srcptr >= s->cirrus_srcptr_end);
}
}
}
/***************************************
*
* bitblt wrapper
*
***************************************/
static void cirrus_bitblt_reset(CirrusVGAState * s)
{
int need_update;
s->vga.gr[0x31] &=
~(CIRRUS_BLT_START | CIRRUS_BLT_BUSY | CIRRUS_BLT_FIFOUSED);
need_update = s->cirrus_srcptr != &s->cirrus_bltbuf[0]
|| s->cirrus_srcptr_end != &s->cirrus_bltbuf[0];
s->cirrus_srcptr = &s->cirrus_bltbuf[0];
s->cirrus_srcptr_end = &s->cirrus_bltbuf[0];
s->cirrus_srccounter = 0;
if (!need_update)
return;
cirrus_update_memory_access(s);
}
static int cirrus_bitblt_cputovideo(CirrusVGAState * s)
{
int w;
if (blit_is_unsafe(s, true)) {
return 0;
}
s->cirrus_blt_mode &= ~CIRRUS_BLTMODE_MEMSYSSRC;
s->cirrus_srcptr = &s->cirrus_bltbuf[0];
s->cirrus_srcptr_end = &s->cirrus_bltbuf[0];
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_PATTERNCOPY) {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_COLOREXPAND) {
s->cirrus_blt_srcpitch = 8;
} else {
/* XXX: check for 24 bpp */
s->cirrus_blt_srcpitch = 8 * 8 * s->cirrus_blt_pixelwidth;
}
s->cirrus_srccounter = s->cirrus_blt_srcpitch;
} else {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_COLOREXPAND) {
w = s->cirrus_blt_width / s->cirrus_blt_pixelwidth;
if (s->cirrus_blt_modeext & CIRRUS_BLTMODEEXT_DWORDGRANULARITY)
s->cirrus_blt_srcpitch = ((w + 31) >> 5);
else
s->cirrus_blt_srcpitch = ((w + 7) >> 3);
} else {
/* always align input size to 32 bits */
s->cirrus_blt_srcpitch = (s->cirrus_blt_width + 3) & ~3;
}
s->cirrus_srccounter = s->cirrus_blt_srcpitch * s->cirrus_blt_height;
}
/* the blit_is_unsafe call above should catch this */
assert(s->cirrus_blt_srcpitch <= CIRRUS_BLTBUFSIZE);
s->cirrus_srcptr = s->cirrus_bltbuf;
s->cirrus_srcptr_end = s->cirrus_bltbuf + s->cirrus_blt_srcpitch;
cirrus_update_memory_access(s);
return 1;
}
static int cirrus_bitblt_videotocpu(CirrusVGAState * s)
{
/* XXX */
qemu_log_mask(LOG_UNIMP,
"cirrus: bitblt (video to cpu) is not implemented\n");
return 0;
}
static int cirrus_bitblt_videotovideo(CirrusVGAState * s)
{
int ret;
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_PATTERNCOPY) {
ret = cirrus_bitblt_videotovideo_patterncopy(s);
} else {
ret = cirrus_bitblt_videotovideo_copy(s);
}
if (ret)
cirrus_bitblt_reset(s);
return ret;
}
static void cirrus_bitblt_start(CirrusVGAState * s)
{
uint8_t blt_rop;
if (!s->enable_blitter) {
goto bitblt_ignore;
}
s->vga.gr[0x31] |= CIRRUS_BLT_BUSY;
s->cirrus_blt_width = (s->vga.gr[0x20] | (s->vga.gr[0x21] << 8)) + 1;
s->cirrus_blt_height = (s->vga.gr[0x22] | (s->vga.gr[0x23] << 8)) + 1;
s->cirrus_blt_dstpitch = (s->vga.gr[0x24] | (s->vga.gr[0x25] << 8));
s->cirrus_blt_srcpitch = (s->vga.gr[0x26] | (s->vga.gr[0x27] << 8));
s->cirrus_blt_dstaddr =
(s->vga.gr[0x28] | (s->vga.gr[0x29] << 8) | (s->vga.gr[0x2a] << 16));
s->cirrus_blt_srcaddr =
(s->vga.gr[0x2c] | (s->vga.gr[0x2d] << 8) | (s->vga.gr[0x2e] << 16));
s->cirrus_blt_mode = s->vga.gr[0x30];
s->cirrus_blt_modeext = s->vga.gr[0x33];
blt_rop = s->vga.gr[0x32];
s->cirrus_blt_dstaddr &= s->cirrus_addr_mask;
s->cirrus_blt_srcaddr &= s->cirrus_addr_mask;
trace_vga_cirrus_bitblt_start(blt_rop,
s->cirrus_blt_mode,
s->cirrus_blt_modeext,
s->cirrus_blt_width,
s->cirrus_blt_height,
s->cirrus_blt_dstpitch,
s->cirrus_blt_srcpitch,
s->cirrus_blt_dstaddr,
s->cirrus_blt_srcaddr,
s->vga.gr[0x2f]);
switch (s->cirrus_blt_mode & CIRRUS_BLTMODE_PIXELWIDTHMASK) {
case CIRRUS_BLTMODE_PIXELWIDTH8:
s->cirrus_blt_pixelwidth = 1;
break;
case CIRRUS_BLTMODE_PIXELWIDTH16:
s->cirrus_blt_pixelwidth = 2;
break;
case CIRRUS_BLTMODE_PIXELWIDTH24:
s->cirrus_blt_pixelwidth = 3;
break;
case CIRRUS_BLTMODE_PIXELWIDTH32:
s->cirrus_blt_pixelwidth = 4;
break;
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: bitblt - pixel width is unknown\n");
goto bitblt_ignore;
}
s->cirrus_blt_mode &= ~CIRRUS_BLTMODE_PIXELWIDTHMASK;
if ((s->
cirrus_blt_mode & (CIRRUS_BLTMODE_MEMSYSSRC |
CIRRUS_BLTMODE_MEMSYSDEST))
== (CIRRUS_BLTMODE_MEMSYSSRC | CIRRUS_BLTMODE_MEMSYSDEST)) {
qemu_log_mask(LOG_UNIMP,
"cirrus: bitblt - memory-to-memory copy requested\n");
goto bitblt_ignore;
}
if ((s->cirrus_blt_modeext & CIRRUS_BLTMODEEXT_SOLIDFILL) &&
(s->cirrus_blt_mode & (CIRRUS_BLTMODE_MEMSYSDEST |
CIRRUS_BLTMODE_TRANSPARENTCOMP |
CIRRUS_BLTMODE_PATTERNCOPY |
CIRRUS_BLTMODE_COLOREXPAND)) ==
(CIRRUS_BLTMODE_PATTERNCOPY | CIRRUS_BLTMODE_COLOREXPAND)) {
cirrus_bitblt_fgcol(s);
cirrus_bitblt_solidfill(s, blt_rop);
} else {
if ((s->cirrus_blt_mode & (CIRRUS_BLTMODE_COLOREXPAND |
CIRRUS_BLTMODE_PATTERNCOPY)) ==
CIRRUS_BLTMODE_COLOREXPAND) {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_TRANSPARENTCOMP) {
if (s->cirrus_blt_modeext & CIRRUS_BLTMODEEXT_COLOREXPINV)
cirrus_bitblt_bgcol(s);
else
cirrus_bitblt_fgcol(s);
s->cirrus_rop = cirrus_colorexpand_transp[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
} else {
cirrus_bitblt_fgcol(s);
cirrus_bitblt_bgcol(s);
s->cirrus_rop = cirrus_colorexpand[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
}
} else if (s->cirrus_blt_mode & CIRRUS_BLTMODE_PATTERNCOPY) {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_COLOREXPAND) {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_TRANSPARENTCOMP) {
if (s->cirrus_blt_modeext & CIRRUS_BLTMODEEXT_COLOREXPINV)
cirrus_bitblt_bgcol(s);
else
cirrus_bitblt_fgcol(s);
s->cirrus_rop = cirrus_colorexpand_pattern_transp[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
} else {
cirrus_bitblt_fgcol(s);
cirrus_bitblt_bgcol(s);
s->cirrus_rop = cirrus_colorexpand_pattern[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
}
} else {
s->cirrus_rop = cirrus_patternfill[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
}
} else {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_TRANSPARENTCOMP) {
if (s->cirrus_blt_pixelwidth > 2) {
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: src transparent without colorexpand "
"must be 8bpp or 16bpp\n");
goto bitblt_ignore;
}
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_BACKWARDS) {
s->cirrus_blt_dstpitch = -s->cirrus_blt_dstpitch;
s->cirrus_blt_srcpitch = -s->cirrus_blt_srcpitch;
s->cirrus_rop = cirrus_bkwd_transp_rop[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
} else {
s->cirrus_rop = cirrus_fwd_transp_rop[rop_to_index[blt_rop]][s->cirrus_blt_pixelwidth - 1];
}
} else {
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_BACKWARDS) {
s->cirrus_blt_dstpitch = -s->cirrus_blt_dstpitch;
s->cirrus_blt_srcpitch = -s->cirrus_blt_srcpitch;
s->cirrus_rop = cirrus_bkwd_rop[rop_to_index[blt_rop]];
} else {
s->cirrus_rop = cirrus_fwd_rop[rop_to_index[blt_rop]];
}
}
}
// setup bitblt engine.
