/* * Id: s3.h,v 1.1 1999/11/02 08:17:24 keithp Exp $ * * Copyright © 1999 Keith Packard * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Keith Packard not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. Keith Packard makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* $RCSId: xc/programs/Xserver/hw/kdrive/trio/s3.h,v 1.4 2000/05/06 22:17:53 keithp Exp $ */ #ifndef _S3_H_ #define _S3_H_ #include "kdrive.h" #define PLATFORM 300 #define DRAW_DEBUG(a) #define DEBUG_S3INIT (DEBUG_ACCEL) #define DEBUG_CRTC (DEBUG_ACCEL+1) #define DEBUG_PATTERN (DEBUG_ACCEL+2) #define DEBUG_RECT (DEBUG_ACCEL+3) #define DEBUG_PAINT_WINDOW (DEBUG_ACCEL+4) #define DEBUG_SET (DEBUG_ACCEL+5) #define DEBUG_RENDER (DEBUG_ACCEL+6) #define DEBUG_REGISTERS (DEBUG_ACCEL+7) #define DEBUG_ARCS (DEBUG_ACCEL+8) #define DEBUG_TEXT (DEBUG_ACCEL+9) #define DEBUG_POLYGON (DEBUG_ACCEL+10) #define DEBUG_CLIP (DEBUG_ACCEL+11) /* VESA Approved Register Definitions */ /* * Linear Addressing 000 0000 - 0ff ffff (16m) * Image data transfer 100 0000 - 100 7fff (32k) * PCI config 100 8000 - 100 8043 * Packed enhanced regs 100 8100 - 100 814a * Streams regs 100 8180 - 100 81ff * Current Y pos 100 82e8 * CRT VGA 3b? regs 100 83b0 - 100 83bf * CRT VGA 3c? regs 100 83c0 - 100 83cf * CRT VGA 3d? regs 100 83d0 - 100 83df * Subsystem status (42e8h) 100 8504 * Advanced function (42e8h) 100 850c * Enhanced regs 100 86e8 - 100 eeea * Local peripheral bus 100 ff00 - 100 ff5c * * We don't care about the image transfer or PCI regs, so * this structure starts at the packed enhanced regs */ typedef volatile CARD32 VOL32; typedef volatile CARD16 VOL16; typedef volatile CARD8 VOL8; typedef volatile struct _s3 { VOL32 alt_curxy; /* 8100 */ VOL32 _pad0; /* 8104 */ VOL32 alt_step; /* 8108 */ VOL32 _pad1; /* 810c */ VOL32 err_term; /* 8110 */ VOL32 _pad2; /* 8114 */ VOL32 cmd_gp_stat; /* 8118 */ VOL32 short_stroke; /* 811c */ VOL32 bg; /* 8120 */ VOL32 fg; /* 8124 */ VOL32 write_mask; /* 8128 */ VOL32 read_mask; /* 812c */ VOL32 color_cmp; /* 8130 */ VOL32 alt_mix; /* 8134 */ VOL32 scissors_tl; /* 8138 */ VOL32 scissors_br; /* 813c */ VOL32 pix_cntl_mult_misc2; /* 8140 */ VOL32 mult_misc_read_sel; /* 8144 */ VOL32 alt_pcnt; /* 8148 min_axis_pcnt, maj_axis_pcnt */ VOL8 _pad3[0x19c]; /* 814c */ VOL16 cur_y; /* 82e8 */ VOL8 _pad4[0xc6]; /* 82ea */ VOL8 crt_vga_3b0; /* 83b0 */ VOL8 crt_vga_3b1; /* 83b1 */ VOL8 crt_vga_3b2; /* 83b2 */ VOL8 crt_vga_3b3; /* 83b3 */ VOL8 crt_vga_3b4; /* 83b4 */ VOL8 crt_vga_3b5; /* 83b5 */ VOL8 crt_vga_3b6; /* 83b6 */ VOL8 crt_vga_3b7; /* 83b7 */ VOL8 crt_vga_3b8; /* 83b8 */ VOL8 crt_vga_3b9; /* 83b9 */ VOL8 crt_vga_3ba; /* 83ba */ VOL8 crt_vga_3bb; /* 83bb */ VOL8 crt_vga_3bc; /* 83bc */ VOL8 crt_vga_3bd; /* 83bd */ VOL8 crt_vga_3be; /* 83be */ VOL8 crt_vga_3bf; /* 83bf */ VOL8 crt_vga_3c0; /* 83c0 */ VOL8 crt_vga_3c1; /* 83c1 */ VOL8 crt_vga_3c2; /* 83c2 */ VOL8 crt_vga_3c3; /* 83c3 */ VOL8 crt_vga_3c4; /* 83c4 */ VOL8 crt_vga_3c5; /* 83c5 */ VOL8 crt_vga_dac_ad_mk; /* 83c6 */ VOL8 crt_vga_dac_rd_ad; /* 83c7 */ VOL8 crt_vga_dac_wt_ad; /* 83c8 */ VOL8 crt_vga_dac_data; /* 83c9 */ VOL8 crt_vga_3ca; /* 83ca */ VOL8 crt_vga_3cb; /* 83cb */ VOL8 crt_vga_3cc; /* 83cc */ VOL8 crt_vga_3cd; /* 83cd */ VOL8 crt_vga_3ce; /* 83ce */ VOL8 crt_vga_3cf; /* 83cf */ VOL8 crt_vga_3d0; /* 83d0 */ VOL8 crt_vga_3d1; /* 83d1 */ VOL8 crt_vga_3d2; /* 83d2 */ VOL8 crt_vga_3d3; /* 83d3 */ VOL8 crt_vga_3d4; /* 83d4 */ VOL8 crt_vga_3d5; /* 83d5 */ VOL8 crt_vga_3d6; /* 83d6 */ VOL8 crt_vga_3d7; /* 83d7 */ VOL8 crt_vga_3d8; /* 83d8 */ VOL8 crt_vga_3d9; /* 83d9 */ VOL8 crt_vga_status_1; /* 83da */ VOL8 crt_vga_3db; /* 83db */ VOL8 crt_vga_3dc; /* 83dc */ VOL8 crt_vga_3dd; /* 83dd */ VOL8 crt_vga_3de; /* 83de */ VOL8 crt_vga_3df; /* 83df */ VOL8 _pad5[0x124]; /* 83e0 */ VOL16 subsys_status; /* 8504 */ VOL8 _pad6[0x6]; /* 8506 */ VOL16 adv_control; /* 850c */ VOL8 _pad7[0x1da]; /* 850e */ VOL16 cur_x; /* 86e8 */ VOL8 _pad8[0x3fe]; /* 86ea */ VOL16 desty_axstp; /* 8ae8 */ VOL8 _pad9[0x3fe]; /* 8aea */ VOL16 destx_diastp; /* 8ee8 */ VOL8 _pad10[0x3fe]; /* 8eea */ VOL16 enh_err_term; /* 92e8 */ VOL8 _pad11[0x3fe]; /* 92ea */ VOL16 maj_axis_pcnt; /* 96e8 */ VOL8 _pad12[0x3fe]; /* 96ea */ VOL16 enh_cmd_gp_stat; /* 9ae8 */ VOL8 _pad13[0x3fe]; /* 9aea */ VOL16 enh_short_stroke; /* 9ee8 */ VOL8 _pad14[0x3fe]; /* 9eea */ VOL16 enh_bg; /* a2e8 */ VOL8 _pad15[0x3fe]; /* a2ea */ VOL16 enh_fg; /* a6e8 */ VOL8 _pad16[0x3fe]; /* a6ea */ VOL16 enh_wrt_mask; /* aae8 */ VOL8 _pad17[0x3fe]; /* aaea */ VOL16 enh_rd_mask; /* aee8 */ VOL8 _pad18[0x3fe]; /* aeea */ VOL16 enh_color_cmp; /* b2e8 */ VOL8 _pad19[0x3fe]; /* b2ea */ VOL16 enh_bg_mix; /* b6e8 */ VOL8 _pad20[0x3fe]; /* b6ea */ VOL16 enh_fg_mix; /* bae8 */ VOL8 _pad21[0x3fe]; /* baea */ VOL16 enh_rd_reg_dt; /* bee8 */ VOL8 _pad22[0x23fe]; /* beea */ VOL32 pix_trans; /* e2e8 */ } S3, *S3Ptr; #define VGA_STATUS_1_DTM 0x01 #define VGA_STATUS_1_VSY 0x08 #define DAC_MASK 0x03c6 #define DAC_R_INDEX 0x03c7 #define DAC_W_INDEX 0x03c8 #define DAC_DATA 0x03c9 #define DISP_STAT 0x02e8 #define H_TOTAL 0x02e8 #define H_DISP 0x06e8 #define H_SYNC_STRT 0x0ae8 #define H_SYNC_WID 0x0ee8 #define V_TOTAL 0x12e8 #define V_DISP 0x16e8 #define V_SYNC_STRT 0x1ae8 #define V_SYNC_WID 0x1ee8 #define DISP_CNTL 0x22e8 #define ADVFUNC_CNTL 0x4ae8 #define SUBSYS_STAT 0x42e8 #define SUBSYS_CNTL 0x42e8 #define ROM_PAGE_SEL 0x46e8 #define CUR_Y 0x82e8 #define CUR_X 0x86e8 #define DESTY_AXSTP 0x8ae8 #define DESTX_DIASTP 0x8ee8 #define ERR_TERM 0x92e8 #define MAJ_AXIS_PCNT 0x96e8 #define GP_STAT 0x9ae8 #define CMD 0x9ae8 #define SHORT_STROKE 0x9ee8 #define BKGD_COLOR 0xa2e8 #define FRGD_COLOR 0xa6e8 #define WRT_MASK 0xaae8 #define RD_MASK 0xaee8 #define COLOR_CMP 0xb2e8 #define BKGD_MIX 0xb6e8 #define FRGD_MIX 0xbae8 #define MULTIFUNC_CNTL 0xbee8 #define MIN_AXIS_PCNT 0x0000 #define SCISSORS_T 0x1000 #define SCISSORS_L 0x2000 #define SCISSORS_B 0x3000 #define SCISSORS_R 0x4000 #define MEM_CNTL 0x5000 #define PATTERN_L 0x8000 #define PATTERN_H 0x9000 #define PIX_CNTL 0xa000 #define CONTROL_MISC2 0xd000 #define PIX_TRANS 0xe2e8 /* Advanced Function Control Regsiter */ #define CLKSEL 0x0004 #define DISABPASSTHRU 0x0001 /* Graphics Processor Status Register */ #define GPNSLOT 13 #define GPBUSY_1 0x0080 #define GPBUSY_2 0x0040 #define GPBUSY_3 0x0020 #define GPBUSY_4 0x0010 #define GPBUSY_5 0x0008 #define GPBUSY_6 0x0004 #define GPBUSY_7 0x0002 #define GPBUSY_8 0x0001 #define GPBUSY_9 0x8000 #define GPBUSY_10 0x4000 #define GPBUSY_11 0x2000 #define GPBUSY_12 0x1000 #define GPBUSY_13 0x0800 #define GPEMPTY 0x0400 #define GPBUSY 0x0200 #define DATDRDY 0x0100 /* Command Register */ #define CMD_NOP 0x0000 #define CMD_LINE 0x2000 #define CMD_RECT 0x4000 #define CMD_RECTV1 0x6000 #define CMD_RECTV2 0x8000 #define CMD_LINEAF 0xa000 #define CMD_BITBLT 0xc000 #define CMD_PATBLT 0xe000 #define CMD_OP_MSK 0xe000 #define BYTSEQ 0x1000 #define _32BITNOPAD 0x0600 #define _32BIT 0x0400 #define _16BIT 0x0200 #define _8BIT 0x0000 #define PCDATA 0x0100 #define INC_Y 0x0080 #define YMAJAXIS 0x0040 #define INC_X 0x0020 #define DRAW 0x0010 #define LINETYPE 0x0008 #define LASTPIX 0x0004 /* Draw last pixel in line */ #define PLANAR 0x0002 #define WRTDATA 0x0001 /* Background Mix Register */ #define BSS_BKGDCOL 0x0000 #define BSS_FRGDCOL 0x0020 #define BSS_PCDATA 0x0040 #define BSS_BITBLT 0x0060 /* Foreground Mix Register */ #define FSS_BKGDCOL 0x0000 #define FSS_FRGDCOL 0x0020 #define FSS_PCDATA 0x0040 #define FSS_BITBLT 0x0060 /* The Mixes */ #define MIX_MASK 0x001f #define MIX_NOT_DST 0x0000 #define MIX_0 0x0001 #define MIX_1 0x0002 #define MIX_DST 0x0003 #define MIX_NOT_SRC 0x0004 #define MIX_XOR 0x0005 #define MIX_XNOR 0x0006 #define MIX_SRC 0x0007 #define MIX_NAND 0x0008 #define MIX_NOT_SRC_OR_DST 0x0009 #define MIX_SRC_OR_NOT_DST 0x000a #define MIX_OR 0x000b #define MIX_AND 0x000c #define MIX_SRC_AND_NOT_DST 0x000d #define MIX_NOT_SRC_AND_DST 0x000e #define MIX_NOR 0x000f #define MIX_MIN 0x0010 #define MIX_DST_MINUS_SRC 0x0011 #define MIX_SRC_MINUS_DST 0x0012 #define MIX_PLUS 0x0013 #define MIX_MAX 0x0014 #define MIX_HALF__DST_MINUS_SRC 0x0015 #define MIX_HALF__SRC_MINUS_DST 0x0016 #define MIX_AVERAGE 0x0017 #define MIX_DST_MINUS_SRC_SAT 0x0018 #define MIX_SRC_MINUS_DST_SAT 0x001a #define MIX_HALF__DST_MINUS_SRC_SAT 0x001c #define MIX_HALF__SRC_MINUS_DST_SAT 0x001e #define MIX_AVERAGE_SAT 0x001f /* Pixel Control Register */ #define MIXSEL_FRGDMIX 0x0000 #define MIXSEL_PATT 0x0040 #define MIXSEL_EXPPC 0x0080 #define MIXSEL_EXPBLT 0x00c0 #define COLCMPOP_F 0x0000 #define COLCMPOP_T 0x0008 #define COLCMPOP_GE 0x0010 #define COLCMPOP_LT 0x0018 #define COLCMPOP_NE 0x0020 #define