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/* Definitions to make GDB run on a mips box under Mach 3.0
   Copyright (C) 1992 Free Software Foundation, Inc.
 
   This file is part of GDB.
 
   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.
 
   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.
 
   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 59 Temple Place - Suite 330,
   Boston, MA 02111-1307, USA.  */
 
/* Mach specific routines for little endian mips (e.g. pmax)
 * running Mach 3.0
 *
 * Author: Jukka Virtanen <jtv@hut.fi>
 */
 
#include "defs.h"
#include "inferior.h"
 
#include <stdio.h>
 
#include <mach.h>
#include <mach/message.h>
#include <mach/exception.h>
#include <mach_error.h>
 
/* Find offsets to thread states at compile time.
 * If your compiler does not grok this, check the hand coded
 * offsets and use them.
 */
 
#if 1
 
#define  REG_OFFSET(reg) (int)(&((struct mips_thread_state *)0)->reg)
#define CREG_OFFSET(reg) (int)(&((struct mips_float_state *)0)->reg)
#define EREG_OFFSET(reg) (int)(&((struct mips_exc_state *)0)->reg)
 
/* at reg_offset[i] is the offset to the mips_thread_state
 * location where the gdb registers[i] is stored.
 *
 * -1 means mach does not save it anywhere.
 */
static int reg_offset[] =
{
  /*  zero              at                v0                v1       */
  -1, REG_OFFSET (r1), REG_OFFSET (r2), REG_OFFSET (r3),
 
  /*  a0                a1                a2                a3       */
  REG_OFFSET (r4), REG_OFFSET (r5), REG_OFFSET (r6), REG_OFFSET (r7),
 
  /*  t0                t1                t2                t3       */
  REG_OFFSET (r8), REG_OFFSET (r9), REG_OFFSET (r10), REG_OFFSET (r11),
 
  /*  t4                t5                t6                t7       */
  REG_OFFSET (r12), REG_OFFSET (r13), REG_OFFSET (r14), REG_OFFSET (r15),
 
  /*  s0                s1                s2                s3       */
  REG_OFFSET (r16), REG_OFFSET (r17), REG_OFFSET (r18), REG_OFFSET (r19),
 
  /*  s4                s5                s6                s7       */
  REG_OFFSET (r20), REG_OFFSET (r21), REG_OFFSET (r22), REG_OFFSET (r23),
 
  /*  t8                t9                k0                k1       */
  REG_OFFSET (r24), REG_OFFSET (r25), REG_OFFSET (r26), REG_OFFSET (r27),
 
  /*  gp                sp            s8(30) == fp(72)      ra       */
  REG_OFFSET (r28), REG_OFFSET (r29), REG_OFFSET (r30), REG_OFFSET (r31),
 
  /*  sr(32) PS_REGNUM   */
  EREG_OFFSET (coproc_state),
 
  /*  lo(33)            hi(34)    */
  REG_OFFSET (mdlo), REG_OFFSET (mdhi),
 
  /*  bad(35)                 cause(36)          pc(37)  */
  EREG_OFFSET (address), EREG_OFFSET (cause), REG_OFFSET (pc),
 
  /*  f0(38)             f1(39)             f2(40)             f3(41)   */
  CREG_OFFSET (r0), CREG_OFFSET (r1), CREG_OFFSET (r2), CREG_OFFSET (r3),
  CREG_OFFSET (r4), CREG_OFFSET (r5), CREG_OFFSET (r6), CREG_OFFSET (r7),
  CREG_OFFSET (r8), CREG_OFFSET (r9), CREG_OFFSET (r10), CREG_OFFSET (r11),
  CREG_OFFSET (r12), CREG_OFFSET (r13), CREG_OFFSET (r14), CREG_OFFSET (r15),
  CREG_OFFSET (r16), CREG_OFFSET (r17), CREG_OFFSET (r18), CREG_OFFSET (r19),
  CREG_OFFSET (r20), CREG_OFFSET (r21), CREG_OFFSET (r22), CREG_OFFSET (r23),
  CREG_OFFSET (r24), CREG_OFFSET (r25), CREG_OFFSET (r26), CREG_OFFSET (r27),
  CREG_OFFSET (r28), CREG_OFFSET (r29), CREG_OFFSET (r30), CREG_OFFSET (r31),
 
