Bochs/bochs/iodev/svga_cirrus.h
Volker Ruppert f06b1bf577 - extended bitblt mode solidfill implemented
- svga_patterncopy() fixed
- svga_pitch change fixed
- forward write to MMIO address 0x13 to graphics controller register 0x2b
2004-08-16 15:23:19 +00:00

265 lines
9.6 KiB
C++

/////////////////////////////////////////////////////////////////////////
// $Id: svga_cirrus.h,v 1.2 2004-08-16 15:23:19 vruppert Exp $
/////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2004 Makoto Suzuki (suzu)
// Volker Ruppert (vruppert)
// Robin Kay (komadori)
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#if BX_SUPPORT_CLGD54XX
#if BX_USE_CIRRUS_SMF
# define BX_CIRRUS_SMF static
# define BX_CIRRUS_THIS theSvga->
# define BX_CIRRUS_THIS_PTR theSvga
#else
# define BX_CIRRUS_SMF
# define BX_CIRRUS_THIS this->
# define BX_CIRRUS_THIS_PTR this
#endif // BX_USE_CIRRUS_SMF
// 0x3b4,0x3d4
#define VGA_CRTC_MAX 0x18
#define CIRRUS_CRTC_MAX 0x27
// 0x3c4
#define VGA_SEQENCER_MAX 0x04
#define CIRRUS_SEQENCER_MAX 0x1f
// 0x3ce
#define VGA_CONTROL_MAX 0x08
#define CIRRUS_CONTROL_MAX 0x39
// Size of internal cache memory for bitblt. (must be >= 256 and 4-byte aligned)
#define CIRRUS_BLT_CACHESIZE (2048 * 4)
#if BX_SUPPORT_PCI && BX_SUPPORT_CLGD54XX_PCI
#define CIRRUS_VIDEO_MEMORY_MB 4
#else
#define CIRRUS_VIDEO_MEMORY_MB 2
#endif
#define CIRRUS_VIDEO_MEMORY_KB (CIRRUS_VIDEO_MEMORY_MB * 1024)
#define CIRRUS_VIDEO_MEMORY_BYTES (CIRRUS_VIDEO_MEMORY_KB * 1024)
typedef void (*bx_cirrus_bitblt_rop_t)(
Bit8u *dst,const Bit8u *src,
int dstpitch,int srcpitch,
int bltwidth,int bltheight);
class bx_svga_cirrus_c : public bx_vga_c {
public:
bx_svga_cirrus_c(void);
~bx_svga_cirrus_c();
virtual void init(void);
virtual void reset(unsigned type);
virtual void redraw_area(unsigned x0, unsigned y0,
unsigned width, unsigned height);
virtual Bit8u mem_read(Bit32u addr);
virtual void mem_write(Bit32u addr, Bit8u value);
virtual void mem_write_mode4and5_8bpp(Bit8u mode, Bit32u offset, Bit8u value);
virtual void mem_write_mode4and5_16bpp(Bit8u mode, Bit32u offset, Bit8u value);
virtual void get_text_snapshot(Bit8u **text_snapshot,
unsigned *txHeight, unsigned *txWidth);
virtual void trigger_timer(void *this_ptr);
virtual void set_update_interval (unsigned interval);
virtual Bit8u get_actl_palette_idx(Bit8u index);
private:
static Bit32u svga_read_handler(void *this_ptr, Bit32u address, unsigned io_len);
static void svga_write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len);
#if !BX_USE_CIRRUS_SMF
Bit32u svga_read(Bit32u address, unsigned io_len);
void svga_write(Bit32u address, Bit32u value, unsigned io_len);
#endif // !BX_USE_CIRRUS_SMF
static void svga_timer_handler(void *);
BX_CIRRUS_SMF void svga_timer(void);
BX_CIRRUS_SMF void svga_modeupdate(void);
BX_CIRRUS_SMF void svga_update(void);
BX_CIRRUS_SMF void svga_init_members();
BX_CIRRUS_SMF void draw_hardware_cursor(unsigned, unsigned, bx_svga_tileinfo_t *);
