/* $OpenBSD: viper.h,v 1.2 1999/06/29 20:56:10 mickey Exp $ */ /* * Copyright 1996 1995 by Open Software Foundation, Inc. * All Rights Reserved * * Permission to use, copy, modify, and distribute this software and * its documentation for any purpose and without fee is hereby granted, * provided that the above copyright notice appears in all copies and * that both the copyright notice and this permission notice appear in * supporting documentation. * * OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE. * * IN NO EVENT SHALL OSF BE LIABLE FOR ANY SPECIAL, INDIRECT, OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT, * NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION * WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ /* * Copyright (c) 1991,1994 The University of Utah and * the Computer Systems Laboratory (CSL). All rights reserved. * * Permission to use, copy, modify and distribute this software is hereby * granted provided that (1) source code retains these copyright, permission, * and disclaimer notices, and (2) redistributions including binaries * reproduce the notices in supporting documentation, and (3) all advertising * materials mentioning features or use of this software display the following * acknowledgement: ``This product includes software developed by the * Computer Systems Laboratory at the University of Utah.'' * * THE UNIVERSITY OF UTAH AND CSL ALLOW FREE USE OF THIS SOFTWARE IN ITS "AS * IS" CONDITION. THE UNIVERSITY OF UTAH AND CSL DISCLAIM ANY LIABILITY OF * ANY KIND FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * CSL requests users of this software to return to csl-dist@cs.utah.edu any * improvements that they make and grant CSL redistribution rights. * * Utah $Hdr: viper.h 1.8 94/12/14$ */ #define VIPER_HPA 0xfffbf000 /* * Viper control register. * * With respect to arbitration preference (*_prf), only one of these may be * set at any one time. "preference" means that a particular device will * be granted the bus on every other arbitration cycle; these bits default * to unset (0). Similarly, a device may be denied the bus (*_den); these * bits default to *set* (1). * * The macros V_CTRL_ANYPRF or V_CTRL_ANYDEN should be used to determine * if any preference or deny bits are set. */ #define VIPER_BITS "\020\001eisa_den\002eisa_prf\003core_den\004core_prf" \ "\005sgc1_den\006sgc1_prf\007sgc0_den\010sgc0_prf" \ "\012cpu_prf\021lpmc_en\022ipref_en" struct vi_ctrl { /* (WO) */ u_int vsc_tout:13, /* VSC clocks to wait before buserr timeout */ : 1, ipref_en: 1, /* enable instruction prefetching */ lpmc_en : 1, /* enable Low Priority Machine Checks */ : 6, cpu_prf : 1, /* CPU has arbitration preference */ : 1, sgc0_prf: 1, /* SGC0 has arbitration preference */ sgc0_den: 1, /* SGC0 denied bus grants */ sgc1_prf: 1, /* SGC1 has arbitration preference */ sgc1_den: 1, /* SGC1 denied bus grants */ core_prf: 1, /* CORE bus has arbitration preference */ core_den: 1, /* CORE denied bus grants */ eisa_prf: 1, /* EISA bus has arbitration preference */ eisa_den: 1; /* EISA denied bus grants */ }; #define VI_CTRL_ANYPRF 0x02AA #define VI_CTRL_ANYDEN 0x0055 #define VI_CTRL PAGE0->pz_Pdep.pd_Viper.v_Ctrlcpy #define VI_STAT_BITS "\020\001grf_buserr\002cpu_buserr\003ven_tmo" \ "\004ven_buserr\005toc\006hardecc\007softecc\010cmdrst" struct vi_stat { /* (RO) */ u_int hw_rev :24, /* Viper hardware revision (24 bits!) */ cmdreset: 1, /* set if last chip reset caused by CMD_RESET */ softecc : 1, /* correctable memory error (lpmc_en set) */ hardecc : 1, /* uncorrectable memory error (HPMC) */ toc : 1, /* Transfer Of Control signaled */ vn_ader : 1, /* Venom address error (lpmc_en set) */ vn_vscto: 1, /* Venom VSC timeout (lpmc_en set) */ cpu_ader: 1, /* CPU address error or timeout (HPMC) */ grf_ader: 1; /* Graphics address error */ }; /* * Viper TRS. The structures have been defined above; the remaining * fields are described here. * * vi_intrwd (WO) * If a high to low transition of the interrupt line occurs, * Viper will send this to the CPU to be or'd into