  /*  fsr(70)           fir(71)         fp(72) == s8(30) */
  CREG_OFFSET (csr), CREG_OFFSET (esr), REG_OFFSET (r30)
};
#else
/* If the compiler does not grok the above defines */
static int reg_offset[] =
{
/* mach_thread_state offsets: */
  -1, 0, 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56,
  60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120,
/*sr, lo, hi,addr,cause,pc   */
  8, 124, 128, 4, 0, 132,
/* mach_float_state offsets: */
  0, 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60,
  64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120, 124,
/*fsr,fir */
  128, 132,
/* FP_REGNUM pseudo maps to s8==r30 in mach_thread_state */
  116
};
#endif
 
/* Fetch COUNT contiguous registers from thread STATE starting from REGNUM
 * Caller knows that the regs handled in one transaction are of same size.
 */
#define FETCH_REGS(state, regnum, count) \
  memcpy (&registers[REGISTER_BYTE (regnum)], \
          (char *)state+reg_offset[ regnum ], \
          count*REGISTER_SIZE)
 
/* Store COUNT contiguous registers to thread STATE starting from REGNUM */
#define STORE_REGS(state, regnum, count) \
  memcpy ((char *)state+reg_offset[ regnum ], \
          &registers[REGISTER_BYTE (regnum)], \
          count*REGISTER_SIZE)
 
#define REGS_ALL    -1
#define REGS_NORMAL  1
#define REGS_EXC     2
#define REGS_COP1    4
 
/* Hardware regs that matches FP_REGNUM */
#define MACH_FP_REGNUM 30
 
/* Fech thread's registers. if regno == -1, fetch all regs */
void
fetch_inferior_registers (regno)
     int regno;
{
  kern_return_t ret;
 
  thread_state_data_t state;
  struct mips_exc_state exc_state;
 
  int stateCnt = MIPS_THREAD_STATE_COUNT;
 
  int which_regs = 0;            /* A bit mask */
 
  if (!MACH_PORT_VALID (current_thread))
    error ("fetch inferior registers: Invalid thread");
 
  if (regno < -1 || regno >= NUM_REGS)
    error ("invalid register %d supplied to fetch_inferior_registers", regno);
 
  if (regno == -1)
    which_regs = REGS_ALL;
  else if (regno == ZERO_REGNUM)
    {
      int zero = 0;
      supply_register (ZERO_REGNUM, &zero);
      return;
    }
  else if ((ZERO_REGNUM < regno && regno < PS_REGNUM)
           || regno == FP_REGNUM
           || regno == LO_REGNUM
           || regno == HI_REGNUM
           || regno == PC_REGNUM)
    which_regs = REGS_NORMAL;
  else if (FP0_REGNUM <= regno && regno <= FCRIR_REGNUM)
    which_regs = REGS_COP1 | REGS_EXC;
  else
    which_regs = REGS_EXC;
 
  /* fetch regs saved to mips_thread_state */
  if (which_regs & REGS_NORMAL)
    {
      ret = thread_get_state (current_thread,
                              MIPS_THREAD_STATE,
                              state,
                              &stateCnt);
      CHK ("fetch inferior registers: thread_get_state", ret);
 
      if (which_regs == REGS_NORMAL)
        {
          /* Fetch also FP_REGNUM if fetching MACH_FP_REGNUM and vice versa */
          if (regno == MACH_FP_REGNUM || regno == FP_REGNUM)
            {
              supply_register (FP_REGNUM,
                               (char *) state + reg_offset[MACH_FP_REGNUM]);
              supply_register (MACH_FP_REGNUM,
                               (char *) state + reg_offset[MACH_FP_REGNUM]);
            }
          else
            supply_register (regno,
                             (char *) state + reg_offset[regno]);
          return;
        }
 