// bank memory
BX_CIRRUS_SMF void update_bank_ptr(Bit8u bank_index);
// 0x3b4-0x3b5,0x3d4-0x3d5
BX_CIRRUS_SMF Bit8u svga_read_crtc(Bit32u address, unsigned index);
BX_CIRRUS_SMF void svga_write_crtc(Bit32u address, unsigned index, Bit8u value);
// 0x3c4-0x3c5
BX_CIRRUS_SMF Bit8u svga_read_sequencer(Bit32u address, unsigned index);
BX_CIRRUS_SMF void svga_write_sequencer(Bit32u address, unsigned index, Bit8u value);
// 0x3ce-0x3cf
BX_CIRRUS_SMF Bit8u svga_read_control(Bit32u address, unsigned index);
BX_CIRRUS_SMF void svga_write_control(Bit32u address, unsigned index, Bit8u value);
// memory-mapped I/O
BX_CIRRUS_SMF Bit8u svga_mmio_vga_read(Bit32u address);
BX_CIRRUS_SMF void svga_mmio_vga_write(Bit32u address,Bit8u value);
BX_CIRRUS_SMF Bit8u svga_mmio_blt_read(Bit32u address);
BX_CIRRUS_SMF void svga_mmio_blt_write(Bit32u address,Bit8u value);
BX_CIRRUS_SMF void svga_reset_bitblt(void);
BX_CIRRUS_SMF void svga_bitblt();
BX_CIRRUS_SMF void svga_colorexpand(Bit8u *dst,const Bit8u *src,int count,int pixelwidth);
#if BX_USE_CIRRUS_SMF
#define svga_colorexpand_8_static svga_colorexpand_8
#define svga_colorexpand_16_static svga_colorexpand_16
#define svga_colorexpand_24_static svga_colorexpand_24
#define svga_colorexpand_32_static svga_colorexpand_32
#else // BX_USE_CIRRUS_SMF
static void svga_colorexpand_8_static(void *this_ptr,Bit8u *dst,const Bit8u *src,int count);
static void svga_colorexpand_16_static(void *this_ptr,Bit8u *dst,const Bit8u *src,int count);
static void svga_colorexpand_24_static(void *this_ptr,Bit8u *dst,const Bit8u *src,int count);
static void svga_colorexpand_32_static(void *this_ptr,Bit8u *dst,const Bit8u *src,int count);
#endif // BX_USE_CIRRUS_SMF
BX_CIRRUS_SMF void svga_colorexpand_8(Bit8u *dst,const Bit8u *src,int count);
BX_CIRRUS_SMF void svga_colorexpand_16(Bit8u *dst,const Bit8u *src,int count);
BX_CIRRUS_SMF void svga_colorexpand_24(Bit8u *dst,const Bit8u *src,int count);
BX_CIRRUS_SMF void svga_colorexpand_32(Bit8u *dst,const Bit8u *src,int count);
BX_CIRRUS_SMF void svga_setup_bitblt_cputovideo(Bit32u dstaddr,Bit32u srcaddr);
BX_CIRRUS_SMF void svga_setup_bitblt_videotocpu(Bit32u dstaddr,Bit32u srcaddr);
BX_CIRRUS_SMF void svga_setup_bitblt_videotovideo(Bit32u dstaddr,Bit32u srcaddr);
#if !BX_USE_CIRRUS_SMF
static void svga_patterncopy_static(void *this_ptr);
static void svga_simplebitblt_static(void *this_ptr);
static void svga_patterncopy_memsrc_static(void *this_ptr);
static void svga_simplebitblt_memsrc_static(void *this_ptr);
static void svga_simplebitblt_transp_memsrc_static(void *this_ptr);
#else
#define svga_patterncopy_static svga_patterncopy
#define svga_simplebitblt_static svga_simplebitblt
#define svga_patterncopy_memsrc_static svga_patterncopy_memsrc
#define svga_simplebitblt_memsrc_static svga_simplebitblt_memsrc
#define svga_simplebitblt_transp_memsrc_static svga_simplebitblt_transp_memsrc
#endif // !BX_USE_CIRRUS_SMF
