Annotation of kernel/machdep/i386/genassym.c, revision 1.1.1.1

1.1       root        1: /*
                      2:  * Copyright (c) 1999 Apple Computer, Inc. All rights reserved.
                      3:  *
                      4:  * @APPLE_LICENSE_HEADER_START@
                      5:  * 
                      6:  * Portions Copyright (c) 1999 Apple Computer, Inc.  All Rights
                      7:  * Reserved.  This file contains Original Code and/or Modifications of
                      8:  * Original Code as defined in and that are subject to the Apple Public
                      9:  * Source License Version 1.1 (the "License").  You may not use this file
                     10:  * except in compliance with the License.  Please obtain a copy of the
                     11:  * License at http://www.apple.com/publicsource and read it before using
                     12:  * this file.
                     13:  * 
                     14:  * The Original Code and all software distributed under the License are
                     15:  * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
                     16:  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
                     17:  * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
                     18:  * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
                     19:  * License for the specific language governing rights and limitations
                     20:  * under the License.
                     21:  * 
                     22:  * @APPLE_LICENSE_HEADER_END@
                     23:  */
                     24: 
                     25: /* 
                     26:  * Mach Operating System
                     27:  * Copyright (c) 1989 Carnegie-Mellon University
                     28:  * Copyright (c) 1988 Carnegie-Mellon University
                     29:  * All rights reserved.  The CMU software License Agreement specifies
                     30:  * the terms and conditions for use and redistribution.
                     31:  */
                     32: /* 
                     33:  * HISTORY
                     34:  * Revision 1.1.1.1  1997/09/30 02:45:12  wsanchez
                     35:  * Import of kernel from umeshv/kernel
                     36:  *
                     37:  *
                     38:  * 4-Jan-95 Curtis Galloway (galloway) at NeXT
                     39:  *     Created cross-buildable version from old genassym.c.
                     40:  *
                     41:  * 16-Mar-93  Curtis Galloway (galloway) at NeXT
                     42:  *      Remove obsolete 68k timer references.
                     43:  *
                     44:  * Revision 1.4.1.3  91/03/28  08:43:49  rvb
                     45:  *     Flush THREAD_EXIT & THREAD_EXIT_CODE for X134.
                     46:  *     [91/03/23            rvb]
                     47:  * 
                     48:  * Revision 1.4.1.2  90/02/09  17:23:20  rvb
                     49:  *     Constants for Mach emulation support.
                     50:  *     [90/02/09            rvb]
                     51:  * 
                     52:  * Revision 1.4.1.1  90/01/02  13:50:28  rvb
                     53:  *     Flush MACH_TIME.
                     54:  * 
                     55:  * Revision 1.4  89/04/05  12:57:30  rvb
                     56:  *     X78: no more vmmeter
                     57:  *     [89/03/24            rvb]
                     58:  * 
                     59:  * Revision 1.3  89/02/26  12:31:18  gm0w
                     60:  *     Changes for cleanup.
                     61:  * 
                     62:  * 31-Dec-88  Robert Baron (rvb) at Carnegie-Mellon University
                     63:  *     Derived from MACH2.0 vax release.
                     64:  *     Still a lot of dead wood to cleanup.
                     65:  *
                     66:  * 11-Dec-87  Stephen Schwab (schwab) at Carnegie-Mellon University
                     67:  *     For 650, define ssc timer symbolic offsets.
                     68:  *
                     69:  */
                     70: 
                     71: #import <confdep.h>
                     72: 
                     73: #import <stddef.h>
                     74: #import <mach/mach_types.h>
                     75: 
                     76: #import <sys/param.h>
                     77: #import <sys/buf.h>
                     78: #import <sys/vmparam.h>
                     79: #import <sys/dir.h>
                     80: #import <sys/proc.h>
                     81: #import <sys/user.h>
                     82: #import <sys/mbuf.h>
                     83: #import <sys/msgbuf.h>
                     84: 
                     85: #import <kern/lock.h>
                     86: 
                     87: #import <kern/thread.h>
                     88: #import <kern/task.h>
                     89: 
                     90: #import <fp_emul.h>
                     91: #if    FP_EMUL
                     92: #import <machdep/i386/fp_emul/fp_emul.h>
                     93: #endif
                     94: 
                     95: int _ERR = offsetof(thread_saved_state_t, frame.err);