if (s->cirrus_blt_mode & CIRRUS_BLTMODE_MEMSYSSRC) {
if (!cirrus_bitblt_cputovideo(s))
goto bitblt_ignore;
} else if (s->cirrus_blt_mode & CIRRUS_BLTMODE_MEMSYSDEST) {
if (!cirrus_bitblt_videotocpu(s))
goto bitblt_ignore;
} else {
if (!cirrus_bitblt_videotovideo(s))
goto bitblt_ignore;
}
}
return;
bitblt_ignore:;
cirrus_bitblt_reset(s);
}
static void cirrus_write_bitblt(CirrusVGAState * s, unsigned reg_value)
{
unsigned old_value;
old_value = s->vga.gr[0x31];
s->vga.gr[0x31] = reg_value;
if (((old_value & CIRRUS_BLT_RESET) != 0) &&
((reg_value & CIRRUS_BLT_RESET) == 0)) {
cirrus_bitblt_reset(s);
} else if (((old_value & CIRRUS_BLT_START) == 0) &&
((reg_value & CIRRUS_BLT_START) != 0)) {
cirrus_bitblt_start(s);
}
}
/***************************************
*
* basic parameters
*
***************************************/
static void cirrus_get_offsets(VGACommonState *s1,
uint32_t *pline_offset,
uint32_t *pstart_addr,
uint32_t *pline_compare)
{
CirrusVGAState * s = container_of(s1, CirrusVGAState, vga);
uint32_t start_addr, line_offset, line_compare;
line_offset = s->vga.cr[0x13]
| ((s->vga.cr[0x1b] & 0x10) << 4);
line_offset <<= 3;
*pline_offset = line_offset;
start_addr = (s->vga.cr[0x0c] << 8)
| s->vga.cr[0x0d]
| ((s->vga.cr[0x1b] & 0x01) << 16)
| ((s->vga.cr[0x1b] & 0x0c) << 15)
| ((s->vga.cr[0x1d] & 0x80) << 12);
*pstart_addr = start_addr;
line_compare = s->vga.cr[0x18] |
((s->vga.cr[0x07] & 0x10) << 4) |
((s->vga.cr[0x09] & 0x40) << 3);
*pline_compare = line_compare;
}
static uint32_t cirrus_get_bpp16_depth(CirrusVGAState * s)
{
uint32_t ret = 16;
switch (s->cirrus_hidden_dac_data & 0xf) {
case 0:
ret = 15;
break; /* Sierra HiColor */
case 1:
ret = 16;
break; /* XGA HiColor */
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: invalid DAC value 0x%x in 16bpp\n",
(s->cirrus_hidden_dac_data & 0xf));
ret = 15; /* XXX */
break;
}
return ret;
}
static int cirrus_get_bpp(VGACommonState *s1)
{
CirrusVGAState * s = container_of(s1, CirrusVGAState, vga);
uint32_t ret = 8;
if ((s->vga.sr[0x07] & 0x01) != 0) {
/* Cirrus SVGA */
switch (s->vga.sr[0x07] & CIRRUS_SR7_BPP_MASK) {
case CIRRUS_SR7_BPP_8:
ret = 8;
break;
case CIRRUS_SR7_BPP_16_DOUBLEVCLK:
ret = cirrus_get_bpp16_depth(s);
break;
case CIRRUS_SR7_BPP_24:
ret = 24;
break;
case CIRRUS_SR7_BPP_16:
ret = cirrus_get_bpp16_depth(s);
break;
case CIRRUS_SR7_BPP_32:
ret = 32;
break;
default:
#ifdef DEBUG_CIRRUS
printf("cirrus: unknown bpp - sr7=%x\n", s->vga.sr[0x7]);
#endif
ret = 8;
break;
}
} else {
/* VGA */
ret = 0;
}
return ret;
}
static void cirrus_get_resolution(VGACommonState *s, int *pwidth, int *pheight)
{
int width, height;
width = (s->cr[0x01] + 1) * 8;
height = s->cr[0x12] |
((s->cr[0x07] & 0x02) << 7) |
((s->cr[0x07] & 0x40) << 3);
height = (height + 1);
/* interlace support */
if (s->cr[0x1a] & 0x01)
height = height * 2;
*pwidth = width;
*pheight = height;
}
/***************************************
*
* bank memory
*
***************************************/
static void cirrus_update_bank_ptr(CirrusVGAState * s, unsigned bank_index)
{
unsigned offset;
unsigned limit;
if ((s->vga.gr[0x0b] & 0x01) != 0) /* dual bank */
offset = s->vga.gr[0x09 + bank_index];
else /* single bank */
offset = s->vga.gr[0x09];
if ((s->vga.gr[0x0b] & 0x20) != 0)
offset <<= 14;
else
offset <<= 12;
if (s->real_vram_size <= offset)
limit = 0;
else
limit = s->real_vram_size - offset;
if (((s->vga.gr[0x0b] & 0x01) == 0) && (bank_index != 0)) {
if (limit > 0x8000) {
offset += 0x8000;
limit -= 0x8000;
} else {
limit = 0;
}
}
if (limit > 0) {
s->cirrus_bank_base[bank_index] = offset;
s->cirrus_bank_limit[bank_index] = limit;
} else {
s->cirrus_bank_base[bank_index] = 0;
s->cirrus_bank_limit[bank_index] = 0;
}
}
/***************************************
*
* I/O access between 0x3c4-0x3c5
*
***************************************/
static int cirrus_vga_read_sr(CirrusVGAState * s)
{
switch (s->vga.sr_index) {
case 0x00: // Standard VGA
case 0x01: // Standard VGA
case 0x02: // Standard VGA
case 0x03: // Standard VGA
case 0x04: // Standard VGA
return s->vga.sr[s->vga.sr_index];
case 0x06: // Unlock Cirrus extensions
return s->vga.sr[s->vga.sr_index];
case 0x10:
case 0x30:
case 0x50:
case 0x70: // Graphics Cursor X
case 0x90:
case 0xb0:
case 0xd0:
case 0xf0: // Graphics Cursor X
return s->vga.sr[0x10];
case 0x11:
case 0x31:
case 0x51:
case 0x71: // Graphics Cursor Y
case 0x91:
case 0xb1:
case 0xd1:
case 0xf1: // Graphics Cursor Y
return s->vga.sr[0x11];
case 0x05: // ???
case 0x07: // Extended Sequencer Mode
case 0x08: // EEPROM Control
case 0x09: // Scratch Register 0
case 0x0a: // Scratch Register 1
case 0x0b: // VCLK 0
case 0x0c: // VCLK 1
case 0x0d: // VCLK 2
case 0x0e: // VCLK 3
case 0x0f: // DRAM Control
case 0x12: // Graphics Cursor Attribute
case 0x13: // Graphics Cursor Pattern Address
case 0x14: // Scratch Register 2
case 0x15: // Scratch Register 3
case 0x16: // Performance Tuning Register
case 0x17: // Configuration Readback and Extended Control
case 0x18: // Signature Generator Control
case 0x19: // Signal Generator Result
case 0x1a: // Signal Generator Result
case 0x1b: // VCLK 0 Denominator & Post
case 0x1c: // VCLK 1 Denominator & Post
case 0x1d: // VCLK 2 Denominator & Post
case 0x1e: // VCLK 3 Denominator & Post
case 0x1f: // BIOS Write Enable and MCLK select
#ifdef DEBUG_CIRRUS
printf("cirrus: handled inport sr_index %02x\n", s->vga.sr_index);
#endif
return s->vga.sr[s->vga.sr_index];
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: inport sr_index 0x%02x\n", s->vga.sr_index);
return 0xff;
}
}
static void cirrus_vga_write_sr(CirrusVGAState * s, uint32_t val)
{
switch (s->vga.sr_index) {
case 0x00: // Standard VGA
case 0x01: // Standard VGA
case 0x02: // Standard VGA
case 0x03: // Standard VGA
case 0x04: // Standard VGA
s->vga.sr[s->vga.sr_index] = val & sr_mask[s->vga.sr_index];
if (s->vga.sr_index == 1)
s->vga.update_retrace_info(&s->vga);
break;
case 0x06: // Unlock Cirrus extensions
val &= 0x17;
if (val == 0x12) {
s->vga.sr[s->vga.sr_index] = 0x12;
} else {
s->vga.sr[s->vga.sr_index] = 0x0f;
}
break;
case 0x10:
case 0x30:
case 0x50:
case 0x70: // Graphics Cursor X
case 0x90:
case 0xb0:
case 0xd0:
case 0xf0: // Graphics Cursor X
s->vga.sr[0x10] = val;
2014-10-16 12:22:23 +04:00
s->vga.hw_cursor_x = (val << 3) | (s->vga.sr_index >> 5);
break;
case 0x11:
case 0x31:
case 0x51:
case 0x71: // Graphics Cursor Y
case 0x91:
case 0xb1:
case 0xd1:
case 0xf1: // Graphics Cursor Y
s->vga.sr[0x11] = val;
2014-10-16 12:22:23 +04:00
s->vga.hw_cursor_y = (val << 3) | (s->vga.sr_index >> 5);
break;
case 0x07: // Extended Sequencer Mode
cirrus_update_memory_access(s);
/* fall through */
case 0x08: // EEPROM Control
case 0x09: // Scratch Register 0
case 0x0a: // Scratch Register 1
case 0x0b: // VCLK 0
case 0x0c: // VCLK 1
case 0x0d: // VCLK 2
case 0x0e: // VCLK 3
case 0x0f: // DRAM Control
case 0x13: // Graphics Cursor Pattern Address
case 0x14: // Scratch Register 2
case 0x15: // Scratch Register 3
case 0x16: // Performance Tuning Register
case 0x18: // Signature Generator Control