BX_CIRRUS_SMF void svga_patterncopy();
BX_CIRRUS_SMF void svga_simplebitblt();
BX_CIRRUS_SMF void svga_solidfill();
BX_CIRRUS_SMF void svga_patterncopy_memsrc();
BX_CIRRUS_SMF void svga_simplebitblt_memsrc();
BX_CIRRUS_SMF void svga_simplebitblt_transp_memsrc();
BX_CIRRUS_SMF bx_bool svga_asyncbitblt_next();
BX_CIRRUS_SMF bx_cirrus_bitblt_rop_t svga_get_fwd_rop_handler(Bit8u rop);
BX_CIRRUS_SMF bx_cirrus_bitblt_rop_t svga_get_bkwd_rop_handler(Bit8u rop);
struct {
Bit8u index;
Bit8u reg[CIRRUS_CRTC_MAX+1];
} crtc; // 0x3b4-5/0x3d4-5
struct {
Bit8u index;
Bit8u reg[CIRRUS_SEQENCER_MAX+1];
} sequencer; // 0x3c4-5
struct {
Bit8u index;
Bit8u reg[CIRRUS_CONTROL_MAX+1];
Bit8u shadow_reg0;
Bit8u shadow_reg1;
} control; // 0x3ce-f
struct {
unsigned lockindex;
Bit8u data;
Bit8u palette[48];
} hidden_dac; // 0x3c6
bx_bool svga_unlock_special;
bx_bool svga_needs_update_tile;
bx_bool svga_needs_update_dispentire;
bx_bool svga_needs_update_mode;
unsigned svga_xres;
unsigned svga_yres;
unsigned svga_pitch;
unsigned svga_bpp;
unsigned svga_dispbpp;
Bit8u *vidmem;
Bit8u *tilemem;
Bit32u bank_base[2];
Bit32u bank_limit[2];
Bit32u memsize;
Bit8u *disp_ptr;
#if BX_SUPPORT_PCI && BX_SUPPORT_CLGD54XX_PCI
bx_bool pci_enabled;
#endif
struct {
bx_cirrus_bitblt_rop_t rop_handler;
int pixelwidth;
int bltwidth;
int bltheight;
int dstpitch;
int srcpitch;
Bit8u bltmode;
Bit8u bltmodeext;
Bit8u bltrop;
Bit8u *dst;
const Bit8u *src;
Bit32u srcaddr;
#if BX_USE_CIRRUS_SMF
void (*bitblt_ptr)();
#else
void (*bitblt_ptr)(void *this_ptr);
#endif // BX_USE_CIRRUS_SMF
int async_xbytes;
int async_y;
Bit8u *memsrc_ptr; // CPU -> video
Bit8u *memsrc_endptr;
int memsrc_bytesperline;
int memsrc_needed;
Bit8u *memdst_ptr; // video -> CPU
Bit8u *memdst_endptr;
int memdst_bytesperline;
int memdst_needed;
Bit8u memsrc[CIRRUS_BLT_CACHESIZE];
Bit8u memdst[CIRRUS_BLT_CACHESIZE];
Bit16u pos_x;
Bit16u pos_y;
} bitblt;
struct {
Bit16u x, y, size;
} hw_cursor;
bx_bool is_unlocked() { return svga_unlock_special; }
bx_bool banking_granularity_is_16k() { return !!(control.reg[0x0B] & 0x20); }
bx_bool banking_is_dual() { return !!(control.reg[0x0B] & 0x01); }
#if BX_SUPPORT_PCI && BX_SUPPORT_CLGD54XX_PCI
BX_CIRRUS_SMF void svga_init_pcihandlers(void);
static Bit32u pci_read_handler(void *this_ptr, Bit8u address, unsigned io_len);
static void pci_write_handler(void *this_ptr, Bit8u address, Bit32u value, unsigned io_len);
BX_CIRRUS_SMF bx_bool cirrus_mem_read_handler(unsigned long addr, unsigned long len, void *data, void *param);
BX_CIRRUS_SMF bx_bool cirrus_mem_write_handler(unsigned long addr, unsigned long len, void *data, void *param);
#if !BX_USE_CIRRUS_SMF
Bit32u pci_read(Bit8u address, unsigned io_len);
void pci_write(Bit8u address, Bit32u value, unsigned io_len);
#endif // !BX_USE_CIRRUS_SMF
Bit8u pci_conf[256];
Bit32u pci_memaddr;
Bit32u pci_mmioaddr;
#endif // BX_SUPPORT_PCI && BX_SUPPORT_CLGD54XX_PCI
};
#endif // BX_SUPPORT_CLGD54XX