                     96: int _EFL = offsetof(thread_saved_state_t, frame.eflags);
                     97: int _EBP = offsetof(thread_saved_state_t, regs.ebp);
                     98: int _P_PRI = offsetof(struct proc, p_priority);
                     99: int _P_STAT = offsetof(struct proc, p_stat);
                    100: int _P_SIG = offsetof(struct proc, p_siglist);
                    101: int _P_FLAG = offsetof(struct proc, p_flag);
                    102: int _SSLEEP = SSLEEP;
                    103: int _SRUN = SRUN;
                    104: int _RU_MINFLT = offsetof(struct rusage, ru_minflt);
                    105: int _PR_BASE = offsetof(struct uprof, pr_base);
                    106: int _PR_SIZE = offsetof(struct uprof, pr_size);
                    107: int _PR_OFF = offsetof(struct uprof, pr_off);
                    108: int _PR_SCALE = offsetof(struct uprof, pr_scale);
                    109: int _U_AR0 = offsetof(struct uthread, uu_ar0);
                    110: int _THREAD_PCB = offsetof(struct thread, pcb);
                    111: int _THREAD_RECOVER = offsetof(struct thread, recover);
                    112: int _THREAD_TASK = offsetof(struct thread, task);
                    113: int _THREAD_AST = offsetof(struct thread, ast);
                    114: int _AST_ZILCH = AST_ZILCH;
                    115: //     sel_conv.sel = NULL_SEL;
                    116: //int _NULLSEL = sel_conv.sel_data);
                    117: sel_t _NULLSEL = NULL_SEL;
                    118: //     sel_conv.sel = KCS_SEL;
                    119: //int _KCSSEL = sel_conv.sel_data);
                    120: sel_t _KCSSEL = KCS_SEL;
                    121: //     sel_conv.sel = KDS_SEL;
                    122: //int _KDSSEL = sel_conv.sel_data);
                    123: sel_t _KDSSEL = KDS_SEL;
                    124: //     sel_conv.sel = LCODE_SEL;
                    125: //int _LCODESEL = sel_conv.sel_data);
                    126: sel_t _LCODESEL = LCODE_SEL;
                    127: //     sel_conv.sel = LDATA_SEL;
                    128: //int _LDATASEL = sel_conv.sel_data);
                    129: sel_t _LDATASEL = LDATA_SEL;
                    130: int _VM_MIN_KERNEL_ADDRESS  = VM_MIN_KERNEL_ADDRESS;
                    131: int _KERNEL_LINEAR_BASE  = KERNEL_LINEAR_BASE;
                    132: int _KERN_FAILURE = KERN_FAILURE;
                    133: 
                    134: #if    FP_EMUL
                    135: //     sel_conv.sel = FPSTATE_SEL;
                    136: //int _FPSTATESEL = sel_conv.sel_data);
                    137: int _sr_masks  = offsetof(fp_state_t, environ.control);
                    138: int _sr_controls  = (offsetof(fp_state_t, environ.control)+1);
                    139: int _sr_errors  =offsetof(fp_state_t, environ.status);
                    140: int _sr_flags  = (offsetof(fp_state_t, environ.status)+1);
                    141: int _sr_tags  = offsetof(fp_state_t, environ.tag);
                    142: int _sr_instr_offset  = offsetof(fp_state_t, environ.ip);
                    143: int _sr_instr_base  = offsetof(fp_state_t, environ.cs);
                    144: int _sr_mem_offset  = offsetof(fp_state_t, environ.dp);
                    145: int _sr_mem_base  = offsetof(fp_state_t, environ.ds);
                    146: int _sr_regstack  = offsetof(fp_state_t, stack);
                    147: 
                    148: int _work_area  = offsetof(fp_emul_state_t, emul_work_area);
                    149: int _mem_operand_pointer  = offsetof(fp_emul_state_t, emul_work_area.mem_operand_pointer);
                    150: int _instruction_pointer  = offsetof(fp_emul_state_t, emul_work_area.instruction_pointer);
                    151: int _operation_type  = offsetof(fp_emul_state_t, emul_work_area.operation_type);
                    152: int _reg_num  = offsetof(fp_emul_state_t, emul_work_area.reg_num);
                    153: int _op1_format  = offsetof(fp_emul_state_t, emul_work_area.op1_format);
                    154: int _op1_location  = offsetof(fp_emul_state_t, emul_work_area.op1_location);
                    155: int _op1_use_up  = offsetof(fp_emul_state_t, emul_work_area.op1_use_up);
                    156: int _op2_format  = offsetof(fp_emul_state_t, emul_work_area.op2_format);
                    157: int _op2_location  = offsetof(fp_emul_state_t, emul_work_area.op2_location);
                    158: int _op2_use_up  = offsetof(fp_emul_state_t, emul_work_area.op2_use_up);
                    159: int _result_format  = offsetof(fp_emul_state_t, emul_work_area.result_format);
                    160: int _result_location  = offsetof(fp_emul_state_t, emul_work_area.result_location);
                    161: int _result2_format  = offsetof(fp_emul_state_t, emul_work_area.result2_format);
                    162: int _dword_frac1  = offsetof(fp_emul_state_t, emul_work_area.dword_frac1);
                    163: int _sign1  = offsetof(fp_emul_state_t, emul_work_area.sign1);
                    164: int _sign1_ext  = offsetof(fp_emul_state_t, emul_work_area.sign1_ext);
