reg.h revision 1.1.1.1.10.1
1 1.1.1.1.10.1 thorpej /* $NetBSD: reg.h,v 1.1.1.1.10.1 1999/06/21 01:02:33 thorpej Exp $ */ 2 1.1 eeh 3 1.1 eeh /* 4 1.1 eeh * Copyright (c) 1992, 1993 5 1.1 eeh * The Regents of the University of California. All rights reserved. 6 1.1 eeh * 7 1.1 eeh * This software was developed by the Computer Systems Engineering group 8 1.1 eeh * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and 9 1.1 eeh * contributed to Berkeley. 10 1.1 eeh * 11 1.1 eeh * All advertising materials mentioning features or use of this software 12 1.1 eeh * must display the following acknowledgement: 13 1.1 eeh * This product includes software developed by the University of 14 1.1 eeh * California, Lawrence Berkeley Laboratory. 15 1.1 eeh * 16 1.1 eeh * Redistribution and use in source and binary forms, with or without 17 1.1 eeh * modification, are permitted provided that the following conditions 18 1.1 eeh * are met: 19 1.1 eeh * 1. Redistributions of source code must retain the above copyright 20 1.1 eeh * notice, this list of conditions and the following disclaimer. 21 1.1 eeh * 2. Redistributions in binary form must reproduce the above copyright 22 1.1 eeh * notice, this list of conditions and the following disclaimer in the 23 1.1 eeh * documentation and/or other materials provided with the distribution. 24 1.1 eeh * 3. All advertising materials mentioning features or use of this software 25 1.1 eeh * must display the following acknowledgement: 26 1.1 eeh * This product includes software developed by the University of 27 1.1 eeh * California, Berkeley and its contributors. 28 1.1 eeh * 4. Neither the name of the University nor the names of its contributors 29 1.1 eeh * may be used to endorse or promote products derived from this software 30 1.1 eeh * without specific prior written permission. 31 1.1 eeh * 32 1.1 eeh * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 33 1.1 eeh * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 34 1.1 eeh * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 35 1.1 eeh * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 36 1.1 eeh * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 37 1.1 eeh * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 38 1.1 eeh * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 39 1.1 eeh * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 40 1.1 eeh * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 41 1.1 eeh * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 42 1.1 eeh * SUCH DAMAGE. 43 1.1 eeh * 44 1.1 eeh * @(#)reg.h 8.1 (Berkeley) 6/11/93 45 1.1 eeh */ 46 1.1 eeh 47 1.1 eeh #ifndef _MACHINE_REG_H_ 48 1.1 eeh #define _MACHINE_REG_H_ 49 1.1 eeh 50 1.1 eeh /* 51 1.1 eeh * Registers passed to trap/syscall/etc. 52 1.1 eeh * This structure is known to occupy exactly 80 bytes (see locore.s). 53 1.1 eeh * Note, tf_global[0] is not actually written (since g0 is always 0). 54 1.1 eeh * (The slot tf_global[0] is used to send a copy of %wim to kernel gdb. 55 1.1 eeh * This is known as `cheating'.) 56 1.1 eeh */ 57 1.1 eeh struct trapframe32 { 58 1.1 eeh int tf_psr; /* psr */ 59 1.1 eeh int tf_pc; /* return pc */ 60 1.1 eeh int tf_npc; /* return npc */ 61 1.1 eeh int tf_y; /* %y register */ 62 1.1 eeh int tf_global[8]; /* global registers in trap's caller */ 63 1.1 eeh int tf_out[8]; /* output registers in trap's caller */ 64 1.1 eeh }; 65 1.1 eeh 66 1.1 eeh /* 67 1.1 eeh * The v9 trapframe is a bit more complex. Since we don't get a free 68 1.1 eeh * register window with each trap we need some way to keep track of 69 1.1 eeh * pending traps. We use tf_fault to save the faulting address for 70 1.1 eeh * memory faults and tf_kstack to thread trapframes on the kernel 71 1.1 eeh * stack(s). If tf_kstack == 0 then this is the lowest level trap; 72 1.1 eeh * we came from user mode. 73 1.1 eeh * (The slot tf_global[0] is used to store the %fp when this is used 74 1.1 eeh * as a clockframe. This is known as `cheating'.) 