case 0x19: // Signature Generator Result
case 0x1a: // Signature Generator Result
case 0x1b: // VCLK 0 Denominator & Post
case 0x1c: // VCLK 1 Denominator & Post
case 0x1d: // VCLK 2 Denominator & Post
case 0x1e: // VCLK 3 Denominator & Post
case 0x1f: // BIOS Write Enable and MCLK select
s->vga.sr[s->vga.sr_index] = val;
#ifdef DEBUG_CIRRUS
printf("cirrus: handled outport sr_index %02x, sr_value %02x\n",
s->vga.sr_index, val);
#endif
break;
case 0x12: // Graphics Cursor Attribute
s->vga.sr[0x12] = val;
s->vga.force_shadow = !!(val & CIRRUS_CURSOR_SHOW);
#ifdef DEBUG_CIRRUS
printf("cirrus: cursor ctl SR12=%02x (force shadow: %d)\n",
val, s->vga.force_shadow);
#endif
break;
case 0x17: // Configuration Readback and Extended Control
s->vga.sr[s->vga.sr_index] = (s->vga.sr[s->vga.sr_index] & 0x38)
| (val & 0xc7);
cirrus_update_memory_access(s);
break;
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: outport sr_index 0x%02x, sr_value 0x%02x\n",
s->vga.sr_index, val);
break;
}
}
/***************************************
*
* I/O access at 0x3c6
*
***************************************/
static int cirrus_read_hidden_dac(CirrusVGAState * s)
{
if (++s->cirrus_hidden_dac_lockindex == 5) {
s->cirrus_hidden_dac_lockindex = 0;
return s->cirrus_hidden_dac_data;
}
return 0xff;
}
static void cirrus_write_hidden_dac(CirrusVGAState * s, int reg_value)
{
if (s->cirrus_hidden_dac_lockindex == 4) {
s->cirrus_hidden_dac_data = reg_value;
#if defined(DEBUG_CIRRUS)
printf("cirrus: outport hidden DAC, value %02x\n", reg_value);
#endif
}
s->cirrus_hidden_dac_lockindex = 0;
}
/***************************************
*
* I/O access at 0x3c9
*
***************************************/
static int cirrus_vga_read_palette(CirrusVGAState * s)
{
int val;
if ((s->vga.sr[0x12] & CIRRUS_CURSOR_HIDDENPEL)) {
val = s->cirrus_hidden_palette[(s->vga.dac_read_index & 0x0f) * 3 +
s->vga.dac_sub_index];
} else {
val = s->vga.palette[s->vga.dac_read_index * 3 + s->vga.dac_sub_index];
}
if (++s->vga.dac_sub_index == 3) {
s->vga.dac_sub_index = 0;
s->vga.dac_read_index++;
}
return val;
}
static void cirrus_vga_write_palette(CirrusVGAState * s, int reg_value)
{
s->vga.dac_cache[s->vga.dac_sub_index] = reg_value;
if (++s->vga.dac_sub_index == 3) {
if ((s->vga.sr[0x12] & CIRRUS_CURSOR_HIDDENPEL)) {
memcpy(&s->cirrus_hidden_palette[(s->vga.dac_write_index & 0x0f) * 3],
s->vga.dac_cache, 3);
} else {
memcpy(&s->vga.palette[s->vga.dac_write_index * 3], s->vga.dac_cache, 3);
}
/* XXX update cursor */
s->vga.dac_sub_index = 0;
s->vga.dac_write_index++;
}
}
/***************************************
*
* I/O access between 0x3ce-0x3cf
*
***************************************/
static int cirrus_vga_read_gr(CirrusVGAState * s, unsigned reg_index)
{
switch (reg_index) {
case 0x00: // Standard VGA, BGCOLOR 0x000000ff
return s->cirrus_shadow_gr0;
case 0x01: // Standard VGA, FGCOLOR 0x000000ff
return s->cirrus_shadow_gr1;
case 0x02: // Standard VGA
case 0x03: // Standard VGA
case 0x04: // Standard VGA
case 0x06: // Standard VGA
case 0x07: // Standard VGA
case 0x08: // Standard VGA
return s->vga.gr[s->vga.gr_index];
case 0x05: // Standard VGA, Cirrus extended mode
default:
break;
}
if (reg_index < 0x3a) {
return s->vga.gr[reg_index];
} else {
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: inport gr_index 0x%02x\n", reg_index);
return 0xff;
}
}
static void
cirrus_vga_write_gr(CirrusVGAState * s, unsigned reg_index, int reg_value)
{
trace_vga_cirrus_write_gr(reg_index, reg_value);
switch (reg_index) {
case 0x00: // Standard VGA, BGCOLOR 0x000000ff
s->vga.gr[reg_index] = reg_value & gr_mask[reg_index];
s->cirrus_shadow_gr0 = reg_value;
break;
case 0x01: // Standard VGA, FGCOLOR 0x000000ff
s->vga.gr[reg_index] = reg_value & gr_mask[reg_index];
s->cirrus_shadow_gr1 = reg_value;
break;
case 0x02: // Standard VGA
case 0x03: // Standard VGA
case 0x04: // Standard VGA
case 0x06: // Standard VGA
case 0x07: // Standard VGA
case 0x08: // Standard VGA
s->vga.gr[reg_index] = reg_value & gr_mask[reg_index];
break;
case 0x05: // Standard VGA, Cirrus extended mode
s->vga.gr[reg_index] = reg_value & 0x7f;
cirrus_update_memory_access(s);
break;
case 0x09: // bank offset #0
case 0x0A: // bank offset #1
s->vga.gr[reg_index] = reg_value;
cirrus_update_bank_ptr(s, 0);
cirrus_update_bank_ptr(s, 1);
cirrus_update_memory_access(s);
break;
case 0x0B:
s->vga.gr[reg_index] = reg_value;
cirrus_update_bank_ptr(s, 0);
cirrus_update_bank_ptr(s, 1);
cirrus_update_memory_access(s);
break;
case 0x10: // BGCOLOR 0x0000ff00
case 0x11: // FGCOLOR 0x0000ff00
case 0x12: // BGCOLOR 0x00ff0000
case 0x13: // FGCOLOR 0x00ff0000
case 0x14: // BGCOLOR 0xff000000
case 0x15: // FGCOLOR 0xff000000
case 0x20: // BLT WIDTH 0x0000ff
case 0x22: // BLT HEIGHT 0x0000ff
case 0x24: // BLT DEST PITCH 0x0000ff
case 0x26: // BLT SRC PITCH 0x0000ff
case 0x28: // BLT DEST ADDR 0x0000ff
case 0x29: // BLT DEST ADDR 0x00ff00
case 0x2c: // BLT SRC ADDR 0x0000ff
case 0x2d: // BLT SRC ADDR 0x00ff00
case 0x2f: // BLT WRITEMASK
case 0x30: // BLT MODE
case 0x32: // RASTER OP
case 0x33: // BLT MODEEXT
case 0x34: // BLT TRANSPARENT COLOR 0x00ff
case 0x35: // BLT TRANSPARENT COLOR 0xff00
case 0x38: // BLT TRANSPARENT COLOR MASK 0x00ff
case 0x39: // BLT TRANSPARENT COLOR MASK 0xff00
s->vga.gr[reg_index] = reg_value;
break;
case 0x21: // BLT WIDTH 0x001f00
case 0x23: // BLT HEIGHT 0x001f00
case 0x25: // BLT DEST PITCH 0x001f00
case 0x27: // BLT SRC PITCH 0x001f00
s->vga.gr[reg_index] = reg_value & 0x1f;
break;
case 0x2a: // BLT DEST ADDR 0x3f0000
s->vga.gr[reg_index] = reg_value & 0x3f;
/* if auto start mode, starts bit blt now */
if (s->vga.gr[0x31] & CIRRUS_BLT_AUTOSTART) {
cirrus_bitblt_start(s);
}
break;
case 0x2e: // BLT SRC ADDR 0x3f0000
s->vga.gr[reg_index] = reg_value & 0x3f;
break;
case 0x31: // BLT STATUS/START
cirrus_write_bitblt(s, reg_value);
break;
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: outport gr_index 0x%02x, gr_value 0x%02x\n",
reg_index, reg_value);
break;
}
}
/***************************************
*
* I/O access between 0x3d4-0x3d5
*
***************************************/
static int cirrus_vga_read_cr(CirrusVGAState * s, unsigned reg_index)
{
switch (reg_index) {
case 0x00: // Standard VGA
case 0x01: // Standard VGA
case 0x02: // Standard VGA
case 0x03: // Standard VGA
case 0x04: // Standard VGA
case 0x05: // Standard VGA
case 0x06: // Standard VGA
case 0x07: // Standard VGA
case 0x08: // Standard VGA
case 0x09: // Standard VGA
case 0x0a: // Standard VGA
case 0x0b: // Standard VGA
case 0x0c: // Standard VGA
case 0x0d: // Standard VGA
case 0x0e: // Standard VGA
case 0x0f: // Standard VGA
case 0x10: // Standard VGA
case 0x11: // Standard VGA
case 0x12: // Standard VGA
case 0x13: // Standard VGA
case 0x14: // Standard VGA
case 0x15: // Standard VGA
case 0x16: // Standard VGA
case 0x17: // Standard VGA
case 0x18: // Standard VGA
return s->vga.cr[s->vga.cr_index];
case 0x24: // Attribute Controller Toggle Readback (R)
return (s->vga.ar_flip_flop << 7);
case 0x19: // Interlace End
