/* $NetBSD: pxreg.h,v 1.6 1999/05/18 21:51:58 ad Exp $ */ /*- * Copyright (c) 1999 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Andy Doran. * * 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. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``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 FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifndef _PXREG_H_ #define _PXREG_H_ 1 /* * Definitions for the PixelStamp on Digital's 2D and 3D TurboChannel * graphics accelerators. Stamp command packets take this general format: * * command word * * per-packet context (optional): * line width * xy mask * cliping rectangle min & max * rgb constant * z constant * * per-primitive context (optional): * xy mask * xy mask address * primitive data (vertices, spans info, video) * line width * halfspace equals conditions * rgb flat, or rgb{1,2,3} smooth * z flat, or z{1,2,3} smooth */ /* * These definitions are for the stamp command word, the first in * each packet. This is a 32-bit word on all architectures. */ /* opcode type */ #define STAMP_CMD_POINTS (0x0000) #define STAMP_CMD_LINES (0x0001) #define STAMP_CMD_TRIANGLES (0x0002) #define STAMP_CMD_COPYSPANS (0x0005) #define STAMP_CMD_READSPANS (0x0006) #define STAMP_CMD_WRITESPANS (0x0007) #define STAMP_CMD_VIDEO (0x0008) /* RGB format */ #define STAMP_RGB_NONE (0x0000) #define STAMP_RGB_CONST (0x0010) #define STAMP_RGB_FLAT (0x0020) #define STAMP_RGB_SMOOTH (0x0030) /* Z format */ #define STAMP_Z_NONE (0x0000) #define STAMP_Z_CONST (0x0040) #define STAMP_Z_FLAT (0x0080) #define STAMP_Z_SMOOTH (0x00c0) /* XY mask format */ #define STAMP_XY_NONE (0x0000) #define STAMP_XY_PERPACKET (0x0100) #define STAMP_XY_PERPRIMATIVE (0x0200) /* line width format */ #define STAMP_LW_NONE (0x0000) #define STAMP_LW_PERPACKET (0x0400) #define STAMP_LW_PERPRIMATIVE (0x0800) /* misc. */ #define STAMP_CLIPRECT (0x00080000) #define STAMP_MESH (0x00200000) #define STAMP_AALINE (0x00800000) #define STAMP_HS_EQUALS (0x80000000) /* * These definitions are for the stamp update word, also part of * each packet. */ /* plane */ #define STAMP_PLANE_8X3 (0 << 5) #define STAMP_PLANE_24 (1 << 5) /* when to write enable the stamp */ #define STAMP_WE_SIGN (0x04 << 8) #define STAMP_WE_XYMASK (0x02 << 8) #define STAMP_WE_CLIPRECT (0x01 << 8) #define STAMP_WE_NONE (0x00 << 8) /* update method */ #define STAMP_METHOD_CLEAR (0x60 << 12) #define STAMP_METHOD_AND (0x14 << 12) #define STAMP_METHOD_ANDREV (0x15 << 12) #define STAMP_METHOD_COPY (0x20 << 12) #define STAMP_METHOD_ANDINV (0x16 << 12) #define STAMP_METHOD_NOOP (0x40 << 12) #define STAMP_METHOD_XOR (0x11 << 12) #define STAMP_METHOD_OR (0x0f << 12) #define STAMP_METHOD_NOR (0x17 << 12) #define STAMP_METHOD_EQUIV (0x10 << 12) #define STAMP_METHOD_INV (0x4e << 12) #define STAMP_METHOD_ORREV (0x0e << 12) #define STAMP_METHOD_COPYINV (0x2d << 12) #define STAMP_METHOD_ORINV (0x0d << 12) #define STAMP_METHOD_NAND (0x0c << 12) #define STAMP_METHOD_SET (0x6c << 12) #define STAMP_METHOD_SUM (0x00 << 12) #define STAMP_METHOD_DIFF (0x02 << 12) #define STAMP_METHOD_REVDIFF (0x01 << 12) /* double buffering */ #define STAMP_DB_NONE (0x00 << 28) #define STAMP_DB_01 (0x01 << 28) #define STAMP_DB_12 (0x02 << 28) #define STAMP_DB_02 (0x04 << 28) /* misc */ #define STAMP_UPDATE_ENABLE (1) #define STAMP_SAVE_SIGN (1<<6) #define STAMP_SAVE_ALPHA (1<<7) #define STAMP_SUPERSAMPLE (1<<11) #define STAMP_SPAN (1<<19) #define STAMP_COPYSPAN_ALIGNED (1<<20) #define STAMP_MINMAX (1<<21) #define STAMP_MULT (1<<22) #define STAMP_MULTACC (1<<23) #define STAMP_HALF_BUFF (1<27) #define STAMP_INITIALIZE (1<<31) #ifdef _KERNEL #define STAMP_WIDTH (pxi->pxi_stampw) #define STAMP_HEIGHT (pxi->pxi_stamph) #endif #define XMASKADDR(__sx, __a) (((__a)-((__sx) % STAMP_WIDTH)) & 0xF) #define YMASKADDR(__sy, __b) (((__b)-((__sy) % STAMP_HEIGHT)) & 0xF) #define XYMASKADDR(_x,_y,_a,_b) (XMASKADDR(_x,_a) << 16 | YMASKADDR(_y,_b)) /* * For the poll register. Don't mess with the # of retries or the delay * unless you know what you're doing. According to OSF header files, * the delay on Alpha is 20us, and the # of retries should be 4000. This is * inadequate, particularly on the PXG which seems to run at a higher * frequency. The STIC gets wedged while scrolling quite a lot. */ #define STAMP_OK (0) #define STAMP_BUSY (1) #define STAMP_RETRIES (7000) #define STAMP_DELAY (20) #ifdef alpha #define __PXS(n) ((n) << 1) #else #define __PXS(n) (n) #endif /* * Hardware offsets within PX board's TC slot. */ #define PX_STIC_POLL_OFFSET __PXS(0x000000) /* STIC DMA poll space */ #define PX_STAMP_OFFSET __PXS(0x0c0000) /* pixelstamp space on STIC */ #define PX_STIC_OFFSET __PXS(0x180000) /* STIC registers */ #define PX_VDAC_OFFSET __PXS(0x200000) /* VDAC registers (bt459) */ #define PX_VDAC_RESET_OFFSET __PXS(0x300000) /* VDAC reset register */ #define PX_ROM_OFFSET __PXS(0x300000) /* ROM code */ /* * Hardware offsets within PXG board's TC slot. */ #define PXG_STIC_POLL_OFFSET __PXS(0x000000) /* STIC DMA poll space */ #define PXG_STAMP_OFFSET __PXS(0x0c0000) /* pixelstamp space on STIC */ #define PXG_STIC_OFFSET __PXS(0x180000) /* STIC registers */ #define PXG_SRAM_OFFSET __PXS(0x200000) /* N10 SRAM */ #define PXG_HOST_INTR_OFFSET __PXS(0x280000) /* N10 host interrupt */ #define PXG_COPROC_INTR_OFFSET __PXS(0x2c0000) /* N10 coprocessor interrupt */ #define PXG_VDAC_OFFSET __PXS(0x300000) /* VDAC registers (bt459) */ #define PXG_VDAC_RESET_OFFSET __PXS(0x340000) /* VDAC reset register */ #define PXG_ROM_OFFSET __PXS(0x380000) /* ROM code */ #define PXG_N10_START_OFFSET __PXS(0x380000) /* N10 start register */ #define PXG_N10_RESET_OFFSET __PXS(0x3c0000) /* N10 reset (stop?) register */ /* * STIC registers */ struct stic_regs { #ifdef __alpha volatile int32_t __pad0; volatile int32_t __pad1; volatile int32_t __pad2; volatile int32_t __pad3; volatile int32_t hsync; volatile int32_t __pad4; volatile int32_t hsync2; volatile int32_t __pad5; volatile int32_t hblank; volatile int32_t __pad6; volatile int32_t vsync; volatile int32_t __pad7; volatile int32_t vblank; volatile int32_t __pad8; volatile int32_t vtest; volatile int32_t __pad9; volatile int32_t ipdvint; volatile int32_t __pad10; volatile int32_t __pad11; volatile int32_t __pad12; volatile int32_t sticsr; volatile int32_t __pad13; volatile int32_t busdat; volatile int32_t __pad14; volatile int32_t busadr; volatile int32_t __pad15; volatile int32_t __pad16; volatile int32_t __pad17; volatile int32_t buscsr; volatile int32_t __pad18; volatile int32_t modcl; volatile int32_t __pad19; #else /* __alpha */ volatile int32_t __pad0; volatile int32_t __pad1; volatile int32_t hsync; volatile int32_t hsync2; volatile int32_t hblank; volatile int32_t vsync; volatile int32_t vblank; volatile int32_t