      /* ZERO_REGNUM is always zero */
      *(int *) registers = 0;
 
      /* Copy thread saved regs 1..31 to gdb's reg value array
       * Luckily, they are contiquous
       */
      FETCH_REGS (state, 1, 31);
 
      /* Copy mdlo and mdhi */
      FETCH_REGS (state, LO_REGNUM, 2);
 
      /* Copy PC */
      FETCH_REGS (state, PC_REGNUM, 1);
 
      /* Mach 3.0 saves FP to MACH_FP_REGNUM.
       * For some reason gdb wants to assign a pseudo register for it.
       */
      FETCH_REGS (state, FP_REGNUM, 1);
    }
 
  /* Read exc state. Also read if need to fetch floats */
  if (which_regs & REGS_EXC)
    {
      stateCnt = MIPS_EXC_STATE_COUNT;
      ret = thread_get_state (current_thread,
                              MIPS_EXC_STATE,
                              (thread_state_t) & exc_state,
                              &stateCnt);
      CHK ("fetch inferior regs (exc): thread_get_state", ret);
 
      /* We need to fetch exc_state to see if the floating
       * state is valid for the thread.
       */
 
      /* cproc_state: Which coprocessors the thread uses */
      supply_register (PS_REGNUM,
                       (char *) &exc_state + reg_offset[PS_REGNUM]);
 
      if (which_regs == REGS_EXC || which_regs == REGS_ALL)
        {
          supply_register (BADVADDR_REGNUM,
                         (char *) &exc_state + reg_offset[BADVADDR_REGNUM]);
 
          supply_register (CAUSE_REGNUM,
                           (char *) &exc_state + reg_offset[CAUSE_REGNUM]);
          if (which_regs == REGS_EXC)
            return;
        }
    }
 
 
  if (which_regs & REGS_COP1)
    {
      /* If the thread does not have saved COPROC1, set regs to zero */
 
      if (!(exc_state.coproc_state & MIPS_STATUS_USE_COP1))
        bzero (&registers[REGISTER_BYTE (FP0_REGNUM)],
               sizeof (struct mips_float_state));
      else
        {
          stateCnt = MIPS_FLOAT_STATE_COUNT;
          ret = thread_get_state (current_thread,
                                  MIPS_FLOAT_STATE,
                                  state,
                                  &stateCnt);
          CHK ("fetch inferior regs (floats): thread_get_state", ret);
 
          if (regno != -1)
            {
              supply_register (regno,
                               (char *) state + reg_offset[regno]);
              return;
            }
 
          FETCH_REGS (state, FP0_REGNUM, 34);
        }
    }
 
  /* All registers are valid, if not returned yet */
  registers_fetched ();
}
 
/* Store gdb's view of registers to the thread.
 * All registers are always valid when entering here.
 * @@ ahem, maybe that is too strict, we could validate the necessary ones
 *    here.
 *
 * Hmm. It seems that gdb set $reg=value command first reads everything,
 * then sets the reg and then stores everything. -> we must make sure
 * that the immutable registers are not changed by reading them first.
 */
 
void
store_inferior_registers (regno)
     register int regno;
{
  thread_state_data_t state;
  kern_return_t ret;
 
  if (!MACH_PORT_VALID (current_thread))
    error ("store inferior registers: Invalid thread");
 