case 0x1a: // Miscellaneous Control
case 0x1b: // Extended Display Control
case 0x1c: // Sync Adjust and Genlock
case 0x1d: // Overlay Extended Control
case 0x22: // Graphics Data Latches Readback (R)
case 0x25: // Part Status
case 0x27: // Part ID (R)
return s->vga.cr[s->vga.cr_index];
case 0x26: // Attribute Controller Index Readback (R)
return s->vga.ar_index & 0x3f;
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: inport cr_index 0x%02x\n", reg_index);
return 0xff;
}
}
static void cirrus_vga_write_cr(CirrusVGAState * s, int reg_value)
{
switch (s->vga.cr_index) {
case 0x00: // Standard VGA
case 0x01: // Standard VGA
case 0x02: // Standard VGA
case 0x03: // Standard VGA
case 0x04: // Standard VGA
case 0x05: // Standard VGA
case 0x06: // Standard VGA
case 0x07: // Standard VGA
case 0x08: // Standard VGA
case 0x09: // Standard VGA
case 0x0a: // Standard VGA
case 0x0b: // Standard VGA
case 0x0c: // Standard VGA
case 0x0d: // Standard VGA
case 0x0e: // Standard VGA
case 0x0f: // Standard VGA
case 0x10: // Standard VGA
case 0x11: // Standard VGA
case 0x12: // Standard VGA
case 0x13: // Standard VGA
case 0x14: // Standard VGA
case 0x15: // Standard VGA
case 0x16: // Standard VGA
case 0x17: // Standard VGA
case 0x18: // Standard VGA
/* handle CR0-7 protection */
if ((s->vga.cr[0x11] & 0x80) && s->vga.cr_index <= 7) {
/* can always write bit 4 of CR7 */
if (s->vga.cr_index == 7)
s->vga.cr[7] = (s->vga.cr[7] & ~0x10) | (reg_value & 0x10);
return;
}
s->vga.cr[s->vga.cr_index] = reg_value;
switch(s->vga.cr_index) {
case 0x00:
case 0x04:
case 0x05:
case 0x06:
case 0x07:
case 0x11:
case 0x17:
s->vga.update_retrace_info(&s->vga);
break;
}
break;
case 0x19: // Interlace End
case 0x1a: // Miscellaneous Control
case 0x1b: // Extended Display Control
case 0x1c: // Sync Adjust and Genlock
case 0x1d: // Overlay Extended Control
s->vga.cr[s->vga.cr_index] = reg_value;
#ifdef DEBUG_CIRRUS
printf("cirrus: handled outport cr_index %02x, cr_value %02x\n",
s->vga.cr_index, reg_value);
#endif
break;
case 0x22: // Graphics Data Latches Readback (R)
case 0x24: // Attribute Controller Toggle Readback (R)
case 0x26: // Attribute Controller Index Readback (R)
case 0x27: // Part ID (R)
break;
case 0x25: // Part Status
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: outport cr_index 0x%02x, cr_value 0x%02x\n",
s->vga.cr_index, reg_value);
break;
}
}
/***************************************
*
* memory-mapped I/O (bitblt)
*
***************************************/
static uint8_t cirrus_mmio_blt_read(CirrusVGAState * s, unsigned address)
{
int value = 0xff;
switch (address) {
case (CIRRUS_MMIO_BLTBGCOLOR + 0):
value = cirrus_vga_read_gr(s, 0x00);
break;
case (CIRRUS_MMIO_BLTBGCOLOR + 1):
value = cirrus_vga_read_gr(s, 0x10);
break;
case (CIRRUS_MMIO_BLTBGCOLOR + 2):
value = cirrus_vga_read_gr(s, 0x12);
break;
case (CIRRUS_MMIO_BLTBGCOLOR + 3):
value = cirrus_vga_read_gr(s, 0x14);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 0):
value = cirrus_vga_read_gr(s, 0x01);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 1):
value = cirrus_vga_read_gr(s, 0x11);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 2):
value = cirrus_vga_read_gr(s, 0x13);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 3):
value = cirrus_vga_read_gr(s, 0x15);
break;
case (CIRRUS_MMIO_BLTWIDTH + 0):
value = cirrus_vga_read_gr(s, 0x20);
break;
case (CIRRUS_MMIO_BLTWIDTH + 1):
value = cirrus_vga_read_gr(s, 0x21);
break;
case (CIRRUS_MMIO_BLTHEIGHT + 0):
value = cirrus_vga_read_gr(s, 0x22);
break;
case (CIRRUS_MMIO_BLTHEIGHT + 1):
value = cirrus_vga_read_gr(s, 0x23);
break;
case (CIRRUS_MMIO_BLTDESTPITCH + 0):
value = cirrus_vga_read_gr(s, 0x24);
break;
case (CIRRUS_MMIO_BLTDESTPITCH + 1):
value = cirrus_vga_read_gr(s, 0x25);
break;
case (CIRRUS_MMIO_BLTSRCPITCH + 0):
value = cirrus_vga_read_gr(s, 0x26);
break;
case (CIRRUS_MMIO_BLTSRCPITCH + 1):
value = cirrus_vga_read_gr(s, 0x27);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 0):
value = cirrus_vga_read_gr(s, 0x28);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 1):
value = cirrus_vga_read_gr(s, 0x29);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 2):
value = cirrus_vga_read_gr(s, 0x2a);
break;
case (CIRRUS_MMIO_BLTSRCADDR + 0):
value = cirrus_vga_read_gr(s, 0x2c);
break;
case (CIRRUS_MMIO_BLTSRCADDR + 1):
value = cirrus_vga_read_gr(s, 0x2d);
break;
case (CIRRUS_MMIO_BLTSRCADDR + 2):
value = cirrus_vga_read_gr(s, 0x2e);
break;
case CIRRUS_MMIO_BLTWRITEMASK:
value = cirrus_vga_read_gr(s, 0x2f);
break;
case CIRRUS_MMIO_BLTMODE:
value = cirrus_vga_read_gr(s, 0x30);
break;
case CIRRUS_MMIO_BLTROP:
value = cirrus_vga_read_gr(s, 0x32);
break;
case CIRRUS_MMIO_BLTMODEEXT:
value = cirrus_vga_read_gr(s, 0x33);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLOR + 0):
value = cirrus_vga_read_gr(s, 0x34);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLOR + 1):
value = cirrus_vga_read_gr(s, 0x35);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLORMASK + 0):
value = cirrus_vga_read_gr(s, 0x38);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLORMASK + 1):
value = cirrus_vga_read_gr(s, 0x39);
break;
case CIRRUS_MMIO_BLTSTATUS:
value = cirrus_vga_read_gr(s, 0x31);
break;
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: mmio read - address 0x%04x\n", address);
break;
}
trace_vga_cirrus_write_blt(address, value);
return (uint8_t) value;
}
static void cirrus_mmio_blt_write(CirrusVGAState * s, unsigned address,
uint8_t value)
{
trace_vga_cirrus_write_blt(address, value);
switch (address) {
case (CIRRUS_MMIO_BLTBGCOLOR + 0):
cirrus_vga_write_gr(s, 0x00, value);
break;
case (CIRRUS_MMIO_BLTBGCOLOR + 1):
cirrus_vga_write_gr(s, 0x10, value);
break;
case (CIRRUS_MMIO_BLTBGCOLOR + 2):
cirrus_vga_write_gr(s, 0x12, value);
break;
case (CIRRUS_MMIO_BLTBGCOLOR + 3):
cirrus_vga_write_gr(s, 0x14, value);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 0):
cirrus_vga_write_gr(s, 0x01, value);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 1):
cirrus_vga_write_gr(s, 0x11, value);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 2):
cirrus_vga_write_gr(s, 0x13, value);
break;
case (CIRRUS_MMIO_BLTFGCOLOR + 3):
cirrus_vga_write_gr(s, 0x15, value);
break;
case (CIRRUS_MMIO_BLTWIDTH + 0):
cirrus_vga_write_gr(s, 0x20, value);
break;
case (CIRRUS_MMIO_BLTWIDTH + 1):
cirrus_vga_write_gr(s, 0x21, value);
break;
case (CIRRUS_MMIO_BLTHEIGHT + 0):
cirrus_vga_write_gr(s, 0x22, value);
break;
case (CIRRUS_MMIO_BLTHEIGHT + 1):
cirrus_vga_write_gr(s, 0x23, value);
break;
case (CIRRUS_MMIO_BLTDESTPITCH + 0):
cirrus_vga_write_gr(s, 0x24, value);
break;
case (CIRRUS_MMIO_BLTDESTPITCH + 1):
cirrus_vga_write_gr(s, 0x25, value);
break;
case (CIRRUS_MMIO_BLTSRCPITCH + 0):
cirrus_vga_write_gr(s, 0x26, value);
break;
case (CIRRUS_MMIO_BLTSRCPITCH + 1):
cirrus_vga_write_gr(s, 0x27, value);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 0):
cirrus_vga_write_gr(s, 0x28, value);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 1):
cirrus_vga_write_gr(s, 0x29, value);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 2):