COLCMPOP_EQ 0x0028 #define COLCMPOP_LE 0x0030 #define COLCMPOP_GT 0x0038 #define PLANEMODE 0x0004 #define FIFO_SLOTS 13 #define GPSLOT(n) (1 << ((n) > 8 ? (15 - ((n) - 9)) : (8 - (n)))) /* Wait for n slots to become available */ #if 0 #define _s3WaitSlots(s3,n) { \ DRAW_DEBUG ((DEBUG_CRTC, "_s3WaitSlots 0x%x %d", (s3)->cmd_gp_stat, n)); \ while (((s3)->cmd_gp_stat & GPSLOT(n)) != 0); \ DRAW_DEBUG ((DEBUG_CRTC, " s3 0x%x %d slots ready", (s3)->cmd_gp_stat, n)); \ } #else /* let PCI retries solve this problem */ #define _s3WaitSlots(s3,n) #endif /* Wait until queue is empty */ #define _s3WaitEmpty(s3) { \ DRAW_DEBUG ((DEBUG_CRTC, "_s3WaitEmpty 0x%x", (s3)->cmd_gp_stat)); \ while (!((s3)->cmd_gp_stat & GPEMPTY)) ; \ DRAW_DEBUG ((DEBUG_CRTC, " s3 empty")); \ } /* Wait until GP is idle and queue is empty */ #define _s3WaitIdleEmpty(s3) { \ DRAW_DEBUG ((DEBUG_CRTC, "_s3WaitIdleEmpty 0x%x", (s3)->cmd_gp_stat)); \ while (((s3)->cmd_gp_stat & (GPBUSY|GPEMPTY)) != GPEMPTY) ; \ DRAW_DEBUG ((DEBUG_CRTC, " s3 idle empty")); \ } /* Wait until GP is idle */ #define _s3WaitIdle(s3) { \ DRAW_DEBUG ((DEBUG_CRTC, "_s3WaitIdle 0x%x", (s3)->cmd_gp_stat)); \ while ((s3)->cmd_gp_stat & GPBUSY) ; \ DRAW_DEBUG ((DEBUG_CRTC, " s3 idle")); \ } typedef struct _s3Cursor { int width, height; int xhot, yhot; Bool has_cursor; CursorPtr pCursor; Pixel source, mask; } S3Cursor; typedef struct _s3PatternCache { int id; int x, y; } S3PatternCache; typedef struct _s3Patterns { S3PatternCache *cache; int ncache; int last_used; int last_id; } S3Patterns; typedef struct _crtc { CARD8 h_total_0_7; /* CR0 */ CARD8 h_display_end_0_7; /* CR1 */ CARD8 h_blank_start_0_7; /* CR2 */ union { struct { CARD8 _h_blank_end_0_4 : 5; CARD8 _display_skew : 2; CARD8 : 1; } _h_blank_end_s; CARD8 __h_blank_end; /* CR3 */ } _h_blank_end_u; #define h_blank_end_0_4 _h_blank_end_u._h_blank_end_s._h_blank_end_0_4 #define display_skew _h_blank_end_u._h_blank_end_s._display_skew #define _h_blank_end _h_blank_end_u.__h_blank_end CARD8 h_sync_start_0_7; /* CR4 */ union { struct { CARD8 _h_sync_end_0_4 : 5; CARD8 _horizontal_skew : 2; CARD8 _h_blank_end_5 : 1; } _h_sync_end_s; CARD8 __h_sync_end; /* CR5 */ } _h_sync_end_u; #define h_sync_end_0_4 _h_sync_end_u._h_sync_end_s._h_sync_end_0_4 #define horizontal_skew _h_sync_end_u._h_sync_end_s._horizontal_skew #define h_blank_end_5 _h_sync_end_u._h_sync_end_s._h_blank_end_5 #define _h_sync_end _h_sync_end_u.__h_sync_end CARD8 v_total_0_7; /* CR6 */ union { struct { CARD8 _v_total_8 : 1; CARD8 _v_display_end_8 : 1; CARD8 _v_retrace_start_8 : 1; CARD8 _v_blank_start_8 : 1; CARD8 _line_compare_8 : 1; CARD8 _v_total_9 : 1; CARD8 _v_display_end_9 : 1; CARD8 _v_retrace_start_9 : 1; } _crtc_overflow_s; CARD8 _crtc_overflow; /* CR7 */ } _crtc_overflow_u; #define v_total_8 _crtc_overflow_u._crtc_overflow_s._v_total_8 #define v_display_end_8 _crtc_overflow_u._crtc_overflow_s._v_display_end_8 #define v_retrace_start_8 _crtc_overflow_u._crtc_overflow_s._v_retrace_start_8 #define v_blank_start_8 _crtc_overflow_u._crtc_overflow_s._v_blank_start_8 #define line_compare_8 _crtc_overflow_u._crtc_overflow_s._line_compare_8 #define v_total_9 _crtc_overflow_u._crtc_overflow_s._v_total_9 #define v_display_end_9 _crtc_overflow_u._crtc_overflow_s._v_display_end_9 #define v_retrace_start_9 _crtc_overflow_u._crtc_overflow_s._v_retrace_start_9 #define crtc_overflow _crtc_overflow_u._crtc_overflow CARD8 preset_row_scan; /* CR8 (unused) */ union { struct { CARD8 _max_scan_line : 5; CARD8 _v_blank_start_9 : 1; CARD8 _line_compare_9 : 1; CARD8 _double_scan : 1; } _max_scan_line_s; CARD8 __max_scan_line; /* CR9 */ } _max_scan_line_u; #define max_scan_line _max_scan_line_u._max_scan_line_s._max_scan_line #define v_blank_start_9 _max_scan_line_u._max_scan_line_s._v_blank_start_9 #define line_compare_9 _max_scan_line_u._max_scan_line_s._line_compare_9 #define double_scan _max_scan_line_u._max_scan_line_s._double_scan #define _max_scan_line _max_scan_line_u.