sim/ppc/interrupts.h

   1 /*  This file is part of the program psim.
   2
   3     Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au>
   4
   5     This program is free software; you can redistribute it and/or modify
   6     it under the terms of the GNU General Public License as published by
   7     the Free Software Foundation; either version 2 of the License, or
   8     (at your option) any later version.
   9
  10     This program is distributed in the hope that it will be useful,
  11     but WITHOUT ANY WARRANTY; without even the implied warranty of
  12     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  13     GNU General Public License for more details.
  14
  15     You should have received a copy of the GNU General Public License
  16     along with this program; if not, write to the Free Software
  17     Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
  18
  19     */
  20
  21
  22 #ifndef _INTERRUPTS_H_
  23 #define _INTERRUPTS_H_
  24
  25 /* Interrupts:
  26
  27    The code below handles two different types of interrupts.
  28    Synchronous and Asynchronous.
  29
  30    Synchronous:
  31
  32    Interrupts that must immediately force either an abort or restart
  33    of a current instruction are implemented by forcing an instruction
  34    restart. (or to put it another way, long jump).  In looking at the
  35    code it may occure to you that, for some interrupts, they could
  36    return instead of restarting the cpu (eg system_call).  While true
  37    (it once was like that) I've decided to make the behavour of all
  38    interrupt routines roughly identical.
  39
  40    Because, a cpu's recorded state (ie what is in the cpu structure)
  41    is allowed to lag behind the cpu's true current state (eg PC not
  42    updated) sycnronous interrupt handers are parameterized with the
  43    the cpu being interrupted so that, as part of moddeling the
  44    interrupt, the cpu's state can be updated.
  45
  46    Asynchronous:
  47
  48    Interrupts such as reset or external exception are delivered using
  49    more normal (returning) functions.  It is assumed that these
  50    functions are called out side of the normal processor execution
  51    cycle. */
  52
  53
  54 /* Software generated interrupts.
  55
  56    The below are generated by software driven events.  For instance,
  57    an invalid instruction or access (virtual or physical) to an
  58    invalid address */
  59
  60 typedef enum {
  61   direct_store_storage_interrupt,
  62   hash_table_miss_storage_interrupt,
  63   protection_violation_storage_interrupt,
  64   earwax_violation_storage_interrupt,
  65   segment_table_miss_storage_interrupt,
  66   earwax_disabled_storage_interrupt,
  67   vea_storage_interrupt,
  68 } storage_interrupt_reasons;
  69
  70
  71 INLINE_INTERRUPTS\
  72 (void) data_storage_interrupt
  73 (cpu *processor,
  74  unsigned_word cia,
  75  unsigned_word ea,
  76  storage_interrupt_reasons reason,
  77  int is_store);
  78
  79 INLINE_INTERRUPTS\
  80 (void) instruction_storage_interrupt
  81 (cpu *processor,
  82  unsigned_word cia,
  83  storage_interrupt_reasons reason);
  84
  85 INLINE_INTERRUPTS\
  86 (void) alignment_interrupt
  87 (cpu *processor,
  88  unsigned_word cia,
  89  unsigned_word ra);
  90
  91 typedef enum {
  92   floating_point_enabled_program_interrupt,
  93   illegal_instruction_program_interrupt,
  94   privileged_instruction_program_interrupt,
  95   trap_program_interrupt,
  96   optional_instruction_program_interrupt, /* subset of illegal instruction */
  97   mpc860c0_instruction_program_interrupt, /* fwd br, taken but not predicted, near EO page */
  98   nr_program_interrupt_reasons
  99 } program_interrupt_reasons;
 100
 101 INLINE_INTERRUPTS\
 102 (void) program_interrupt
 103 (cpu *processor,
 104  unsigned_word cia,
 105  program_interrupt_reasons reason);
 106
 107 INLINE_INTERRUPTS\
 108 (void) floating_point_unavailable_interrupt
 109 (cpu *processor,
 110  unsigned_word cia);
 111
 112 INLINE_INTERRUPTS\
 113 (void) system_call_interrupt
 114 (cpu *processor,
 115  unsigned_word cia);
 116
 117 INLINE_INTERRUPTS\
 118 (void) floating_point_assist_interrupt
 119 (cpu *processor,
 120  unsigned_word cia);
 121
 122 INLINE_INTERRUPTS\
 123 (void) machine_check_interrupt
 124 (cpu *processor,
 125  unsigned_word cia);
 126
 127 /* Hardware generated interrupts:
 128
 129    These asynchronous hardware generated interrupts may be called at
 130    any time.  It is the responsibility of this (the interrupts) module
 131    to ensure that interrupts are delivered correctly (when possible).
 132    The delivery of these interrupts is controlled by the MSR's
 133    external interrupt enable bit.  When ever the MSR's value is
 134    changed, the processor must call the check_masked_interrupts()
 135    function in case delivery has been made possible.
 136
 137    decrementer_interrupt is `edge' sensitive.  Multiple edges arriving
 138    before the first edge has been delivered result in only one
 139    interrupt.
 140
 141    external_interrupt is `level' sensitive.  An external interrupt
 142    will only be delivered when the external interrupt port is
 143    `asserted'. While interrupts are disabled, the external interrupt
 144    can be asserted and then de-asserted without an interrupt
 145    eventually being delivered. */
 146
 147 enum {
 148   external_interrupt_pending = 1,
 149   decrementer_interrupt_pending = 2,
 150 };
 151
 152 typedef struct _interrupts {
 153   event_entry_tag delivery_scheduled;
 154   int pending_interrupts;
 155 } interrupts;
 156
 157 INLINE_INTERRUPTS\
 158 (void) check_masked_interrupts
 159 (cpu *processor);
 160
 161 INLINE_INTERRUPTS\
 162 (void) decrementer_interrupt
 163 (cpu *processor);
 164
 165 INLINE_INTERRUPTS\
 166 (void) external_interrupt
 167 (cpu *processor,
 168  int is_asserted);
 169
 170 #endif /* _INTERRUPTS_H_ */