cirrus_vga_write_gr(s, 0x2a, value);
break;
case (CIRRUS_MMIO_BLTDESTADDR + 3):
/* ignored */
break;
case (CIRRUS_MMIO_BLTSRCADDR + 0):
cirrus_vga_write_gr(s, 0x2c, value);
break;
case (CIRRUS_MMIO_BLTSRCADDR + 1):
cirrus_vga_write_gr(s, 0x2d, value);
break;
case (CIRRUS_MMIO_BLTSRCADDR + 2):
cirrus_vga_write_gr(s, 0x2e, value);
break;
case CIRRUS_MMIO_BLTWRITEMASK:
cirrus_vga_write_gr(s, 0x2f, value);
break;
case CIRRUS_MMIO_BLTMODE:
cirrus_vga_write_gr(s, 0x30, value);
break;
case CIRRUS_MMIO_BLTROP:
cirrus_vga_write_gr(s, 0x32, value);
break;
case CIRRUS_MMIO_BLTMODEEXT:
cirrus_vga_write_gr(s, 0x33, value);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLOR + 0):
cirrus_vga_write_gr(s, 0x34, value);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLOR + 1):
cirrus_vga_write_gr(s, 0x35, value);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLORMASK + 0):
cirrus_vga_write_gr(s, 0x38, value);
break;
case (CIRRUS_MMIO_BLTTRANSPARENTCOLORMASK + 1):
cirrus_vga_write_gr(s, 0x39, value);
break;
case CIRRUS_MMIO_BLTSTATUS:
cirrus_vga_write_gr(s, 0x31, value);
break;
default:
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: mmio write - addr 0x%04x val 0x%02x (ignored)\n",
address, value);
break;
}
}
/***************************************
*
* write mode 4/5
*
***************************************/
static void cirrus_mem_writeb_mode4and5_8bpp(CirrusVGAState * s,
unsigned mode,
unsigned offset,
uint32_t mem_value)
{
int x;
unsigned val = mem_value;
uint8_t *dst;
for (x = 0; x < 8; x++) {
dst = s->vga.vram_ptr + ((offset + x) & s->cirrus_addr_mask);
if (val & 0x80) {
*dst = s->cirrus_shadow_gr1;
} else if (mode == 5) {
*dst = s->cirrus_shadow_gr0;
}
val <<= 1;
}
memory_region_set_dirty(&s->vga.vram, offset, 8);
}
static void cirrus_mem_writeb_mode4and5_16bpp(CirrusVGAState * s,
unsigned mode,
unsigned offset,
uint32_t mem_value)
{
int x;
unsigned val = mem_value;
uint8_t *dst;
for (x = 0; x < 8; x++) {
dst = s->vga.vram_ptr + ((offset + 2 * x) & s->cirrus_addr_mask & ~1);
if (val & 0x80) {
*dst = s->cirrus_shadow_gr1;
*(dst + 1) = s->vga.gr[0x11];
} else if (mode == 5) {
*dst = s->cirrus_shadow_gr0;
*(dst + 1) = s->vga.gr[0x10];
}
val <<= 1;
}
memory_region_set_dirty(&s->vga.vram, offset, 16);
}
/***************************************
*
* memory access between 0xa0000-0xbffff
*
***************************************/
static uint64_t cirrus_vga_mem_read(void *opaque,
hwaddr addr,
uint32_t size)
{
CirrusVGAState *s = opaque;
unsigned bank_index;
unsigned bank_offset;
uint32_t val;
if ((s->vga.sr[0x07] & 0x01) == 0) {
return vga_mem_readb(&s->vga, addr);
}
if (addr < 0x10000) {
/* XXX handle bitblt */
/* video memory */
bank_index = addr >> 15;
bank_offset = addr & 0x7fff;
if (bank_offset < s->cirrus_bank_limit[bank_index]) {
bank_offset += s->cirrus_bank_base[bank_index];
if ((s->vga.gr[0x0B] & 0x14) == 0x14) {
bank_offset <<= 4;
} else if (s->vga.gr[0x0B] & 0x02) {
bank_offset <<= 3;
}
bank_offset &= s->cirrus_addr_mask;
val = *(s->vga.vram_ptr + bank_offset);
} else
val = 0xff;
} else if (addr >= 0x18000 && addr < 0x18100) {
/* memory-mapped I/O */
val = 0xff;
if ((s->vga.sr[0x17] & 0x44) == 0x04) {
val = cirrus_mmio_blt_read(s, addr & 0xff);
}
} else {
val = 0xff;
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: mem_readb 0x" TARGET_FMT_plx "\n", addr);
}
return val;
}
static void cirrus_vga_mem_write(void *opaque,
hwaddr addr,
uint64_t mem_value,
uint32_t size)
{
CirrusVGAState *s = opaque;
unsigned bank_index;
unsigned bank_offset;
unsigned mode;
if ((s->vga.sr[0x07] & 0x01) == 0) {
vga_mem_writeb(&s->vga, addr, mem_value);
return;
}
if (addr < 0x10000) {
if (s->cirrus_srcptr != s->cirrus_srcptr_end) {
/* bitblt */
*s->cirrus_srcptr++ = (uint8_t) mem_value;
if (s->cirrus_srcptr >= s->cirrus_srcptr_end) {
cirrus_bitblt_cputovideo_next(s);
}
} else {
/* video memory */
bank_index = addr >> 15;
bank_offset = addr & 0x7fff;
if (bank_offset < s->cirrus_bank_limit[bank_index]) {
bank_offset += s->cirrus_bank_base[bank_index];
if ((s->vga.gr[0x0B] & 0x14) == 0x14) {
bank_offset <<= 4;
} else if (s->vga.gr[0x0B] & 0x02) {
bank_offset <<= 3;
}
bank_offset &= s->cirrus_addr_mask;
mode = s->vga.gr[0x05] & 0x7;
if (mode < 4 || mode > 5 || ((s->vga.gr[0x0B] & 0x4) == 0)) {
*(s->vga.vram_ptr + bank_offset) = mem_value;
memory_region_set_dirty(&s->vga.vram, bank_offset,
sizeof(mem_value));
} else {
if ((s->vga.gr[0x0B] & 0x14) != 0x14) {
cirrus_mem_writeb_mode4and5_8bpp(s, mode,
bank_offset,
mem_value);
} else {
cirrus_mem_writeb_mode4and5_16bpp(s, mode,
bank_offset,
mem_value);
}
}
}
}
} else if (addr >= 0x18000 && addr < 0x18100) {
/* memory-mapped I/O */
if ((s->vga.sr[0x17] & 0x44) == 0x04) {
cirrus_mmio_blt_write(s, addr & 0xff, mem_value);
}
} else {
qemu_log_mask(LOG_GUEST_ERROR,
"cirrus: mem_writeb 0x" TARGET_FMT_plx " "
"value 0x%02" PRIx64 "\n", addr, mem_value);
}
}
static const MemoryRegionOps cirrus_vga_mem_ops = {
.read = cirrus_vga_mem_read,
.write = cirrus_vga_mem_write,
.endianness = DEVICE_LITTLE_ENDIAN,
.impl = {
.min_access_size = 1,
.max_access_size = 1,
},
};
/***************************************
*
* hardware cursor
*
***************************************/
static inline void invalidate_cursor1(CirrusVGAState *s)
{
if (s->last_hw_cursor_size) {
vga_invalidate_scanlines(&s->vga,
s->last_hw_cursor_y + s->last_hw_cursor_y_start,
s->last_hw_cursor_y + s->last_hw_cursor_y_end);
}
}
static inline void cirrus_cursor_compute_yrange(CirrusVGAState *s)
{
const uint8_t *src;
uint32_t content;
int y, y_min, y_max;
src = s->vga.vram_ptr + s->real_vram_size - 16 * KiB;
if (s->vga.sr[0x12] & CIRRUS_CURSOR_LARGE) {
src += (s->vga.sr[0x13] & 0x3c) * 256;
y_min = 64;
y_max = -1;
for(y = 0; y < 64; y++) {
content = ((uint32_t *)src)[0] |
((uint32_t *)src)[1] |
((uint32_t *)src)[2] |
((uint32_t *)src)[3];
if (content) {
if (y < y_min)
y_min = y;
if (y > y_max)
y_max = y;
}
src += 16;
}
} else {
src += (s->vga.sr[0x13] & 0x3f) * 256;
y_min = 32;
y_max = -1;
for(y = 0; y < 32; y++) {
content = ((uint32_t *)src)[0] |
((uint32_t *)(src + 128))[0];
if (content) {
if (y < y_min)
y_min = y;
if (y > y_max)
y_max = y;
}
src += 4;
}
}
if (y_min > y_max) {
s->last_hw_cursor_y_start = 0;
s->last_hw_cursor_y_end = 0;
} else {
s->last_hw_cursor_y_start = y_min;
s->last_hw_cursor_y_end = y_max + 1;
}
}
/* NOTE: we do not currently handle the cursor bitmap change, so we
update the cursor only if it moves. */
static void cirrus_cursor_invalidate(VGACommonState *s1)
{
CirrusVGAState *s = container_of(s1, CirrusVGAState, vga);
int size;
if (!(s->vga.sr[0x12] & CIRRUS_CURSOR_SHOW)) {
size = 0;
} else {
if (s->vga.sr[0x12] & CIRRUS_CURSOR_LARGE)
size = 64;
else
size = 32;
}
/* invalidate last cursor and new cursor if any change */
if (s->last_hw_cursor_size != size ||
2014-10-16 12:22:23 +04:00
s->last_hw_cursor_x != s->vga.hw_cursor_x ||
s->last_hw_cursor_y != s->vga.hw_cursor_y) {
invalidate_cursor1(s);
s->last_hw_cursor_size = size;
2014-10-16 12:22:23 +04:00