it's EIR. * In general, this is an ASP interrupt request. * * vi_mem_ctrl (WO) * Set various DRAM attributes (row, cols, refresh, etc). * * vi_mem_wrchk (WO), vi_mem_rdchk (RO) * read/write data to be for copyin/memtest. * * vi_mem_limit (WO) * Set an upper limit for non-IO memory accesses; this must * be less than the actual memory size, low 22 bits ignored. * * vi_merr_w0, vi_merr_w1, vi_merr_ckbyte, vi_merr_addr (RO) * If memory error detection enabled and soft/hard ECC error, * raw double word is stored here (w0: most significant word). * The raw checkbyte data is stored in "vi_merr_ckbyte". * The address of last logged error is in "vi_merr_addr". * */ struct vi_trs { u_int vi_control; /* PAGE0->pz_Pdep.pd_Viper.v_Ctrlcpy */ struct vi_stat vi_status; u_int vi_intrwd; u_int vi_resv1[13]; u_int vi_mem_ctrl; u_int vi_mem_wrchk; u_int vi_mem_limit; u_int vi_resv2[1]; u_int vi_merr_w1; u_int vi_merr_w2; u_int vi_merr_ckbyte; u_int vi_mem_rdchk; u_int vi_merr_addr; u_int vi_resv3[135]; }; /* ** Viper also creates HPA registers for the graphics accelerator (Venom). ** Venom has two sets of resisters; the User HPA contains registers that ** users are allowed to access, while the Supervisor HPA is only accessible ** by code running at the most priviliged level. Both sets of registers ** are defined below. */ #define VENOM_USER ((struct vn_user *)0xFFFBC000) #define VENOM_SUPR ((struct vn_supr *)0xFFFBD000) /* * Define bits in the Venom "User Control" register. */ struct vnu_ctl { u_int sdt_msk :16, /* screen door transparancy mask */ : 6, d_z_intp: 1, /* disable Z Interpolation when set */ d_c_intp: 1, /* disable Color Interpolation when set */ d_ad_inc: 1, /* disable I/O Addr Incrementing when set */ : 1, z_fast : 1, /* enable Fast Z Interpolation when set */ c_pseudo: 1, /* enable Pseudo Color when set (disable RG) */ z_prec24: 1, /* enable 24-bit Z integer precision (o/w 16) */ cmp_intp: 3; /* enable cond: Z intp owrites old Z (<,>,=) */ }; /* * When vnu_ctl's "z_prec24" is set, 24-bit Z integer precision is enabled * (otherwise 16-bit integer precision is used). When enabled, the format * of various User Control registers is changed; `vnu_prec' (defined below) * should make this format more clear. */ union vnu_prec { /* 16 or 24 bit precision */ struct { u_int zero1; /* must be zero */ u_int intg :16, /* integer part (16 bits) */ frac :12, /* fractional part (12 bits) */ zero2 : 4; /* must be zero */ } prec16; struct { u_int frac_lo : 4, /* fractional part (lower 4 bits) */ zero1 :28; /* must be zero */ u_int intg :24, /* integer part (24 bits) */ frac_hi : 8; /* fractional part (upper 8 bits) */ } prec24; }; #define vnu_p16i prec16.intg #define vnu_p16f prec16.frac #define vnu_p24i prec24.intg #define vnu_p24f ((prec24.frac_hi << 4) | prec24.frac_lo) #define vnu_p24fh prec24.frac_hi #define vnu_p24fl prec24.frac_lo /* * Venom User HPA registers. */ struct vn_user { u_int vnu_resv1[32]; struct vnu_ctl vnu_uctl; /* user control */ u_int vnu_spancnt; /* span count (13 bits, signed) */ u_int vnu_graddr; /* graphics address (24 bits: 6-29) */ u_int vnu_resv2; union vnu_prec vnu_zslope; /* Z Slope */ union vnu_prec vnu_z; /* Z */ u_int vnu_resv3[8]; u_int vnu_bslope; /* Blue Slope (12-19:int, 20-31:fra) */ u_int vnu_bcolor; /* Blue Color (12-19:int, 20-31:fra) */ u_int vnu_resv4[2]; u_int vnu_rslope; /* Red Slope (12-19:int, 20-31:fra) */ u_int vnu_rcolor; /* Red Color (12-19:int, 20-31:fra) */ u_int vnu_resv5[2]; u_int vnu_gslope; /* Green Slope (12-19:int, 20-31:fra) */ u_int vnu_gcolor; /* Green Color (12-19:int, 20-31:fra) */ }; /* * Define bits in Venom "Supervisor Control" register. */ struct vns_ctl { u_int : 4, ioaddr : 2, /* graphics addr (bits 4 & 5 of `vnu_graddr') */ d_venom : 1, /* disable Venom operation processing */ :25; }; /* * Venom Supervisor HPA registers. */ struct vn_supr { u_int vns_resv1[32]; struct vns_ctl vns_sctl; /* supervisor control */ u_int vns_zaddr; /* Z Buffer Address (RO) */ }; void viper_setintrwnd __P((u_int32_t mask)); void viper_eisa_en __P((void));