75 1.1 eeh */ 76 1.1 eeh struct trapframe { 77 1.1 eeh int64_t tf_tstate; /* tstate register */ 78 1.1 eeh int64_t tf_pc; /* return pc */ 79 1.1 eeh int64_t tf_npc; /* return npc */ 80 1.1 eeh int64_t tf_fault; /* faulting addr -- need somewhere to save it */ 81 1.1 eeh int64_t tf_kstack; /* kernel stack of prev tf */ 82 1.1 eeh int tf_y; /* %y register -- 32-bits */ 83 1.1 eeh short tf_tt; /* What type of trap this was */ 84 1.1 eeh char tf_pil; /* What IRQ we're handling */ 85 1.1 eeh char tf_oldpil; /* What our old SPL was */ 86 1.1 eeh int64_t tf_global[8]; /* global registers in trap's caller */ 87 1.1 eeh /* n.b. tf_global[0] is used for fp when this is a clockframe */ 88 1.1 eeh int64_t tf_out[8]; /* output registers in trap's caller */ 89 1.1 eeh int64_t tf_local[8]; /* local registers in trap's caller */ 90 1.1 eeh int64_t tf_in[8]; /* in registers in trap's caller (for debug) */ 91 1.1 eeh }; 92 1.1 eeh 93 1.1 eeh /* 94 1.1 eeh * Register windows. Each stack pointer (%o6 aka %sp) in each window 95 1.1 eeh * must ALWAYS point to some place at which it is safe to scribble on 96 1.1 eeh * 64 bytes. (If not, your process gets mangled.) Furthermore, each 97 1.1 eeh * stack pointer should be aligned on an 8-byte boundary for v8 stacks 98 1.1 eeh * or a 16-byte boundary (plus the BIAS) for v9 stacks (the kernel 99 1.1 eeh * as currently coded allows arbitrary alignment, but with a hefty 100 1.1 eeh * performance penalty). 101 1.1 eeh */ 102 1.1 eeh struct rwindow32 { 103 1.1 eeh int rw_local[8]; /* %l0..%l7 */ 104 1.1 eeh int rw_in[8]; /* %i0..%i7 */ 105 1.1 eeh }; 106 1.1 eeh 107 1.1 eeh /* Don't forget the BIAS!! */ 108 1.1 eeh struct rwindow64 { 109 1.1 eeh int64_t rw_local[8]; /* %l0..%l7 */ 110 1.1 eeh int64_t rw_in[8]; /* %i0..%i7 */ 111 1.1 eeh }; 112 1.1 eeh 113 1.1 eeh union rwindow { 114 1.1 eeh struct rwindow64 v9; 115 1.1 eeh struct rwindow32 v8; 116 1.1 eeh }; 117 1.1 eeh 118 1.1 eeh /* 119 1.1 eeh * Clone trapframe for now; this seems to be the more useful 120 1.1 eeh * than the old struct reg above. 121 1.1 eeh */ 122 1.1 eeh struct reg32 { 123 1.1 eeh int r_psr; /* psr */ 124 1.1 eeh int r_pc; /* return pc */ 125 1.1 eeh int r_npc; /* return npc */ 126 1.1 eeh int r_y; /* %y register */ 127 1.1 eeh int r_global[8]; /* global registers in trap's caller */ 128 1.1 eeh int r_out[8]; /* output registers in trap's caller */ 129 1.1 eeh }; 130 1.1 eeh 131 1.1 eeh struct reg { 132 1.1 eeh int64_t r_tstate; /* tstate register */ 133 1.1 eeh int64_t r_pc; /* return pc */ 134 1.1 eeh int64_t r_npc; /* return npc */ 135 1.1 eeh int r_y; /* %y register -- 32-bits */ 136 1.1 eeh int64_t r_global[8]; /* global registers in trap's caller */ 137 1.1 eeh int64_t r_out[8]; /* output registers in trap's caller */ 138 1.1 eeh }; 139 1.1 eeh 140 1.1 eeh #include <machine/fsr.h> 141 1.1 eeh 142 1.1 eeh /* 143 1.1 eeh * FP coprocessor registers. 144 1.1 eeh * 145 1.1 eeh * FP_QSIZE is the maximum coprocessor instruction queue depth 146 1.1 eeh * of any implementation on which the kernel will run. David Hough: 147 1.1 eeh * ``I'd suggest allowing 16 ... allowing an indeterminate variable 148 1.1 eeh * size would be even better''. Of course, we cannot do that; we 149 1.1 eeh * need to malloc these. 150 1.1 eeh */ 151 1.1 eeh #define FP_QSIZE 16 152 1.1 eeh #define ALIGNFPSTATE(f) ((struct fpstate *)(((long)(f))&(~BLOCK_ALIGN))) 153 1.1 eeh 154 1.1 eeh struct fp_qentry { 155 1.1 eeh int *fq_addr; /* the instruction's address */ 156 1.1 eeh int fq_instr; /* the instruction itself */ 157 1.1 eeh }; 158 1.1 eeh struct fpstate { 159 1.1 eeh u_int fs_regs[64]; /* our view is 64 32-bit registers */ 160 1.1 eeh int64_t fs_fsr; /* %fsr */ 161 1.1 eeh int fs_qsize; /* actual queue depth */ 162 1.1 eeh struct fp_qentry fs_queue[FP_QSIZE]; /* queue contents */ 163 1.1 eeh }; 164 1.1 eeh 165 1.1 eeh /* 166 1.1 eeh * Clone fpstate into an fpreg structure to satisfy <kern/sys_process.c> 167 1.1 eeh */ 168 1.1 eeh struct fpreg { 169 1.1 eeh u_int fr_regs[64]; /* our view is 64 32-bit registers */ 170 1.1 eeh int64_t fr_fsr; /* %fsr */ 171 1.1.1.1.10.1 thorpej int fr_qsize; /* actual queue depth */ 172 1.1.1.1.10.1 thorpej struct fp_qentry fr_queue[FP_QSIZE]; /* queue contents */ 173 1.1.1.1.10.1 thorpej }; 174 1.1.1.1.10.1 thorpej 175 1.1.1.1.10.1 thorpej /* 176 1.1.1.1.10.1 thorpej * 32-bit fpreg used by 32-bit sparc CPUs 177 1.1.1.1.10.1 thorpej */ 178 1.1.1.1.10.1 thorpej struct fpreg32 { 179 1.1.1.1.10.1 thorpej u_int fr_regs[32]; /* our view is 32 32-bit registers */ 180 1.1.1.1.10.1 thorpej int fr_fsr; /* %fsr */ 181 1.1 eeh int fr_qsize; /* actual queue depth */ 182 1.1 eeh struct fp_qentry fr_queue[FP_QSIZE]; /* queue contents */ 183 1.1 eeh }; 184 1.1 eeh 185 1.1 eeh #endif /* _MACHINE_REG_H_ */ 186
Indexes created Sun Oct 26 13:09:57 GMT 2025