  /* Check for read only regs.
   * @@ If some of these is can be changed, fix this
   */
  if (regno == ZERO_REGNUM ||
      regno == PS_REGNUM ||
      regno == BADVADDR_REGNUM ||
      regno == CAUSE_REGNUM ||
      regno == FCRIR_REGNUM)
    {
      message ("You can not alter read-only register `%s'",
               REGISTER_NAME (regno));
      fetch_inferior_registers (regno);
      return;
    }
 
  if (regno == -1)
    {
      /* Don't allow these to change */
 
      /* ZERO_REGNUM */
      *(int *) registers = 0;
 
      fetch_inferior_registers (PS_REGNUM);
      fetch_inferior_registers (BADVADDR_REGNUM);
      fetch_inferior_registers (CAUSE_REGNUM);
      fetch_inferior_registers (FCRIR_REGNUM);
    }
 
  if (regno == -1 || (ZERO_REGNUM < regno && regno <= PC_REGNUM))
    {
#if 1
      /* Mach 3.0 saves thread's FP to MACH_FP_REGNUM.
       * GDB wants assigns a pseudo register FP_REGNUM for frame pointer.
       *
       * @@@ Here I assume (!) that gdb's FP has the value that
       *     should go to threads frame pointer. If not true, this
       *     fails badly!!!!!
       */
      memcpy (&registers[REGISTER_BYTE (MACH_FP_REGNUM)],
              &registers[REGISTER_BYTE (FP_REGNUM)],
              REGISTER_RAW_SIZE (FP_REGNUM));
#endif
 
      /* Save gdb's regs 1..31 to thread saved regs 1..31
       * Luckily, they are contiquous
       */
      STORE_REGS (state, 1, 31);
 
      /* Save mdlo, mdhi */
      STORE_REGS (state, LO_REGNUM, 2);
 
      /* Save PC */
      STORE_REGS (state, PC_REGNUM, 1);
 
      ret = thread_set_state (current_thread,
                              MIPS_THREAD_STATE,
                              state,
                              MIPS_FLOAT_STATE_COUNT);
      CHK ("store inferior regs : thread_set_state", ret);
    }
 
  if (regno == -1 || regno >= FP0_REGNUM)
    {
      /* If thread has floating state, save it */
      if (read_register (PS_REGNUM) & MIPS_STATUS_USE_COP1)
        {
          /* Do NOT save FCRIR_REGNUM */
          STORE_REGS (state, FP0_REGNUM, 33);
 
          ret = thread_set_state (current_thread,
                                  MIPS_FLOAT_STATE,
                                  state,
                                  MIPS_FLOAT_STATE_COUNT);
          CHK ("store inferior registers (floats): thread_set_state", ret);
        }
      else if (regno != -1)
        message
          ("Thread does not use floating point unit, floating regs not saved");
    }
}

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[/] [or1k/] [trunk/] [gdb-5.0/] [gdb/] [mipsm3-nat.c] - Blame information for rev 1765