s->last_hw_cursor_x = s->vga.hw_cursor_x;
s->last_hw_cursor_y = s->vga.hw_cursor_y;
/* compute the real cursor min and max y */
cirrus_cursor_compute_yrange(s);
invalidate_cursor1(s);
}
}
static void vga_draw_cursor_line(uint8_t *d1,
const uint8_t *src1,
int poffset, int w,
unsigned int color0,
unsigned int color1,
unsigned int color_xor)
{
const uint8_t *plane0, *plane1;
int x, b0, b1;
uint8_t *d;
d = d1;
plane0 = src1;
plane1 = src1 + poffset;
for (x = 0; x < w; x++) {
b0 = (plane0[x >> 3] >> (7 - (x & 7))) & 1;
b1 = (plane1[x >> 3] >> (7 - (x & 7))) & 1;
switch (b0 | (b1 << 1)) {
case 0:
break;
case 1:
((uint32_t *)d)[0] ^= color_xor;
break;
case 2:
((uint32_t *)d)[0] = color0;
break;
case 3:
((uint32_t *)d)[0] = color1;
break;
}
d += 4;
}
}
static void cirrus_cursor_draw_line(VGACommonState *s1, uint8_t *d1, int scr_y)
{
CirrusVGAState *s = container_of(s1, CirrusVGAState, vga);
int w, h, x1, x2, poffset;
unsigned int color0, color1;
const uint8_t *palette, *src;
uint32_t content;
if (!(s->vga.sr[0x12] & CIRRUS_CURSOR_SHOW))
return;
/* fast test to see if the cursor intersects with the scan line */
if (s->vga.sr[0x12] & CIRRUS_CURSOR_LARGE) {
h = 64;
} else {
h = 32;
}
2014-10-16 12:22:23 +04:00
if (scr_y < s->vga.hw_cursor_y ||
scr_y >= (s->vga.hw_cursor_y + h)) {
return;
2014-10-16 12:22:23 +04:00
}
src = s->vga.vram_ptr + s->real_vram_size - 16 * KiB;
if (s->vga.sr[0x12] & CIRRUS_CURSOR_LARGE) {
src += (s->vga.sr[0x13] & 0x3c) * 256;
2014-10-16 12:22:23 +04:00
src += (scr_y - s->vga.hw_cursor_y) * 16;
poffset = 8;
content = ((uint32_t *)src)[0] |
((uint32_t *)src)[1] |
((uint32_t *)src)[2] |
((uint32_t *)src)[3];
} else {
src += (s->vga.sr[0x13] & 0x3f) * 256;
2014-10-16 12:22:23 +04:00
src += (scr_y - s->vga.hw_cursor_y) * 4;
poffset = 128;
content = ((uint32_t *)src)[0] |
((uint32_t *)(src + 128))[0];
}
/* if nothing to draw, no need to continue */
if (!content)
return;
w = h;
2014-10-16 12:22:23 +04:00
x1 = s->vga.hw_cursor_x;
if (x1 >= s->vga.last_scr_width)
return;
2014-10-16 12:22:23 +04:00
x2 = s->vga.hw_cursor_x + w;
if (x2 > s->vga.last_scr_width)
x2 = s->vga.last_scr_width;
w = x2 - x1;
palette = s->cirrus_hidden_palette;
color0 = rgb_to_pixel32(c6_to_8(palette[0x0 * 3]),
c6_to_8(palette[0x0 * 3 + 1]),
c6_to_8(palette[0x0 * 3 + 2]));
color1 = rgb_to_pixel32(c6_to_8(palette[0xf * 3]),
c6_to_8(palette[0xf * 3 + 1]),
c6_to_8(palette[0xf * 3 + 2]));
d1 += x1 * 4;
vga_draw_cursor_line(d1, src, poffset, w, color0, color1, 0xffffff);
}
/***************************************
*
* LFB memory access
*
***************************************/
static uint64_t cirrus_linear_read(void *opaque, hwaddr addr,
unsigned size)
{
CirrusVGAState *s = opaque;
uint32_t ret;
addr &= s->cirrus_addr_mask;
if (((s->vga.sr[0x17] & 0x44) == 0x44) &&
((addr & s->linear_mmio_mask) == s->linear_mmio_mask)) {
/* memory-mapped I/O */
ret = cirrus_mmio_blt_read(s, addr & 0xff);
} else if (0) {
/* XXX handle bitblt */
ret = 0xff;
} else {
/* video memory */
if ((s->vga.gr[0x0B] & 0x14) == 0x14) {
addr <<= 4;
} else if (s->vga.gr[0x0B] & 0x02) {
addr <<= 3;
}
addr &= s->cirrus_addr_mask;
ret = *(s->vga.vram_ptr + addr);
}
return ret;
}
static void cirrus_linear_write(void *opaque, hwaddr addr,
uint64_t val, unsigned size)
{
CirrusVGAState *s = opaque;
unsigned mode;
addr &= s->cirrus_addr_mask;
if (((s->vga.sr[0x17] & 0x44) == 0x44) &&
((addr & s->linear_mmio_mask) == s->linear_mmio_mask)) {
/* memory-mapped I/O */
cirrus_mmio_blt_write(s, addr & 0xff, val);
} else if (s->cirrus_srcptr != s->cirrus_srcptr_end) {
/* bitblt */
*s->cirrus_srcptr++ = (uint8_t) val;
if (s->cirrus_srcptr >= s->cirrus_srcptr_end) {
cirrus_bitblt_cputovideo_next(s);
}
} else {
/* video memory */
if ((s->vga.gr[0x0B] & 0x14) == 0x14) {
addr <<= 4;
} else if (s->vga.gr[0x0B] & 0x02) {
addr <<= 3;
}
addr &= s->cirrus_addr_mask;
mode = s->vga.gr[0x05] & 0x7;
if (mode < 4 || mode > 5 || ((s->vga.gr[0x0B] & 0x4) == 0)) {
*(s->vga.vram_ptr + addr) = (uint8_t) val;
memory_region_set_dirty(&s->vga.vram, addr, 1);
} else {
if ((s->vga.gr[0x0B] & 0x14) != 0x14) {
cirrus_mem_writeb_mode4and5_8bpp(s, mode, addr, val);
} else {
cirrus_mem_writeb_mode4and5_16bpp(s, mode, addr, val);
}
}
}
}
/***************************************
*
* system to screen memory access
*
***************************************/
static uint64_t cirrus_linear_bitblt_read(void *opaque,
hwaddr addr,
unsigned size)
{
CirrusVGAState *s = opaque;
/* XXX handle bitblt */
(void)s;
qemu_log_mask(LOG_UNIMP,
"cirrus: linear bitblt is not implemented\n");
return 0xff;
}
static void cirrus_linear_bitblt_write(void *opaque,
hwaddr addr,
uint64_t val,
unsigned size)
{
CirrusVGAState *s = opaque;
if (s->cirrus_srcptr != s->cirrus_srcptr_end) {
/* bitblt */
*s->cirrus_srcptr++ = (uint8_t) val;
if (s->cirrus_srcptr >= s->cirrus_srcptr_end) {
cirrus_bitblt_cputovideo_next(s);
}
}
}
static const MemoryRegionOps cirrus_linear_bitblt_io_ops = {
.read = cirrus_linear_bitblt_read,
.write = cirrus_linear_bitblt_write,
.endianness = DEVICE_LITTLE_ENDIAN,
.impl = {
.min_access_size = 1,
.max_access_size = 1,
},
};
static void map_linear_vram_bank(CirrusVGAState *s, unsigned bank)
{
MemoryRegion *mr = &s->cirrus_bank[bank];
bool enabled = !(s->cirrus_srcptr != s->cirrus_srcptr_end)
&& !((s->vga.sr[0x07] & 0x01) == 0)
&& !((s->vga.gr[0x0B] & 0x14) == 0x14)
&& !(s->vga.gr[0x0B] & 0x02);
memory_region_set_enabled(mr, enabled);
memory_region_set_alias_offset(mr, s->cirrus_bank_base[bank]);
}
static void map_linear_vram(CirrusVGAState *s)
{
if (s->bustype == CIRRUS_BUSTYPE_PCI && !s->linear_vram) {
s->linear_vram = true;
memory_region_add_subregion_overlap(&s->pci_bar, 0, &s->vga.vram, 1);
}
map_linear_vram_bank(s, 0);
map_linear_vram_bank(s, 1);
}
static void unmap_linear_vram(CirrusVGAState *s)
{
if (s->bustype == CIRRUS_BUSTYPE_PCI && s->linear_vram) {
s->linear_vram = false;
memory_region_del_subregion(&s->pci_bar, &s->vga.vram);
}
memory_region_set_enabled(&s->cirrus_bank[0], false);
memory_region_set_enabled(&s->cirrus_bank[1], false);
}
/* Compute the memory access functions */
static void cirrus_update_memory_access(CirrusVGAState *s)
{
unsigned mode;
memory_region_transaction_begin();
if ((s->vga.sr[0x17] & 0x44) == 0x44) {
goto generic_io;
} else if (s->cirrus_srcptr != s->cirrus_srcptr_end) {
goto generic_io;
} else {
if ((s->vga.gr[0x0B] & 0x14) == 0x14) {
goto generic_io;
} else if (s->vga.gr[0x0B] & 0x02) {
goto generic_io;
}
mode = s->vga.gr[0x05] & 0x7;
if (mode < 4 || mode > 5 || ((s->vga.gr[0x0B] & 0x4) == 0)) {
map_linear_vram(s);
} else {
generic_io:
unmap_linear_vram(s);
}
}
memory_region_transaction_commit();
}
/* I/O ports */
static uint64_t cirrus_vga_ioport_read(void *opaque, hwaddr addr,
unsigned size)
{
CirrusVGAState *c = opaque;
VGACommonState *s = &c->vga;
int val, index;
addr += 0x3b0;
if (vga_ioport_invalid(s, addr)) {
val = 0xff;
} else {
switch (addr) {
case 0x3c0:
if (s->ar_flip_flop == 0) {
val = s->ar_index;
} else {
val = 0;
}
break;
case 0x3c1:
index = s->ar_index & 0x1f;