                    165: int _tag1  = offsetof(fp_emul_state_t, emul_work_area.tag1);
                    166: int _tag1_ext  = offsetof(fp_emul_state_t, emul_work_area.tag1_ext);
                    167: int _expon1  = offsetof(fp_emul_state_t, emul_work_area.expon1);
                    168: int _expon1_ext  = offsetof(fp_emul_state_t, emul_work_area.expon1_ext);
                    169: int _dword_frac2  = offsetof(fp_emul_state_t, emul_work_area.dword_frac2);
                    170: int _sign2  = offsetof(fp_emul_state_t, emul_work_area.sign2);
                    171: int _sign2_ext  = offsetof(fp_emul_state_t, emul_work_area.sign2_ext);
                    172: int _tag2  = offsetof(fp_emul_state_t, emul_work_area.tag2);
                    173: int _tag2_ext  = offsetof(fp_emul_state_t, emul_work_area.tag2_ext);
                    174: int _expon2  = offsetof(fp_emul_state_t, emul_work_area.expon2);
                    175: int _expon2_ext  = offsetof(fp_emul_state_t, emul_work_area.expon2_ext);
                    176: int _before_error_signals  = offsetof(fp_emul_state_t, emul_work_area.before_error_signals);
                    177: int _extra_dword_reg  = offsetof(fp_emul_state_t, emul_work_area.extra_dword_reg);
                    178: int _result_dword_frac  = offsetof(fp_emul_state_t, emul_work_area.result_dword_frac);
                    179: int _result_sign  = offsetof(fp_emul_state_t, emul_work_area.result_sign);
                    180: int _result_sign_ext  = offsetof(fp_emul_state_t, emul_work_area.result_sign_ext);
                    181: int _result_tag  = offsetof(fp_emul_state_t, emul_work_area.result_tag);
                    182: int _result_tag_ext  = offsetof(fp_emul_state_t, emul_work_area.result_tag_ext);
                    183: int _result_expon  = offsetof(fp_emul_state_t, emul_work_area.result_expon);
                    184: int _result_expon_ext  = offsetof(fp_emul_state_t, emul_work_area.result_expon_ext);
                    185: int _result2_dword_frac  = offsetof(fp_emul_state_t, emul_work_area.result2_dword_frac);
                    186: int _result2_sign  = offsetof(fp_emul_state_t, emul_work_area.result2_sign);
                    187: int _result2_sign_ext  = offsetof(fp_emul_state_t, emul_work_area.result2_sign_ext);
                    188: int _result2_tag  = offsetof(fp_emul_state_t, emul_work_area.result2_tag);
                    189: int _result2_tag_ext  = offsetof(fp_emul_state_t, emul_work_area.result2_tag_ext);
                    190: int _result2_expon  = offsetof(fp_emul_state_t, emul_work_area.result2_expon);
                    191: int _result2_expon_ext  = offsetof(fp_emul_state_t, emul_work_area.result2_expon_ext);
                    192: int _dword_cop  = offsetof(fp_emul_state_t, emul_work_area.dword_cop);
                    193: int _dword_dop  = offsetof(fp_emul_state_t, emul_work_area.dword_dop);
                    194: int _oprnd_siz32  = offsetof(fp_emul_state_t, emul_work_area.oprnd_siz32);
                    195: int _addrs_siz32  = offsetof(fp_emul_state_t, emul_work_area.addrs_siz32);
                    196: int _fpstate_ptr  = offsetof(fp_emul_state_t, emul_work_area.fpstate_ptr);
                    197: int _is16bit  = offsetof(fp_emul_state_t, emul_work_area.is16bit);
                    198: int _inst_counter  = offsetof(fp_emul_state_t, emul_work_area.inst_counter);
                    199: int _trapno  = offsetof(fp_emul_state_t, trapno);
                    200: 
                    201: int _saved_gs  = offsetof(fp_emul_state_t, emul_regs.gs);
                    202: int _saved_fs  = offsetof(fp_emul_state_t, emul_regs.fs);
                    203: int _saved_es  = offsetof(fp_emul_state_t, emul_regs.es);
                    204: int _saved_ds  = offsetof(fp_emul_state_t, emul_regs.ds);
                    205: int _saved_edi  = offsetof(fp_emul_state_t, emul_regs.edi);
                    206: int _saved_esi  = offsetof(fp_emul_state_t, emul_regs.esi);
                    207: int _saved_ebp  = offsetof(fp_emul_state_t, emul_regs.ebp);
                    208: int _saved_ebx  = offsetof(fp_emul_state_t, emul_regs.ebx);
                    209: int _saved_edx  = offsetof(fp_emul_state_t, emul_regs.edx);
                    210: int _saved_ecx  = offsetof(fp_emul_state_t, emul_regs.ecx);
                    211: int _saved_eax  = offsetof(fp_emul_state_t, emul_regs.eax);
                    212: 
                    213: int _saved_eip  = offsetof(fp_emul_state_t, emul_frame.eip);
                    214: int _saved_cs  = offsetof(fp_emul_state_t, emul_frame.cs);
                    215: int _saved_flags  = offsetof(fp_emul_state_t, emul_frame.eflags);
                    216: int _old_esp  = offsetof(fp_emul_state_t, emul_frame.esp);
                    217: int _old_ss  = offsetof(fp_emul_state_t, emul_frame.ss);
                    218: 
                    219: int _WORK_AREA_SIZE  =sizeof(fp_emul_work_t);
                    220: int _WORK_AREA_WORDS  =sizeof(fp_emul_work_t)/4;
                    221: 
                    222: #endif FP_EMUL
                    223: 

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