Line No.	Rev	Author	Line
1	104	markom	`/* Definitions to make GDB run on a mips box under Mach 3.0`
2			`Copyright (C) 1992 Free Software Foundation, Inc.`
3
4			`This file is part of GDB.`
5
6			`This program is free software; you can redistribute it and/or modify`
7			`it under the terms of the GNU General Public License as published by`
8			`the Free Software Foundation; either version 2 of the License, or`
9			`(at your option) any later version.`
10
11			`This program is distributed in the hope that it will be useful,`
12			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
13			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
14			`GNU General Public License for more details.`
15
16			`You should have received a copy of the GNU General Public License`
17			`along with this program; if not, write to the Free Software`
18			`Foundation, Inc., 59 Temple Place - Suite 330,`
19			`Boston, MA 02111-1307, USA. */`
20
21			`/* Mach specific routines for little endian mips (e.g. pmax)`
22			`* running Mach 3.0`
23			`*`
24			`* Author: Jukka Virtanen <jtv@hut.fi>`
25			`*/`
26
27			`#include "defs.h"`
28			`#include "inferior.h"`
29
30			`#include <stdio.h>`
31
32			`#include <mach.h>`
33			`#include <mach/message.h>`
34			`#include <mach/exception.h>`
35			`#include <mach_error.h>`
36
37			`/* Find offsets to thread states at compile time.`
38			`* If your compiler does not grok this, check the hand coded`
39			`* offsets and use them.`
40			`*/`
41
42			`#if 1`
43
44			`#define REG_OFFSET(reg) (int)(&((struct mips_thread_state *)0)->reg)`
45			`#define CREG_OFFSET(reg) (int)(&((struct mips_float_state *)0)->reg)`
46			`#define EREG_OFFSET(reg) (int)(&((struct mips_exc_state *)0)->reg)`
47
48			`/* at reg_offset[i] is the offset to the mips_thread_state`
49			`* location where the gdb registers[i] is stored.`
50			`*`
51			`* -1 means mach does not save it anywhere.`
52			`*/`
53			`static int reg_offset[] =`
54			`{`
55			`/* zero at v0 v1 */`
56			`-1, REG_OFFSET (r1), REG_OFFSET (r2), REG_OFFSET (r3),`
57
58			`/* a0 a1 a2 a3 */`
59			`REG_OFFSET (r4), REG_OFFSET (r5), REG_OFFSET (r6), REG_OFFSET (r7),`
60
61			`/* t0 t1 t2 t3 */`
62			`REG_OFFSET (r8), REG_OFFSET (r9), REG_OFFSET (r10), REG_OFFSET (r11),`
63
64			`/* t4 t5 t6 t7 */`
65			`REG_OFFSET (r12), REG_OFFSET (r13), REG_OFFSET (r14), REG_OFFSET (r15),`
66
67			`/* s0 s1 s2 s3 */`
68			`REG_OFFSET (r16), REG_OFFSET (r17), REG_OFFSET (r18), REG_OFFSET (r19),`
69
70			`/* s4 s5 s6 s7 */`
71			`REG_OFFSET (r20), REG_OFFSET (r21), REG_OFFSET (r22), REG_OFFSET (r23),`
72
73			`/* t8 t9 k0 k1 */`
74			`REG_OFFSET (r24), REG_OFFSET (r25), REG_OFFSET (r26), REG_OFFSET (r27),`
75
76			`/* gp sp s8(30) == fp(72) ra */`
77			`REG_OFFSET (r28), REG_OFFSET (r29), REG_OFFSET (r30), REG_OFFSET (r31),`
78
79			`/* sr(32) PS_REGNUM */`
80			`EREG_OFFSET (coproc_state),`
81
82			`/* lo(33) hi(34) */`
83			`REG_OFFSET (mdlo), REG_OFFSET (mdhi),`
84
85			`/* bad(35) cause(36) pc(37) */`
86			`EREG_OFFSET (address), EREG_OFFSET (cause), REG_OFFSET (pc),`
87
88			`/* f0(38) f1(39) f2(40) f3(41) */`
89			`CREG_OFFSET (r0), CREG_OFFSET (r1), CREG_OFFSET (r2), CREG_OFFSET (r3),`
90			`CREG_OFFSET (r4), CREG_OFFSET (r5), CREG_OFFSET (r6), CREG_OFFSET (r7),`