if (index < 21)
val = s->ar[index];
else
val = 0;
break;
case 0x3c2:
val = s->st00;
break;
case 0x3c4:
val = s->sr_index;
break;
case 0x3c5:
val = cirrus_vga_read_sr(c);
break;
break;
case 0x3c6:
val = cirrus_read_hidden_dac(c);
break;
case 0x3c7:
val = s->dac_state;
break;
case 0x3c8:
val = s->dac_write_index;
c->cirrus_hidden_dac_lockindex = 0;
break;
case 0x3c9:
val = cirrus_vga_read_palette(c);
break;
case 0x3ca:
val = s->fcr;
break;
case 0x3cc:
val = s->msr;
break;
case 0x3ce:
val = s->gr_index;
break;
case 0x3cf:
val = cirrus_vga_read_gr(c, s->gr_index);
break;
case 0x3b4:
case 0x3d4:
val = s->cr_index;
break;
case 0x3b5:
case 0x3d5:
val = cirrus_vga_read_cr(c, s->cr_index);
break;
case 0x3ba:
case 0x3da:
/* just toggle to fool polling */
val = s->st01 = s->retrace(s);
s->ar_flip_flop = 0;
break;
default:
val = 0x00;
break;
}
}
trace_vga_cirrus_read_io(addr, val);
return val;
}
static void cirrus_vga_ioport_write(void *opaque, hwaddr addr, uint64_t val,
unsigned size)
{
CirrusVGAState *c = opaque;
VGACommonState *s = &c->vga;
int index;
addr += 0x3b0;
/* check port range access depending on color/monochrome mode */
if (vga_ioport_invalid(s, addr)) {
return;
}
trace_vga_cirrus_write_io(addr, val);
switch (addr) {
case 0x3c0:
if (s->ar_flip_flop == 0) {
val &= 0x3f;
s->ar_index = val;
} else {
index = s->ar_index & 0x1f;
switch (index) {
case 0x00 ... 0x0f:
s->ar[index] = val & 0x3f;
break;
case 0x10:
s->ar[index] = val & ~0x10;
break;
case 0x11:
s->ar[index] = val;
break;
case 0x12:
s->ar[index] = val & ~0xc0;
break;
case 0x13:
s->ar[index] = val & ~0xf0;
break;
case 0x14:
s->ar[index] = val & ~0xf0;
break;
default:
break;
}
}
s->ar_flip_flop ^= 1;
break;
case 0x3c2:
s->msr = val & ~0x10;
s->update_retrace_info(s);
break;
case 0x3c4:
s->sr_index = val;
break;
case 0x3c5:
cirrus_vga_write_sr(c, val);
break;
case 0x3c6:
cirrus_write_hidden_dac(c, val);
break;
case 0x3c7:
s->dac_read_index = val;
s->dac_sub_index = 0;
s->dac_state = 3;
break;
case 0x3c8:
s->dac_write_index = val;
s->dac_sub_index = 0;
s->dac_state = 0;
break;
case 0x3c9:
cirrus_vga_write_palette(c, val);
break;
case 0x3ce:
s->gr_index = val;
break;
case 0x3cf:
cirrus_vga_write_gr(c, s->gr_index, val);
break;
case 0x3b4:
case 0x3d4:
s->cr_index = val;
break;
case 0x3b5:
case 0x3d5:
cirrus_vga_write_cr(c, val);
break;
case 0x3ba:
case 0x3da:
s->fcr = val & 0x10;
break;
}
}
/***************************************
*
* memory-mapped I/O access
*
***************************************/
static uint64_t cirrus_mmio_read(void *opaque, hwaddr addr,
unsigned size)
{
CirrusVGAState *s = opaque;
if (addr >= 0x100) {
return cirrus_mmio_blt_read(s, addr - 0x100);
} else {
return cirrus_vga_ioport_read(s, addr + 0x10, size);
}
}
static void cirrus_mmio_write(void *opaque, hwaddr addr,
uint64_t val, unsigned size)
{
CirrusVGAState *s = opaque;
if (addr >= 0x100) {
cirrus_mmio_blt_write(s, addr - 0x100, val);
} else {
cirrus_vga_ioport_write(s, addr + 0x10, val, size);
}
}
static const MemoryRegionOps cirrus_mmio_io_ops = {
.read = cirrus_mmio_read,
.write = cirrus_mmio_write,
.endianness = DEVICE_LITTLE_ENDIAN,
.impl = {
.min_access_size = 1,
.max_access_size = 1,
},
};
/* load/save state */
static int cirrus_post_load(void *opaque, int version_id)
{
CirrusVGAState *s = opaque;
s->vga.gr[0x00] = s->cirrus_shadow_gr0 & 0x0f;
s->vga.gr[0x01] = s->cirrus_shadow_gr1 & 0x0f;
cirrus_update_bank_ptr(s, 0);
cirrus_update_bank_ptr(s, 1);
cirrus_update_memory_access(s);
/* force refresh */
s->vga.graphic_mode = -1;
return 0;
}
const VMStateDescription vmstate_cirrus_vga = {
.name = "cirrus_vga",
.version_id = 2,
.minimum_version_id = 1,
.post_load = cirrus_post_load,
.fields = (VMStateField[]) {
VMSTATE_UINT32(vga.latch, CirrusVGAState),
VMSTATE_UINT8(vga.sr_index, CirrusVGAState),
VMSTATE_BUFFER(vga.sr, CirrusVGAState),
VMSTATE_UINT8(vga.gr_index, CirrusVGAState),
VMSTATE_UINT8(cirrus_shadow_gr0, CirrusVGAState),
VMSTATE_UINT8(cirrus_shadow_gr1, CirrusVGAState),
VMSTATE_BUFFER_START_MIDDLE(vga.gr, CirrusVGAState, 2),
VMSTATE_UINT8(vga.ar_index, CirrusVGAState),
VMSTATE_BUFFER(vga.ar, CirrusVGAState),
VMSTATE_INT32(vga.ar_flip_flop, CirrusVGAState),
VMSTATE_UINT8(vga.cr_index, CirrusVGAState),
VMSTATE_BUFFER(vga.cr, CirrusVGAState),
VMSTATE_UINT8(vga.msr, CirrusVGAState),
VMSTATE_UINT8(vga.fcr, CirrusVGAState),
VMSTATE_UINT8(vga.st00, CirrusVGAState),
VMSTATE_UINT8(vga.st01, CirrusVGAState),
VMSTATE_UINT8(vga.dac_state, CirrusVGAState),
VMSTATE_UINT8(vga.dac_sub_index, CirrusVGAState),
VMSTATE_UINT8(vga.dac_read_index, CirrusVGAState),
VMSTATE_UINT8(vga.dac_write_index, CirrusVGAState),
VMSTATE_BUFFER(vga.dac_cache, CirrusVGAState),
VMSTATE_BUFFER(vga.palette, CirrusVGAState),
VMSTATE_INT32(vga.bank_offset, CirrusVGAState),
VMSTATE_UINT8(cirrus_hidden_dac_lockindex, CirrusVGAState),
VMSTATE_UINT8(cirrus_hidden_dac_data, CirrusVGAState),
2014-10-16 12:22:23 +04:00
VMSTATE_UINT32(vga.hw_cursor_x, CirrusVGAState),
VMSTATE_UINT32(vga.hw_cursor_y, CirrusVGAState),
/* XXX: we do not save the bitblt state - we assume we do not save
the state when the blitter is active */
VMSTATE_END_OF_LIST()
}
};
static const VMStateDescription vmstate_pci_cirrus_vga = {
.name = "cirrus_vga",
.version_id = 2,
.minimum_version_id = 2,
.fields = (VMStateField[]) {
VMSTATE_PCI_DEVICE(dev, PCICirrusVGAState),
VMSTATE_STRUCT(cirrus_vga, PCICirrusVGAState, 0,
vmstate_cirrus_vga, CirrusVGAState),
VMSTATE_END_OF_LIST()
}
};
/***************************************
*
* initialize
*
***************************************/
static void cirrus_reset(void *opaque)
{
CirrusVGAState *s = opaque;
vga_common_reset(&s->vga);
unmap_linear_vram(s);
s->vga.sr[0x06] = 0x0f;
if (s->device_id == CIRRUS_ID_CLGD5446) {
/* 4MB 64 bit memory config, always PCI */
s->vga.sr[0x1F] = 0x2d; // MemClock
s->vga.gr[0x18] = 0x0f; // fastest memory configuration
s->vga.sr[0x0f] = 0x98;
s->vga.sr[0x17] = 0x20;
s->vga.sr[0x15] = 0x04; /* memory size, 3=2MB, 4=4MB */
} else {
s->vga.sr[0x1F] = 0x22; // MemClock
s->vga.sr[0x0F] = CIRRUS_MEMSIZE_2M;
s->vga.sr[0x17] = s->bustype;
s->vga.sr[0x15] = 0x03; /* memory size, 3=2MB, 4=4MB */
}
s->vga.cr[0x27] = s->device_id;
s->cirrus_hidden_dac_lockindex = 5;
s->cirrus_hidden_dac_data = 0;
}
static const MemoryRegionOps cirrus_linear_io_ops = {
.read = cirrus_linear_read,
.write = cirrus_linear_write,
.endianness = DEVICE_LITTLE_ENDIAN,
.impl = {
.min_access_size = 1,
.max_access_size = 1,
},
};
static const MemoryRegionOps cirrus_vga_io_ops = {
.read = cirrus_vga_ioport_read,
.write = cirrus_vga_ioport_write,
.endianness = DEVICE_LITTLE_ENDIAN,
.impl = {
.min_access_size = 1,
.max_access_size = 1,
},
};
void cirrus_init_common(CirrusVGAState *s, Object *owner,
int device_id, int is_pci,
MemoryRegion *system_memory, MemoryRegion *system_io)
{
int i;
static int inited;
if (!inited) {
inited = 1;
for(i = 0;i < 256; i++)
rop_to_index[i] = CIRRUS_ROP_NOP_INDEX; /* nop rop */
rop_to_index[CIRRUS_ROP_0] = 0;
rop_to_index[CIRRUS_ROP_SRC_AND_DST] = 1;
rop_to_index[CIRRUS_ROP_NOP] = 2;