vtest; volatile int32_t ipdvint; volatile int32_t __pad2; volatile int32_t sticsr; volatile int32_t busdat; volatile int32_t busadr; volatile int32_t __pad3; volatile int32_t buscsr; volatile int32_t modcl; #endif /* __alpha */ }; /* * Bit definitions for px_stic_regs.stic_csr. * these appear to exactly what the PROM tests use. */ #define STIC_CSR_TSTFNC 0x00000003 # define STIC_CSR_TSTFNC_NORMAL 0 # define STIC_CSR_TSTFNC_PARITY 1 # define STIC_CSR_TSTFNC_CNTPIX 2 # define STIC_CSR_TSTFNC_TSTDAC 3 #define STIC_CSR_CHECKPAR 0x00000004 #define STIC_CSR_STARTVT 0x00000010 #define STIC_CSR_START 0x00000020 #define STIC_CSR_RESET 0x00000040 #define STIC_CSR_STARTST 0x00000080 /* * Bit definitions for stic_regs.int. * Three four-bit wide fields, for error (E), vertical-blank (V), and * packetbuf-done (P) intererupts, respectively. * The low-order three bits of each field are enable, requested, * and acknowledge bits. The top bit of each field is unused. */ #define STIC_INT_E_EN 0x00000001 #define STIC_INT_E 0x00000002 #define STIC_INT_E_WE 0x00000004 #define STIC_INT_V_EN 0x00000100 #define STIC_INT_V 0x00000200 #define STIC_INT_V_WE 0x00000400 #define STIC_INT_P_EN 0x00010000 #define STIC_INT_P 0x00020000 #define STIC_INT_P_WE 0x00040000 #define STIC_INT_E_MASK (STIC_INT_E_EN | STIC_INT_E | STIC_INT_E_WE) #define STIC_INT_V_MASK (STIC_INT_V_EN | STIC_INT_V | STIC_INT_V_WE) #define STIC_INT_P_MASK (STIC_INT_P_EN | STIC_INT_P | STIC_INT_P_WE) #define STIC_INT_MASK (STIC_INT_E_MASK | STIC_INT_P_MASK | STIC_INT_V_MASK) #define STIC_INT_WE (STIC_INT_E_WE | STIC_INT_V_WE | STIC_INT_P_WE) #define STIC_INT_CLR (STIC_INT_E_EN | STIC_INT_V_EN | STIC_INT_P_EN) /* * Convert a system physical address to STIC poll offset. Polling the offset * returned will initiate DMA at the provided address. For the PX, the STIC * only sees 23-bits (8MB) of address space. Also, bits 21-22 in physical * address space map to bits 27-28 in the STIC's warped view of the world. * This is also true for bits 15-20, which map to bits 18-23. Bits 0 and 1 * are meaningless, because everything is word aligned. * * The final shift-right-by-9 is to map the address to poll register offset. * These begin at px_softc.poll (which should obviously be added to the * return value of this function to get a vaild poll address). * * This shift right gives us a granularity of 512 bytes when DMAing. The * holes in STIC address space mean that DMAs can never cross a 32kB * boundary. The maximum size for a DMA AFAIK is about 4kB. * * For the PXG, the PA is relative to SRAM (i.e. i860) address space, not * system address space. The poll address will either return STAMP_OK, or * STAMP_BUSY. */ static __inline__ u_long px_sys2stic __P((void *)); static __inline__ u_long px_sys2dma __P((void *)); static __inline__ volatile int32_t *px_poll_addr __P((caddr_t, void *)); static __inline__ u_long px_sys2stic(addr) void *addr; { u_long v; v = (u_long)addr; v = ((v & ~0x7fff) << 3) | (v & 0x7fff); return (v & 0x1ffff800); } static __inline__ u_long px_sys2dma(addr) void *addr; { return px_sys2stic(addr) >> 9; } /* * This is simply a wrapper for the above that returns a proper VA to * poll when given a px_softc. */ static __inline__ volatile int32_t * px_poll_addr(slotbase, addr) caddr_t slotbase; void *addr; { return (volatile int32_t *)(slotbase + px_sys2dma(addr)); } #endif /* _PXREG_H_ */