91			`CREG_OFFSET (r8), CREG_OFFSET (r9), CREG_OFFSET (r10), CREG_OFFSET (r11),`
92			`CREG_OFFSET (r12), CREG_OFFSET (r13), CREG_OFFSET (r14), CREG_OFFSET (r15),`
93			`CREG_OFFSET (r16), CREG_OFFSET (r17), CREG_OFFSET (r18), CREG_OFFSET (r19),`
94			`CREG_OFFSET (r20), CREG_OFFSET (r21), CREG_OFFSET (r22), CREG_OFFSET (r23),`
95			`CREG_OFFSET (r24), CREG_OFFSET (r25), CREG_OFFSET (r26), CREG_OFFSET (r27),`
96			`CREG_OFFSET (r28), CREG_OFFSET (r29), CREG_OFFSET (r30), CREG_OFFSET (r31),`
97
98			`/* fsr(70) fir(71) fp(72) == s8(30) */`
99			`CREG_OFFSET (csr), CREG_OFFSET (esr), REG_OFFSET (r30)`
100			`};`
101			`#else`
102			`/* If the compiler does not grok the above defines */`
103			`static int reg_offset[] =`
104			`{`
105			`/* mach_thread_state offsets: */`
106			`-1, 0, 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56,`
107			`60, 64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120,`
108			`/sr, lo, hi,addr,cause,pc /`
109			`8, 124, 128, 4, 0, 132,`
110			`/* mach_float_state offsets: */`
111			`0, 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52, 56, 60,`
112			`64, 68, 72, 76, 80, 84, 88, 92, 96, 100, 104, 108, 112, 116, 120, 124,`
113			`/fsr,fir /`
114			`128, 132,`
115			`/* FP_REGNUM pseudo maps to s8==r30 in mach_thread_state */`
116			`116`
117			`};`
118			`#endif`
119
120			`/* Fetch COUNT contiguous registers from thread STATE starting from REGNUM`
121			`* Caller knows that the regs handled in one transaction are of same size.`
122			`*/`
123			`#define FETCH_REGS(state, regnum, count) \`
124			`memcpy (&registers[REGISTER_BYTE (regnum)], \`
125			`(char *)state+reg_offset[ regnum ], \`
126			`count*REGISTER_SIZE)`
127
128			`/* Store COUNT contiguous registers to thread STATE starting from REGNUM */`
129			`#define STORE_REGS(state, regnum, count) \`
130			`memcpy ((char *)state+reg_offset[ regnum ], \`
131			`&registers[REGISTER_BYTE (regnum)], \`
132			`count*REGISTER_SIZE)`
133
134			`#define REGS_ALL -1`
135			`#define REGS_NORMAL 1`
136			`#define REGS_EXC 2`
137			`#define REGS_COP1 4`
138
139			`/* Hardware regs that matches FP_REGNUM */`
140			`#define MACH_FP_REGNUM 30`
141
142			`/* Fech thread's registers. if regno == -1, fetch all regs */`
143			`void`
144			`fetch_inferior_registers (regno)`
145			`int regno;`
146			`{`
147			`kern_return_t ret;`
148
149			`thread_state_data_t state;`
150			`struct mips_exc_state exc_state;`
151
152			`int stateCnt = MIPS_THREAD_STATE_COUNT;`
153
154			`int which_regs = 0; /* A bit mask */`
155
156			`if (!MACH_PORT_VALID (current_thread))`
157			`error ("fetch inferior registers: Invalid thread");`
158
159			`if (regno < -1 \|\| regno >= NUM_REGS)`
160			`error ("invalid register %d supplied to fetch_inferior_registers", regno);`
161
162			`if (regno == -1)`
163			`which_regs = REGS_ALL;`
164			`else if (regno == ZERO_REGNUM)`
165			`{`
166			`int zero = 0;`
167			`supply_register (ZERO_REGNUM, &zero);`
168			`return;`
169			`}`
170			`else if ((ZERO_REGNUM < regno && regno < PS_REGNUM)`
171			`\|\| regno == FP_REGNUM`
172			`\|\| regno == LO_REGNUM`
173			`\|\| regno == HI_REGNUM`
174			`\|\| regno == PC_REGNUM)`
175			`which_regs = REGS_NORMAL;`
176			`else if (FP0_REGNUM <= regno && regno <= FCRIR_REGNUM)`