__max_scan_line CARD8 cursor_start; CARD8 cursor_end; CARD8 start_address_8_15; /* CRC */ CARD8 start_address_0_7; /* CRD */ CARD8 cursor_loc_high; CARD8 cursor_loc_low; CARD8 v_retrace_start_0_7; /* CR10 */ union { struct { CARD8 _v_retrace_end_0_3 : 4; CARD8 _clear_v_retrace_int : 1; CARD8 _disable_v_retrace_int : 1; CARD8 _refresh_cycle_select : 1; CARD8 _lock_crtc : 1; } _v_retrace_end_s; CARD8 __v_retrace_end; /* CR11 */ } _v_retrace_end_u; #define v_retrace_end_0_3 _v_retrace_end_u._v_retrace_end_s._v_retrace_end_0_3 #define clear_v_retrace_int _v_retrace_end_u._v_retrace_end_s._clear_v_retrace_int #define disable_v_retrace_int _v_retrace_end_u._v_retrace_end_s._disable_v_retrace_int #define refresh_cycle_select _v_retrace_end_u._v_retrace_end_s._refresh_cycle_select #define lock_crtc _v_retrace_end_u._v_retrace_end_s._lock_crtc #define _v_retrace_end _v_retrace_end_u.__v_retrace_end CARD8 v_display_end_0_7; /* CR12 */ CARD8 screen_off_0_7; /* CR13 */ union { struct { CARD8 _underline_location : 5; CARD8 _count_by_four : 1; CARD8 _doubleword_mode : 1; CARD8 : 1; } _underline_location_s; CARD8 __underline_location; /* CR14 (unused) */ } _underline_location_u; #define underline_location _underline_location_u._underline_location_s._underline_location #define count_by_four _underline_location_u._underline_location_s._count_by_four #define doubleword_mode _underline_location_u._underline_location_s._doubleword_mode #define _underline_location _underline_location_u.__underline_location CARD8 v_blank_start_0_7; /* CR15 */ CARD8 v_blank_end_0_7; /* CR16 */ union { struct { CARD8 _two_bk_cga : 1; CARD8 _four_bk_cga : 1; CARD8 _v_total_double : 1; CARD8 _word_mode : 1; CARD8 : 1; CARD8 _address_wrap : 1; CARD8 _byte_mode : 1; CARD8 _hardware_reset : 1; } _crtc_mode_s; CARD8 _crtc_mode; /* CR17 (unused) */ } _crtc_mode_u; CARD8 line_compare_0_7; /* CR18 (unused) */ union { struct { CARD8 _enable_base_offset : 1; CARD8 _enable_two_page : 1; CARD8 _enable_vga_16_bit : 1; CARD8 _enhanced_mode_mapping : 1; CARD8 _old_display_start : 2; CARD8 _enable_high_speed_text : 1; CARD8 : 1; } _memory_configuration_s; CARD8 _memory_configuration; /* CR31 (unused) */ } _memory_configuration_u; #define memory_configuration _memory_configuration_u._memory_configuration #define enable_base_offset _memory_configuration_u._memory_configuration_s._enable_base_offset #define enable_two_page _memory_configuration_u._memory_configuration_s._enable_two_page #define enable_vga_16_bit _memory_configuration_u._memory_configuration_s._enable_vga_16_bit #define enhanved_mode_mapping _memory_configuration_u._memory_configuration_s._enhanced_mode_mapping #define old_display_start _memory_configuration_u._memory_configuration_s._old_display_start #define enable_high_speed_text _memory_configuration_u._memory_configuration_s._enable_high_speed_text union { struct { CARD8 _alt_refresh_count : 2; CARD8 _enable_alt_refresh : 1; CARD8 _enable_top_memory : 1; CARD8 _enable_256_or_more : 1; CARD8 _high_speed_text : 1; CARD8 : 1; CARD8 _pci_burst_disabled : 1; } _misc_1_s; CARD8 _misc_1; /* CR3A */ } _misc_1_u; #define misc_1 _misc_1_u._misc_1 #define alt_refresh_count _misc_1_u._misc_1_s._alt_refresh_count #define enable_alt_refresh _misc_1_u._misc_1_s._enable_alt_refresh #define enable_top_memory _misc_1_u._misc_1_s._enable_top_memory #define enable_256_or_more _misc_1_u._misc_1_s._enable_256_or_more #define high_speed_text _misc_1_u._misc_1_s._high_speed_text #define pci_burst_disabled _misc_1_u._misc_1_s._pci_burst_disabled CARD8 h_start_fifo_fetch_0_7; /* CR3B */ union { struct { CARD8 : 5; CARD8 interlace : 1; CARD8 : 2; } _mode_control_s; CARD8 _mode_control; /* CR42 */ } _mode_control_u; #define mode_control _mode_control_u._mode_control union { struct { CARD8 : 2; CARD8 _old_screen_off_8 : 1; CARD8 : 4; CARD8 h_counter_double_mode : 1; } _extended_mode_s; CARD8 _extended_mode; /* CR43 (unused) */ } _extended_mode_u; #define extended_mode _extended_mode_u._extended_mode #define old_screen_off_8 _extended_mode_u._extended_mode_s._old_screen_off_8 union { struct { CARD8 _hardware_cursor_enable : 1; CARD8 : 3; CARD8 _hardware_cursor_right : 1; CARD8 : 3; } _hardware_cursor_mode_s; CARD8 _hardware_cursor_mode; /* CR45 */ } _hardware_cursor_mode_u; #define hardware_cursor_mode _hardware_cursor_mode_u._hardware_cursor_mode #define hardware_cursor_enable _hardware_cursor_mode_u._hardware_cursor_mode_s._hardware_cursor_enable CARD8 cursor_address_8_15; /* CR4C */ CARD8 cursor_address_0_7; /* CR4D */ union { struct { CARD8 _ge_screen_width_2 : 1; CARD8 : 3; CARD8 _pixel_length : 2; CARD8 _ge_screen_width_0_1 : 2; } _extended_system_control_1_s; CARD8 _extended_system_control_1; /* CR50 */ } _extended_system_control_1_u; #define ge_screen_width_2 _extended_system_control_1_u._extended_system_control_1_s._ge_screen_width_2 #define pixel_length _extended_system_control_1_u._extended_system_control_1_s._pixel_length #define ge_screen_width_0_1 _extended_system_control_1_u._extended_system_control_1_s._ge_screen_width_0_1 #define extended_system_control_1 _extended_system_control_1_u._extended_system_control_1 union { struct { CARD8 : 4; CARD8 _screen_off_8_9 : 2; CARD8 : 2; } _extended_system_control_2_s; CARD8 _extended_system_control_2; /* CR51 */ } _extended_system_control_2_u; #define extended_system_control_2 _extended_system_control_2_u._extended_system_control_2 #define screen_off_8_9 _extended_system_control_2_u._extended_system_control_2_s._screen_off_8_9 union { struct { CARD8 : 1; CARD8 big_endian_linear : 2; CARD8 mmio_select : 2; CARD8 mmio_window : 1; CARD8 swap_nibbles : 1; CARD8 : 1; } _extended_memory_control_s; CARD8 _extended_memory_control; /* CR53 */ } _extended_memory_control_u; #define extended_memory_control _extended_memory_control_u._extended_memory_control union { struct { CARD8 : 2; CARD8 _enable_gir : 1; CARD8 : 1; CARD8 _hardware_cursor_ms_x11 : 1; CARD8 : 2; CARD8 _tri_state_off_vclk : 1; } _extended_ramdac_control_s; CARD8 _extended_ramdac_control; /* CR55 */ } _extended_ramdac_control_u; #define extended_ramdac_control _extended_ramdac_control_u._extended_ramdac_control #define hardware_cursor_ms_x11 _extended_ramdac_control_u._extended_ramdac_control_s._hardware_cursor_ms_x11 union { struct { CARD8 _h_total_8 : 1; CARD8 _h_display_end_8 : 1; CARD8 _h_blank_start_8 : 1; CARD8 _h_blank_extend : 1; /* extend h_blank by 64 */ CARD8 _h_sync_start_8 : 1; CARD8 _h_sync_extend : 1; /* extend h_sync by 32 */ CARD8 _h_start_fifo_fetch_8 : 1; CARD8 : 1; } _extended_horizontal_overflow_s; CARD8 _extended_horizontal_overflow; /* CR5D */ } _extended_horizontal_overflow_u; #define extended_horizontal_overflow _extended_horizontal_overflow_u._extended_horizontal_overflow #define h_total_8 _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_total_8 #define h_display_end_8 _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_display_end_8 #define h_blank_start_8 _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_blank_start_8 #define h_blank_extend _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_blank_extend #define h_sync_start_8 _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_sync_start_8 #define h_sync_extend _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_sync_extend #define h_start_fifo_fetch_8 _extended_horizontal_overflow_u._extended_horizontal_overflow_s._h_start_fifo_fetch_8 union { struct { CARD8 _v_total_10 : 1; CARD8 _v_display_end_10 : 1; CARD8 _v_blank_start_10 : 1; CARD8 : 1; CARD8 _v_retrace_start_10 : 1; CARD8 : 1; CARD8 _line_compare_10 : 1; CARD8 : 1; } _extended_vertical_overflow_s; CARD8 _extended_vertical_overflow; /* CR5E */ } _extended_vertical_overflow_u; #define extended_vertical_overflow _extended_vertical_overflow_u._extended_vertical_overflow #define v_total_10 _extended_vertical_overflow_u._extended_vertical_overflow_s._v_total_10 #define v_display_end_10 _extended_vertical_overflow_u._extended_vertical_overflow_s._v_display_end_10 #define v_blank_start_10 _extended_vertical_overflow_u._extended_vertical_overflow_s._v_blank_start_10 #define v_retrace_start_10 _extended_vertical_overflow_u._extended_vertical_overflow_s._v_retrace_start_10 #define line_compare_10 _extended_vertical_overflow_u._extended_vertical_overflow_s._line_compare_10 CARD8 l_parm_0_7; /* CR62 (undocumented) */ union { struct { CARD8 : 3; CARD8 _delay_blank : 2; CARD8 : 3; } _extended_misc_control_s; CARD8 _extended_misc_control; /* CR65 */ } _extended_misc_control_u; #define extended_misc_control _extended_misc_control_u._extended_misc_control #define delay_blank _extended_misc_control_u._extended_misc_control_s._delay_blank union { struct { CARD8 _v_clock_phase : 1; CARD8 : 3; CARD8 _color_mode : 4; } _extended_misc_control_2_s; CARD8 _extended_misc_control_2; /* CR67 */ } _extended_misc_control_2_u; #define v_clock_phase _extended_misc_control_2_u._extended_misc_control_2_s._v_clock_phase #define color_mode _extended_misc_control_2_u._extended_misc_control_2_s._color_mode #define extended_misc_control_2 _extended_misc_control_2_u._extended_misc_control_2 union { struct { CARD8 cas_oe_str : 2; CARD8 ras_low : 1; CARD8 ras_precharge : 1; CARD8 : 3; CARD8 _memory_bus_size : 1; /* 0 = 32, 1 = 32/64 */ } _configuration_3_s; CARD8 _configuration_3; /* CR68 */ } _configuration_3_u; #define configuration_3 _configuration_3_u._configuration_3 #define memory_bus_size _configuration_3_u._configuration_3_s._memory_bus_size union { struct { CARD8 _start_address_16_19 : 4; CARD8 : 4; } _extended_system_control_3_s; CARD8 _extended_system_control_3; /* CR69 */ } _extended_system_control_3_u; #define extended_system_control_3 _extended_system_control_3_u._extended_system_control_3 #define start_address_16_19 _extended_system_control_3_u._extended_system_control_3_s._start_address_16_19 CARD8 extended_bios_5; /* CR6D */ union { struct { CARD8 dot_clock_vclki : 1; /* testing only */ CARD8 vclki_with_vafc : 1; /* feature connector */ CARD8 : 1; CARD8 bpp_24_mode : 1; /* 24 bpp mode */ CARD8 alt_color_mode : 4; /* feature connector mode */ } _extended_sequencer_b_s; CARD8 _extended_sequencer_b; /* SRB */ } _extended_sequencer_b_u; #define extended_sequencer_b _extended_sequencer_b_u._extended_sequencer_b union extended_sequencer_d_u { struct { CARD8 enable_feature : 1; CARD8 lpb_feature : 1; CARD8 : 2; CARD8 _hsync_control : 2; CARD8 _vsync_control : 2; } _extended_sequencer_d_s; CARD8 _extended_sequencer_d; } _extended_sequencer_d_u; #define extended_sequencer_d _extended_sequencer_d_u._extended_sequencer_d #define hsync_control _extended_sequencer_d_u._extended_sequencer_d_s._hsync_control #define vsync_control _extended_sequencer_d_u._extended_sequencer_d_s._vsync_control union { struct { CARD8 _dclk_pll_n : 5; CARD8 _dclk_pll_r : 2; CARD8 : 1; } _dclk_value_low_s; CARD8 _dclk_value_low; /* SR12 */ } _dclk_value_low_u; #define dclk_value_low _dclk_value_low_u._dclk_value_low #define dclk_pll_n_trio _dclk_value_low_u._dclk_value_low_s._dclk_pll_n #define dclk_pll_r_trio _dclk_value_low_u._dclk_value_low_s._dclk_pll_r union { struct { CARD8 _dclk_pll_m : 7; CARD8 : 1; } _dclk_value_high_s; CARD8 _dclk_value_high; /* SR13 */ } _dclk_value_high_u; #define dclk_value_high _dclk_value_high_u._dclk_value_high #define dclk_pll_m_trio _dclk_value_high_u._dclk_value_high_s._dclk_pll_m union { struct { CARD8 _mfrq_en : 1; CARD8 _dfrq_en : 1; CARD8 _mclk_out : 1; CARD8 _vclk_out : 1; CARD8 _dclk_over_2 : 1; CARD8 _clk_load : 1; CARD8 _dclk_invert : 1; CARD8 _ena_2_cycle_write : 1; } _control_2_s; CARD8 _control_2; /* SR15 */ } _control_2_u; #define control_2 _control_2_u._control_2 #define mfrq_en _control_2_u._control_2_s._mfrq_en #define dfrq_en _control_2_u._control_2_s._dfrq_en #define mclk_out _control_2_u._control_2_s._mclk_out #define vclk_out _control_2_u._control_2_s._vclk_out #define dclk_over_2 _control_2_u._control_2_s._dclk_over_2 #define clk_load _control_2_u._control_2_s._clk_load #define dclk_invert _control_2_u._control_2_s._dclk_invert #define ena_2_cycle_write _control_2_u._control_2_s._ena_2_cycle_write union { struct { CARD8 : 5; CARD8 _dac_power_down : 1; CARD8 _lut_write_control : 1; CARD8 _enable_clock_double : 1; } _ramdac_control_s; CARD8 _ramdac_control; /* SR18 */ } _ramdac_control_u; #define ramdac_control _ramdac_control_u._ramdac_control #define enable_clock_double _ramdac_control_u._ramdac_control_s._enable_clock_double union { struct { CARD8 _dclk_pll_n : 6; CARD8 _dclk_pll_r : 2; } _dclk_value_low_s; CARD8 _dclk_value_low; /* SR36 */ } _dclk_value_low_savage_u; #define dclk_value_low_savage _dclk_value_low_savage_u._dclk_value_low #define dclk_pll_n_savage_0_5 _dclk_value_low_savage_u._dclk_value_low_s._dclk_pll_n #define dclk_pll_r_savage_0_1 _dclk_value_low_savage_u._dclk_value_low_s._dclk_pll_r CARD8 dclk_pll_m0_savage_0_7; /* SR37 */ CARD8 dclk_pll_m1_savage_0_7; /* SR38 */ struct { CARD8 _dclk_pll_m : 8; } _dclk_value_high_s_savage; union { struct { CARD8 _dclk_select : 1; CARD8 : 1; CARD8 _dclk_pll_r_2 : 1; CARD8 _dclk_pll_m_8 : 1; CARD8 _dclk_pll_n_6 : 1; CARD8 _pce : 1; CARD8 _ccg : 1; CARD8 _csp : 1; } _extended_seq_39_s; CARD8 _extended_seq_39; /* SR39 */ } _extended_seq_39_u; #define extended_seq_39 _extended_seq_39_u._extended_seq_39 #define dclk_pll_select_savage _extended_seq_39_u._extended_seq_39_s._dclk_select #define dclk_pll_r_savage_2 _extended_seq_39_u._extended_seq_39_s._dclk_pll_r_2 #define dclk_pll_m_savage_8 _extended_seq_39_u._extended_seq_39_s._dclk_pll_m_8 #define dclk_pll_n_savage_6 _extended_seq_39_u._extended_seq_39_s._dclk_pll_n_6 /* computed values */ CARD16 ge_screen_pitch; CARD8 bits_per_pixel; CARD8 depth; CARD8 double_pixel_mode; CARD16 pixel_width; } S3Crtc; #define crtc_v_total(crtc) ((crtc)->v_total_0_7 | \ ((crtc)->v_total_8 << 8) | \ ((crtc)->v_total_9 << 9) | \ ((crtc)->v_total_10 << 10)) #define crtc_set_v_total(crtc,v) { \ ((crtc))->v_total_0_7 = (v); \ ((crtc))->v_total_8 = (v) >> 8; \ ((crtc))->v_total_9 = (v) >> 9; \ ((crtc))->v_total_10 = (v) >> 10; \ } #define crtc_v_display_end(crtc) ((crtc)->v_display_end_0_7 | \ ((crtc)->v_display_end_8 << 8) | \ ((crtc)->v_display_end_9 << 9) | \ ((crtc)->v_display_end_10 << 10)) #define crtc_set_v_display_end(crtc,v) {\ ((crtc))->v_display_end_0_7 = (v); \ ((crtc))->v_display_end_8 = (v) >> 8; \ ((crtc))->v_display_end_9 = (v) >> 9; \ ((crtc))->v_display_end_10 = (v) >> 10; \ } #define crtc_v_retrace_start(crtc) ((crtc)->v_retrace_start_0_7 | \ ((crtc)->v_retrace_start_8 << 8) | \ ((crtc)->v_retrace_start_9 << 9) | \ ((crtc)->v_retrace_start_10 << 10)) #define crtc_set_v_retrace_start(crtc,v) {\ ((crtc))->v_retrace_start_0_7 = (v); \ ((crtc))->v_retrace_start_8 = (v) >> 8; \ ((crtc))->v_retrace_start_9 = (v) >> 9; \ ((crtc))->v_retrace_start_10 = (v) >> 10; \ } #define crtc_v_blank_start(crtc) ((crtc)->v_blank_start_0_7 | \ ((crtc)->v_blank_start_8 << 8) | \ ((crtc)->v_blank_start_9 << 9) | \ ((crtc)->v_blank_start_10 << 10)) #define crtc_set_v_blank_start(crtc,v) {\ ((crtc))->v_blank_start_0_7 = (v); \ ((crtc))->v_blank_start_8 = (v) >> 8; \ ((crtc))->v_blank_start_9 = (v) >> 9; \ ((crtc))->v_blank_start_10 = (v) >> 10; \ } #define crtc_h_total(crtc) ((crtc)->h_total_0_7 | \ ((crtc)->h_total_8 << 8)) #define crtc_set_h_total(crtc,v) {\ ((crtc))->h_total_0_7 = (v); \ ((crtc))->h_total_8 = (v) >> 8; \ } #define crtc_h_display_end(crtc) ((crtc)->h_display_end_0_7 | \ ((crtc)->h_display_end_8 << 8)) #define crtc_set_h_display_end(crtc,v) {\ ((crtc))->h_display_end_0_7 = (v); \ ((crtc))->h_display_end_8 = (v) >> 8; \ } #define crtc_h_blank_start(crtc) ((crtc)->h_blank_start_0_7 | \ ((crtc)->h_blank_start_8 << 8)) #define crtc_set_h_blank_start(crtc,v) {\ ((crtc))->h_blank_start_0_7 = (v); \ ((crtc))->h_blank_start_8 = (v) >> 8; \ } #define crtc_h_blank_end(crtc) ((crtc)->h_blank_end_0_4 | \ ((crtc)->h_blank_end_5 << 5)) #define crtc_set_h_blank_end(crtc,v) {\ ((crtc))->h_blank_end_0_4 = (v); \ ((crtc))->h_blank_end_5 = (v) >> 5; \ } #define crtc_h_sync_start(crtc) ((crtc)->h_sync_start_0_7 | \ ((crtc)->h_sync_start_8 << 8)) #define crtc_set_h_sync_start(crtc,v) {\ ((crtc))->h_sync_start_0_7 = (v); \ ((crtc))->h_sync_start_8 = (v) >> 8; \ } #define crtc_h_sync_end(crtc) ((crtc)->h_sync_end_0_4) #define crtc_set_h_sync_end(crtc,v) {\ ((crtc))->h_sync_end_0_4 = (v); \ } #define crtc_screen_off(crtc) ((crtc)->screen_off_0_7 | \ (((crtc)->screen_off_8_9 ? \ ((crtc))->screen_off_8_9 : \ ((crtc))->old_screen_off_8) << 8)) #define crtc_set_screen_off(crtc,v) {\ ((crtc))->screen_off_0_7 = (v); \ ((crtc))->old_screen_off_8 = 0; \ ((crtc))->screen_off_8_9 = (v) >> 8; \ } #define crtc_ge_screen_width(crtc) ((crtc)->ge_screen_width_0_1 | \ ((crtc)->ge_screen_width_2 << 2)) #define crtc_set_ge_screen_width(crtc,v) { \ (crtc)->ge_screen_width_0_1 = (v); \ (crtc)->ge_screen_width_2 = (v) >> 2; \ } #define crtc_h_start_fifo_fetch(crtc) ((crtc)->h_start_fifo_fetch_0_7 | \ ((crtc)->h_start_fifo_fetch_8 << 8)) #define crtc_set_h_start_fifo_fetch(crtc,v) {\ (crtc)->h_start_fifo_fetch_0_7 = (v); \ (crtc)->h_start_fifo_fetch_8 = (v) >> 8; \ } #define crtc_start_address(crtc) ((crtc)->start_address_0_7 | \ ((crtc)->start_address_8_15 << 8) | \ ((crtc)->start_address_16_19 << 16)) #define crtc_set_start_address(crtc,v) {\ (crtc)->start_address_0_7 = (v); \ (crtc)->start_address_8_15 = (v) >> 8; \ (crtc)->start_address_16_19 = (v) >> 16; \ } #define crtc_line_compare(crtc) ((crtc)->line_compare_0_7 | \ ((crtc)->line_compare_8 << 8) | \ ((crtc)->line_compare_9 << 9) | \ ((crtc)->line_compare_10 << 10)) #define crtc_set_line_compare(crtc,v) { \ ((crtc))->line_compare_0_7 = (v); \ ((crtc))->line_compare_8 = (v) >> 8; \ ((crtc))->line_compare_9 = (v) >> 9; \ ((crtc))->line_compare_10 = (v) >> 10; \ } #define GetCrtc(s3,i) _s3ReadIndexRegister (&(s3)->crt_vga_3d4, (i)) #define PutCrtc(s3,i,v) _s3WriteIndexRegister (&(s3)->crt_vga_3d4, (i), (v)) #define GetSrtc(s3,i) _s3ReadIndexRegister (&(s3)->crt_vga_3c4, (i)) #define PutSrtc(s3,i,v) _s3WriteIndexRegister (&(s3)->crt_vga_3c4, (i), (v)) #define S3_CLOCK_REF 14318 /* KHz */ #define S3_CLOCK(m,n,r) (S3_CLOCK_REF * ((m) + 2) / (((n) + 2) * (1 << (r)))) #if PLATFORM == 200 #define S3_MAX_CLOCK 80000 /* KHz */ #endif #if PLATFORM == 300 #define S3_MAX_CLOCK 135000 /* KHz */ #endif typedef struct _s3Save { CARD8 cursor_fg; CARD8 cursor_bg; CARD8 lock1; CARD8 lock2; CARD8 locksrtc; CARD8 clock_mode; CARD32 alt_mix; CARD32 write_mask; CARD32 fg; CARD32 bg; S3Crtc crtc; } S3Save; typedef struct _s3CardInfo { S3Ptr s3; /* pointer to register structure */ int memory; /* amount of memory */ CARD8 *frameBuffer; /* pointer to frame buffer */ CARD8 *registers; /* pointer to register map */ S3Save save; Bool savage; Bool need_sync; } S3CardInfo; typedef struct _s3FbInfo { CARD8 *offscreen; /* pointer to offscreen area */ int offscreen_y; /* top y coordinate of offscreen area */ int offscreen_x; /* top x coordinate of offscreen area */ int offscreen_width; /* width of offscreen area */ int offscreen_height; /* height of offscreen area */ S3Patterns patterns; CARD32 bitmap_offset; int accel_stride; int accel_bpp; } S3FBInfo; typedef struct _s3ScreenInfo { CARD8 *cursor_base; /* pointer to cursor area */ S3Cursor cursor; S3FBInfo fb[1]; } S3ScreenInfo; #define LockS3(s3c) #define UnlockS3(s3c) #define getS3CardInfo(kd) ((S3CardInfo *) ((kd)->card->driver)) #define s3CardInfo(kd) S3CardInfo *s3c = getS3CardInfo(kd) #define getS3ScreenInfo(kd) ((S3ScreenInfo *) ((kd)->screen->driver)) #define s3ScreenInfo(kd) S3ScreenInfo *s3s = getS3ScreenInfo(kd) Bool s3CardInit (KdCardInfo *); Bool s3ScreenInit (KdScreenInfo *); Bool s3Enable (ScreenPtr pScreen); void s3Disable (ScreenPtr pScreen); void s3Fini (ScreenPtr pScreen); Bool s3CursorInit (ScreenPtr pScreen); void s3CursorEnable (ScreenPtr pScreen); void s3CursorDisable (ScreenPtr pScreen); void s3CursorFini (ScreenPtr pScreen); void s3RecolorCursor (ScreenPtr pScreen, int ndef, xColorItem *pdefs); Bool s3DrawInit (ScreenPtr pScreen); void s3DrawEnable (ScreenPtr pScreen); void s3DrawSync (ScreenPtr pScreen); void s3DrawDisable (ScreenPtr pScreen); void s3DrawFini (ScreenPtr pScreen); void s3GetColors (ScreenPtr pScreen, int fb, int ndef, xColorItem *pdefs); void s3PutColors (ScreenPtr pScreen, int fb, int ndef, xColorItem *pdefs); void S3InitCard (KdCardAttr *attr); void s3GetClock (int target, int *Mp, int *Np, int *Rp, int maxM, int maxN, int maxR); CARD8 _s3ReadIndexRegister (VOL8 *base, CARD8 index); void _s3WriteIndexRegister (VOL8 *base, CARD8 index, CARD8 value); extern KdCardFuncs s3Funcs; /* * Wait for the begining of the retrace interval */ #define S3_RETRACE_LOOP_CHECK if (++_loop_count > 300000) {\ DRAW_DEBUG ((DEBUG_FAILURE, "S3 wait loop failed at %s:%d", \ __FILE__, __LINE__)); \ break; \ } #define _s3WaitVRetrace(s3) { \ VOL8 *_status = &s3->crt_vga_status_1; \ int _loop_count; \ DRAW_DEBUG ((DEBUG_CRTC, "_s3WaitVRetrace 0x%x", *_status)); \ _loop_count = 0; \ while ((*_status & VGA_STATUS_1_VSY) != 0) S3_RETRACE_LOOP_CHECK; \ _loop_count = 0; \ while ((*_status & VGA_STATUS_1_VSY) == 0) S3_RETRACE_LOOP_CHECK; \ } /* * Wait for the begining of the retrace interval */ #define _s3WaitVRetraceEnd(s3) { \ VOL8 *_status = &s3->crt_vga_status_1; \ int _loop_count; \ DRAW_DEBUG ((DEBUG_CRTC, "_s3WaitVRetraceEnd 0x%x", *_status)); \ _loop_count = 0; \ while ((*_status & VGA_STATUS_1_VSY) == 0) S3_RETRACE_LOOP_CHECK; \ _loop_count = 0; \ while ((*_status & VGA_STATUS_1_VSY) != 0) S3_RETRACE_LOOP_CHECK; \ } /* * This extension register must contain a magic bit pattern to enable * the remaining extended registers */ #define _s3UnlockExt(s3) _s3WriteIndexRegister (&s3->crt_vga_3d4, 0x39, 0xa0) #define _s3LockExt(s3) _s3WriteIndexRegister (&s3->crt_vga_3d4, 0x39, 0x00) #define S3_CURSOR_WIDTH 64 #define S3_CURSOR_HEIGHT 64 #define S3_CURSOR_SIZE ((S3_CURSOR_WIDTH * S3_CURSOR_HEIGHT + 7) / 8) #define S3_TILE_SIZE 8 #endif /* _S3_H_ */