binutils-gdb/gdb/mipsm3-nat.c

387 lines
11 KiB
C

/* 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'",
reg_names[ 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");
}
}