177			`which_regs = REGS_COP1 \| REGS_EXC;`
178			`else`
179			`which_regs = REGS_EXC;`
180
181			`/* fetch regs saved to mips_thread_state */`
182			`if (which_regs & REGS_NORMAL)`
183			`{`
184			`ret = thread_get_state (current_thread,`
185			`MIPS_THREAD_STATE,`
186			`state,`
187			`&stateCnt);`
188			`CHK ("fetch inferior registers: thread_get_state", ret);`
189
190			`if (which_regs == REGS_NORMAL)`
191			`{`
192			`/* Fetch also FP_REGNUM if fetching MACH_FP_REGNUM and vice versa */`
193			`if (regno == MACH_FP_REGNUM \|\| regno == FP_REGNUM)`
194			`{`
195			`supply_register (FP_REGNUM,`
196			`(char *) state + reg_offset[MACH_FP_REGNUM]);`
197			`supply_register (MACH_FP_REGNUM,`
198			`(char *) state + reg_offset[MACH_FP_REGNUM]);`
199			`}`
200			`else`
201			`supply_register (regno,`
202			`(char *) state + reg_offset[regno]);`
203			`return;`
204			`}`
205
206			`/* ZERO_REGNUM is always zero */`
207			`(int ) registers = 0;`
208
209			`/* Copy thread saved regs 1..31 to gdb's reg value array`
210			`* Luckily, they are contiquous`
211			`*/`
212			`FETCH_REGS (state, 1, 31);`
213
214			`/* Copy mdlo and mdhi */`
215			`FETCH_REGS (state, LO_REGNUM, 2);`
216
217			`/* Copy PC */`
218			`FETCH_REGS (state, PC_REGNUM, 1);`
219
220			`/* Mach 3.0 saves FP to MACH_FP_REGNUM.`
221			`* For some reason gdb wants to assign a pseudo register for it.`
222			`*/`
223			`FETCH_REGS (state, FP_REGNUM, 1);`
224			`}`
225
226			`/* Read exc state. Also read if need to fetch floats */`
227			`if (which_regs & REGS_EXC)`
228			`{`
229			`stateCnt = MIPS_EXC_STATE_COUNT;`
230			`ret = thread_get_state (current_thread,`
231			`MIPS_EXC_STATE,`
232			`(thread_state_t) & exc_state,`
233			`&stateCnt);`
234			`CHK ("fetch inferior regs (exc): thread_get_state", ret);`
235
236			`/* We need to fetch exc_state to see if the floating`
237			`* state is valid for the thread.`
238			`*/`
239
240			`/* cproc_state: Which coprocessors the thread uses */`
241			`supply_register (PS_REGNUM,`
242			`(char *) &exc_state + reg_offset[PS_REGNUM]);`
243
244			`if (which_regs == REGS_EXC \|\| which_regs == REGS_ALL)`
245			`{`
246			`supply_register (BADVADDR_REGNUM,`
247			`(char *) &exc_state + reg_offset[BADVADDR_REGNUM]);`
248
249			`supply_register (CAUSE_REGNUM,`
250			`(char *) &exc_state + reg_offset[CAUSE_REGNUM]);`
251			`if (which_regs == REGS_EXC)`
252			`return;`
253			`}`
254			`}`
255
256
257			`if (which_regs & REGS_COP1)`
258			`{`
259			`/* If the thread does not have saved COPROC1, set regs to zero */`
260
261			`if (!(exc_state.coproc_state & MIPS_STATUS_USE_COP1))`
262			`bzero (&registers[REGISTER_BYTE (FP0_REGNUM)],`
263			`sizeof (struct mips_float_state));`
264			`else`
265			`{`
266			`stateCnt = MIPS_FLOAT_STATE_COUNT;`
267			`ret = thread_get_state (current_thread,`
268			`MIPS_FLOAT_STATE,`
269			`state,`
270			`&stateCnt);`
271			`CHK ("fetch inferior regs (floats): thread_get_state", ret);`
272
273			`if (regno != -1)`
274			`{`
275			`supply_register (regno,`
276			`(char *) state + reg_offset[regno]);`
277			`return;`
278			`}`
279
280			`FETCH_REGS (state, FP0_REGNUM, 34);`
281			`}`
282			`}`
283
284			`/* All registers are valid, if not returned yet */`
285			`registers_fetched ();`