rop_to_index[CIRRUS_ROP_SRC_AND_NOTDST] = 3;
rop_to_index[CIRRUS_ROP_NOTDST] = 4;
rop_to_index[CIRRUS_ROP_SRC] = 5;
rop_to_index[CIRRUS_ROP_1] = 6;
rop_to_index[CIRRUS_ROP_NOTSRC_AND_DST] = 7;
rop_to_index[CIRRUS_ROP_SRC_XOR_DST] = 8;
rop_to_index[CIRRUS_ROP_SRC_OR_DST] = 9;
rop_to_index[CIRRUS_ROP_NOTSRC_OR_NOTDST] = 10;
rop_to_index[CIRRUS_ROP_SRC_NOTXOR_DST] = 11;
rop_to_index[CIRRUS_ROP_SRC_OR_NOTDST] = 12;
rop_to_index[CIRRUS_ROP_NOTSRC] = 13;
rop_to_index[CIRRUS_ROP_NOTSRC_OR_DST] = 14;
rop_to_index[CIRRUS_ROP_NOTSRC_AND_NOTDST] = 15;
s->device_id = device_id;
if (is_pci)
s->bustype = CIRRUS_BUSTYPE_PCI;
else
s->bustype = CIRRUS_BUSTYPE_ISA;
}
/* Register ioport 0x3b0 - 0x3df */
memory_region_init_io(&s->cirrus_vga_io, owner, &cirrus_vga_io_ops, s,
"cirrus-io", 0x30);
memory_region_set_flush_coalesced(&s->cirrus_vga_io);
memory_region_add_subregion(system_io, 0x3b0, &s->cirrus_vga_io);
memory_region_init(&s->low_mem_container, owner,
"cirrus-lowmem-container",
0x20000);
memory_region_init_io(&s->low_mem, owner, &cirrus_vga_mem_ops, s,
"cirrus-low-memory", 0x20000);
memory_region_add_subregion(&s->low_mem_container, 0, &s->low_mem);
for (i = 0; i < 2; ++i) {
static const char *names[] = { "vga.bank0", "vga.bank1" };
MemoryRegion *bank = &s->cirrus_bank[i];
memory_region_init_alias(bank, owner, names[i], &s->vga.vram,
0, 0x8000);
memory_region_set_enabled(bank, false);
memory_region_add_subregion_overlap(&s->low_mem_container, i * 0x8000,
bank, 1);
}
memory_region_add_subregion_overlap(system_memory,
0x000a0000,
&s->low_mem_container,
1);
memory_region_set_coalescing(&s->low_mem);
/* I/O handler for LFB */
memory_region_init_io(&s->cirrus_linear_io, owner, &cirrus_linear_io_ops, s,
"cirrus-linear-io", s->vga.vram_size_mb * MiB);
memory_region_set_flush_coalesced(&s->cirrus_linear_io);
/* I/O handler for LFB */
memory_region_init_io(&s->cirrus_linear_bitblt_io, owner,
&cirrus_linear_bitblt_io_ops,
s,
"cirrus-bitblt-mmio",
0x400000);
memory_region_set_flush_coalesced(&s->cirrus_linear_bitblt_io);
/* I/O handler for memory-mapped I/O */
memory_region_init_io(&s->cirrus_mmio_io, owner, &cirrus_mmio_io_ops, s,
"cirrus-mmio", CIRRUS_PNPMMIO_SIZE);
memory_region_set_flush_coalesced(&s->cirrus_mmio_io);
s->real_vram_size =
(s->device_id == CIRRUS_ID_CLGD5446) ? 4 * MiB : 2 * MiB;
/* XXX: s->vga.vram_size must be a power of two */
s->cirrus_addr_mask = s->real_vram_size - 1;
s->linear_mmio_mask = s->real_vram_size - 256;
s->vga.get_bpp = cirrus_get_bpp;
s->vga.get_offsets = cirrus_get_offsets;
s->vga.get_resolution = cirrus_get_resolution;
s->vga.cursor_invalidate = cirrus_cursor_invalidate;
s->vga.cursor_draw_line = cirrus_cursor_draw_line;
qemu_register_reset(cirrus_reset, s);
}
/***************************************
*
* PCI bus support
*
***************************************/
static void pci_cirrus_vga_realize(PCIDevice *dev, Error **errp)
{
PCICirrusVGAState *d = PCI_CIRRUS_VGA(dev);
CirrusVGAState *s = &d->cirrus_vga;
PCIDeviceClass *pc = PCI_DEVICE_GET_CLASS(dev);
int16_t device_id = pc->device_id;
/*
* Follow real hardware, cirrus card emulated has 4 MB video memory.
* Also accept 8 MB/16 MB for backward compatibility.
*/
if (s->vga.vram_size_mb != 4 && s->vga.vram_size_mb != 8 &&
s->vga.vram_size_mb != 16) {
error_setg(errp, "Invalid cirrus_vga ram size '%u'",
s->vga.vram_size_mb);
return;
}
/* setup VGA */
if (!vga_common_init(&s->vga, OBJECT(dev), errp)) {
return;
}
cirrus_init_common(s, OBJECT(dev), device_id, 1, pci_address_space(dev),
pci_address_space_io(dev));
s->vga.con = graphic_console_init(DEVICE(dev), 0, s->vga.hw_ops, &s->vga);
/* setup PCI */
memory_region_init(&s->pci_bar, OBJECT(dev), "cirrus-pci-bar0", 0x2000000);
/* XXX: add byte swapping apertures */
memory_region_add_subregion(&s->pci_bar, 0, &s->cirrus_linear_io);
memory_region_add_subregion(&s->pci_bar, 0x1000000,
&s->cirrus_linear_bitblt_io);
/* setup memory space */
/* memory #0 LFB */
/* memory #1 memory-mapped I/O */
/* XXX: s->vga.vram_size must be a power of two */
pci_register_bar(&d->dev, 0, PCI_BASE_ADDRESS_MEM_PREFETCH, &s->pci_bar);
if (device_id == CIRRUS_ID_CLGD5446) {
pci_register_bar(&d->dev, 1, 0, &s->cirrus_mmio_io);
}
}
static Property pci_vga_cirrus_properties[] = {
DEFINE_PROP_UINT32("vgamem_mb", struct PCICirrusVGAState,
cirrus_vga.vga.vram_size_mb, 4),
DEFINE_PROP_BOOL("blitter", struct PCICirrusVGAState,
cirrus_vga.enable_blitter, true),
DEFINE_PROP_BOOL("global-vmstate", struct PCICirrusVGAState,
cirrus_vga.vga.global_vmstate, false),
DEFINE_PROP_END_OF_LIST(),
};
static void cirrus_vga_class_init(ObjectClass *klass, void *data)
{
DeviceClass *dc = DEVICE_CLASS(klass);
PCIDeviceClass *k = PCI_DEVICE_CLASS(klass);
k->realize = pci_cirrus_vga_realize;
k->romfile = VGABIOS_CIRRUS_FILENAME;
k->vendor_id = PCI_VENDOR_ID_CIRRUS;
k->device_id = CIRRUS_ID_CLGD5446;
k->class_id = PCI_CLASS_DISPLAY_VGA;
set_bit(DEVICE_CATEGORY_DISPLAY, dc->categories);
dc->desc = "Cirrus CLGD 54xx VGA";
dc->vmsd = &vmstate_pci_cirrus_vga;
device_class_set_props(dc, pci_vga_cirrus_properties);
dc->hotpluggable = false;
}
static const TypeInfo cirrus_vga_info = {
.name = TYPE_PCI_CIRRUS_VGA,
.parent = TYPE_PCI_DEVICE,
.instance_size = sizeof(PCICirrusVGAState),
.class_init = cirrus_vga_class_init,
pci: Add INTERFACE_CONVENTIONAL_PCI_DEVICE to Conventional PCI devices Add INTERFACE_CONVENTIONAL_PCI_DEVICE to all direct subtypes of TYPE_PCI_DEVICE, except: 1) The ones that already have INTERFACE_PCIE_DEVICE set: * base-xhci * e1000e * nvme * pvscsi * vfio-pci * virtio-pci * vmxnet3 2) base-pci-bridge Not all PCI bridges are Conventional PCI devices, so INTERFACE_CONVENTIONAL_PCI_DEVICE is added only to the subtypes that are actually Conventional PCI: * dec-21154-p2p-bridge * i82801b11-bridge * pbm-bridge * pci-bridge The direct subtypes of base-pci-bridge not touched by this patch are: * xilinx-pcie-root: Already marked as PCIe-only. * pcie-pci-bridge: Already marked as PCIe-only. * pcie-port: all non-abstract subtypes of pcie-port are already marked as PCIe-only devices. 3) megasas-base Not all megasas devices are Conventional PCI devices, so the interface names are added to the subclasses registered by megasas_register_types(), according to information in the megasas_devices[] array. "megasas-gen2" already implements INTERFACE_PCIE_DEVICE, so add INTERFACE_CONVENTIONAL_PCI_DEVICE only to "megasas". Acked-by: Alberto Garcia <berto@igalia.com> Acked-by: John Snow <jsnow@redhat.com> Acked-by: Anthony PERARD <anthony.perard@citrix.com> Signed-off-by: Eduardo Habkost <ehabkost@redhat.com> Reviewed-by: David Gibson <david@gibson.dropbear.id.au> Acked-by: David Gibson <david@gibson.dropbear.id.au> Reviewed-by: Marcel Apfelbaum <marcel@redhat.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
2017-09-27 22:56:34 +03:00
.interfaces = (InterfaceInfo[]) {
{ INTERFACE_CONVENTIONAL_PCI_DEVICE },
{ },
},
};
static void cirrus_vga_register_types(void)
{
type_register_static(&cirrus_vga_info);
}
type_init(cirrus_vga_register_types)