/* $NetBSD: summitreg.h,v 1.16 2025/01/29 15:35:22 macallan Exp $ */ /* * Copyright (c) 2024 Michael Lorenz * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR OR HIS RELATIVES BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF MIND, USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ /* HP Visualize FX 4 and related hardware, aka Summit */ /* * register values, found by disassembling the ROM * some found by Sven Schnelle * ( see https://patchwork.kernel.org/project/linux-parisc/patch/20211031204952.25678-2-svens@stackframe.org/ ) * some by me */ #ifndef SUMMITREG_H #define SUMMITREG_H #define VISFX_CONTROL 0x641000 #define CONTROL_WFC 0x00000200 // FIFO when 0, direct when 1 #define VISFX_FC 0x641040 // Fault Control #define VISFX_STATUS 0x641400 // zero when idle /* * about the FIFO register: * - on FX4, there are 0x800 FIFO slots, quite a lot * - based on observation, every register write seems to occupy *two* slots * - we need to write 0 to VISFX_CONTROL to enable FIFO pacing * - the FIFO is quite difficult to overrun but things like x11perf copywinwin * will do it if we're not careful */ #define VISFX_FIFO 0x641440 #define VISFX_FOE 0x920404 // Fragment Operation Enable #define FOE_TEXTURE 0x00000001 #define FOE_SPECULAR 0x00000002 #define FOE_DEPTHCUE 0x00000004 #define FOE_ALPHATEST 0x00000008 #define FOE_STENCIL 0x00000010 #define FOE_Z_TEST 0x00000020 #define FOE_BLEND_ROP 0x00000040 // IBO is used #define FOE_DITHER 0x00000080 #define VISFX_IBO 0x921110 // ROP in lowest nibble #define VISFX_CBR 0x92111c // constant colour for blending #define VISFX_IAA0 0x921200 // XLUT, 16 entries #define VISFX_IAA(n) (0x921200 + ((n) << 2)) #define VISFX_OTR 0x921148 // overlay transparency #define VISFX_VRAM_WRITE_MODE 0xa00808 #define VISFX_VRAM_READ_MODE 0xa0080c #define VISFX_PIXEL_MASK 0xa0082c #define VISFX_FG_COLOUR 0xa0083c #define VISFX_BG_COLOUR 0xa00844 #define VISFX_PLANE_MASK 0xa0084c /* this controls what we see in the FB aperture */ #define VISFX_APERTURE_ACCESS 0xa00858 #define VISFX_DEPTH_8 0x30 #define VISFX_DEPTH_32 0x50 #define VISFX_RPH 0xa0085c // read prefetch hint #define VISFX_RPH_RTL 0x80000000 // right-to-left #define VISFX_RPH_LTR 0x00000000 // left-to-right #define VISFX_READ_DATA 0xa41480 #define VISFX_VRAM_WRITE_DATA_INCRX 0xa60000 #define VISFX_VRAM_WRITE_DATA_INCRY 0xa68000 #define VISFX_VRAM_WRITE_DEST 0xac1000 #define VISFX_TCR 0xac1024 /* throttle control */ #define VISFX_CLIP_TL 0xac1050 /* clipping rect, top/left */ #define VISFX_CLIP_WH 0xac1054 /* clipping rect, w/h */ #define VISFX_WRITE_MODE_PLAIN 0x02000000 #define VISFX_WRITE_MODE_EXPAND 0x050004c0 #define VISFX_WRITE_MODE_FILL 0x050008c0 #define VISFX_WRITE_MODE_TRANSPARENT 0x00000800 /* bg is tansparent */ #define VISFX_WRITE_MODE_MASK 0x00000400 /* apply pixel mask */ /* 0x00000200 - some pattern */ /* looks like 0x000000c0 enables fb/bg colours to be applied */ #define VISFX_READ_MODE_COPY 0x02000400 #define OTC01 0x00000000 /* one pixel per 32bit write */ #define OTC04 0x02000000 /* 4 pixels per 32bit write */ #define OTC32 0x05000000 /* 32 pixels per 32bit write */ #define BIN8I 0x00000000 /* 8bit indexed */ #define BIN12I 0x00010000 /* 12bit indexed */ #define BIN332F 0x00040000 /* R3G3B2 */ #define BIN8F 0x00070000 /* ARGB8 */ #define BINapln 0x00110000 /* attribute plane */ #define BINhost 0x00300000 /* DMA to host */ #define BUFovl 0x00000000 /* 8bit overlay */ #define BUFBL 0x00008000 /* back/left */ #define BUFFL 0x00004000 /* front/left */ #define BUFBR 0x00002000 /* back/right */ #define BUFFR 0x00001000 /* front/right */ /* attribute table, this only selects depth and CFS */ #define IAA_8I 0x00000000 /* 8bit CI */ #define IAA_8F 0x00000070 /* RGB8 */ #define IAA_CFS0 0x00000000 /* CFS select */ #define IAA_CFS1 0x00000100 /* CFS 1 etc. */ #define OTR_T 0x00010000 /* when set 0 is transparent, otherwise 0xff */ #define OTR_A 0x00000100 /* always transparent */ #define OTR_L1 0x00000002 /* transparency controlled by CFS17 */ #define OTR_L0 0x00000001 /* transparency controlled by CFS16 */ /* * for STI colour change mode: * set VISFX_FG_COLOUR, VISFX_BG_COLOUR * set VISFX_VRAM_READ_MODE 0x05000400 * set VISFX_VRAM_WRITE_MODE 0x050000c0 */ /* fill */ #define VISFX_START 0xb3c000 #define VISFX_SIZE 0xb3c808 /* start, FX4 uses 0xb3c908 */ /* copy */ #define VISFX_COPY_SRC 0xb3c010 #define VISFX_COPY_WH 0xb3c008 #define VISFX_COPY_DST 0xb3cc00 /* * looks like ORing 0x800 to the register address starts a command * - 0x800 - fill * - 0xc00 - copy * 0x100 and 0x200 seem to have functions as well, not sure what though * for example, the FX4 ROM uses 0xb3c908 to start a rectangle fill, but * it also works with 0xb3c808 and 0xb3ca08 * same with copy, 0xc00 seems to be what matters, setting 0x100 or 0x200 * doesn't seem to make a difference * 0x400 or 0x100 by themselves don't start a command either */ /* * alpha blending operations * source and destination blend functions are in 0xf0 and 0x0f * how they're combined is in 0x700 */ #define IBO_ROP 0 /* ROP in lower 4 bit */ #define IBO_ADD 0x200 #define IBO_S_MINUS_D 0x400 /* source - dest */ #define IBO_D_MINUS_S 0x500 /* dest - source */ #define IBO_MIN 0x600 #define IBO_MAX 0x700 /* * here are the blend functions I identified * apparently the upper byte in 32bit mode is not implemented on FX2/4/6, and * neither is any blend mode that takes the colour value from CBR * so no blending with screen-to-screen blits, alpha will always read zero * the only ways to actually use alpha blending is with fills ( the alpha part * of the FG register is used ) and BINC writes, or when using constant alpha */ #define IBO_ZERO 0 #define IBO_ONE 1 #define IBO_SRC 4 /* src alpha */ #define IBO_ONE_MINUS_SRC 5 /* 1 - src alpha */ #define IBO_CBR 14 /* alpha from CBR */ #define IBO_ONE_MINUS_CBR 15 /* 1 - alpha from CBR */ #define SRC(n) ((n) << 4) #define DST(n) (n) /* * use unbuffered space for cursor registers * The _POS, _INDEX and _DATA registers work exactly like on HCRX */ #define VISFX_CURSOR_POS 0x400000 #define VISFX_CURSOR_ENABLE 0x80000000 #define VISFX_CURSOR_INDEX 0x400004 #define VISFX_CURSOR_DATA 0x400008 #define VISFX_CURSOR_FG 0x40000c #define VISFX_CURSOR_BG 0x400010 #define VISFX_COLOR_MASK 0x800018 #define VISFX_COLOR_INDEX 0x800020 #define VISFX_COLOR_VALUE 0x800024 #define VISFX_FATTR 0x80003c /* force attribute */ #define VISFX_MPC 0x80004c #define MPC_VIDEO_ON 0x0c #define MPC_VSYNC_OFF 0x02 #define MPC_HSYNC_OFF 0x01 #define VISFX_CFS0 0x800100 /* colour function select */ #define VISFX_CFS(n) (VISFX_CFS0 + ((n) << 2)) /* 0 ... 6 for image planes, 7 or bypass, 16 and 17 for overlay */ #define CFS_CR 0x80 // enable color recovery #define CFS_332 0x00 // R3G3B2 #define CFS_8I 0x40 // 8bit indexed #define CFS_8F 0x70 // ARGB8 #define CFS_LUT0 0x00 // use LUT 0 #define CFS_LUT1 0x01 // LUT 1 etc. #define CFS_BYPASS 0x07 // bypass LUT #endif /* SUMMITREG_H */