286			`}`
287
288			`/* Store gdb's view of registers to the thread.`
289			`* All registers are always valid when entering here.`
290			`* @@ ahem, maybe that is too strict, we could validate the necessary ones`
291			`* here.`
292			`*`
293			`* Hmm. It seems that gdb set $reg=value command first reads everything,`
294			`* then sets the reg and then stores everything. -> we must make sure`
295			`* that the immutable registers are not changed by reading them first.`
296			`*/`
297
298			`void`
299			`store_inferior_registers (regno)`
300			`register int regno;`
301			`{`
302			`thread_state_data_t state;`
303			`kern_return_t ret;`
304
305			`if (!MACH_PORT_VALID (current_thread))`
306			`error ("store inferior registers: Invalid thread");`
307
308			`/* Check for read only regs.`
309			`* @@ If some of these is can be changed, fix this`
310			`*/`
311			`if (regno == ZERO_REGNUM \|\|`
312			`regno == PS_REGNUM \|\|`
313			`regno == BADVADDR_REGNUM \|\|`
314			`regno == CAUSE_REGNUM \|\|`
315			`regno == FCRIR_REGNUM)`
316			`{`
317			message ("You can not alter read-only register `%s'",
318			`REGISTER_NAME (regno));`
319			`fetch_inferior_registers (regno);`
320			`return;`
321			`}`
322
323			`if (regno == -1)`
324			`{`
325			`/* Don't allow these to change */`
326
327			`/* ZERO_REGNUM */`
328			`(int ) registers = 0;`
329
330			`fetch_inferior_registers (PS_REGNUM);`
331			`fetch_inferior_registers (BADVADDR_REGNUM);`
332			`fetch_inferior_registers (CAUSE_REGNUM);`
333			`fetch_inferior_registers (FCRIR_REGNUM);`
334			`}`
335
336			`if (regno == -1 \|\| (ZERO_REGNUM < regno && regno <= PC_REGNUM))`
337			`{`
338			`#if 1`
339			`/* Mach 3.0 saves thread's FP to MACH_FP_REGNUM.`
340			`* GDB wants assigns a pseudo register FP_REGNUM for frame pointer.`
341			`*`
342			`* @@@ Here I assume (!) that gdb's FP has the value that`
343			`* should go to threads frame pointer. If not true, this`
344			`* fails badly!!!!!`
345			`*/`
346			`memcpy (&registers[REGISTER_BYTE (MACH_FP_REGNUM)],`
347			`&registers[REGISTER_BYTE (FP_REGNUM)],`
348			`REGISTER_RAW_SIZE (FP_REGNUM));`
349			`#endif`
350
351			`/* Save gdb's regs 1..31 to thread saved regs 1..31`
352			`* Luckily, they are contiquous`
353			`*/`
354			`STORE_REGS (state, 1, 31);`
355
356			`/* Save mdlo, mdhi */`
357			`STORE_REGS (state, LO_REGNUM, 2);`
358
359			`/* Save PC */`
360			`STORE_REGS (state, PC_REGNUM, 1);`
361
362			`ret = thread_set_state (current_thread,`
363			`MIPS_THREAD_STATE,`
364			`state,`
365			`MIPS_FLOAT_STATE_COUNT);`
366			`CHK ("store inferior regs : thread_set_state", ret);`
367			`}`
368
369			`if (regno == -1 \|\| regno >= FP0_REGNUM)`
370			`{`
371			`/* If thread has floating state, save it */`
372			`if (read_register (PS_REGNUM) & MIPS_STATUS_USE_COP1)`
373			`{`
374			`/* Do NOT save FCRIR_REGNUM */`
375			`STORE_REGS (state, FP0_REGNUM, 33);`
376
377			`ret = thread_set_state (current_thread,`
378			`MIPS_FLOAT_STATE,`
379			`state,`
380			`MIPS_FLOAT_STATE_COUNT);`
381			`CHK ("store inferior registers (floats): thread_set_state", ret);`
382			`}`
383			`else if (regno != -1)`
384			`message`
385			`("Thread does not use floating point unit, floating regs not saved");`
386			`}`
387			`}`