old-cross-binutils/gdb/sp64-tdep.c
Thomas Lord 199b2450f6 Change the stream argument to _filtered to GDB_FILE *.
Change all references to stdout/stderr to gdb_stdout/gdb_stderr.

Replace all calls to stdio output functions with calls to
corresponding _unfiltered functions (`fprintf_unfiltered')

Replaced calls to fopen for output to gdb_fopen.

Added sufficient goo to utils.c and defs.h to make the above work.

The net effect is that stdio output functions are only directly used
in utils.c.  Elsewhere, the _unfiltered and _filtered functions and
GDB_FILE type are used.

In the near future, GDB_FILE will stop being equivalant to FILE.

The semantics of some commands has changed in a very subtle way:
called in the right context, they may cause new occurences of
prompt_for_continue() behavior.  The testsuite doesn't notice anything
like this, though.

Please respect this change by not reintroducing stdio output
dependencies in the main body of gdb code.  All output from commands
should go to a GDB_FILE.

Target-specific code can still use stdio directly to communicate with
targets.
1993-11-01 22:25:23 +00:00

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/* Target-dependent code for the SPARC 64 for GDB, the GNU debugger.
Copyright 1986, 1987, 1989, 1991, 1992, 1993 Free Software Foundation, Inc.
Contributed by Doug Evans (dje@cygnus.com).
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., 675 Mass Ave, Cambridge, MA 02139, USA. */
#include "defs.h"
#include "frame.h"
#include "inferior.h"
#include "obstack.h"
#include "target.h"
#include "ieee-float.h"
/*#include "symfile.h" /* for objfiles.h */
/*#include "objfiles.h" /* for find_pc_section */
/* This file contains replacements and additions to sparc-tdep.c only.
Some of this code has been written for a day when we can merge at least
some of this with sparc-tdep.c. Macro TARGET_SPARC64 exists to allow some
code to potentially be used by both. */
#define TARGET_SPARC64 1 /* later make a config parm or some such */
/* From infrun.c */
extern int stop_after_trap;
/* Branches with prediction are treated like their non-predicting cousins. */
/* FIXME: What about floating point branches? */
typedef enum
{
Error, not_branch, bicc, bicca, ba, baa, ticc, ta, done_retry
} branch_type;
/* Simulate single-step ptrace call for sun4. Code written by Gary
Beihl (beihl@mcc.com). */
/* npc4 and next_pc describe the situation at the time that the
step-breakpoint was set, not necessary the current value of NPC_REGNUM. */
static CORE_ADDR next_pc, npc4, target;
static int brknpc4, brktrg;
typedef char binsn_quantum[BREAKPOINT_MAX];
static binsn_quantum break_mem[3];
/* Non-zero if we just simulated a single-step ptrace call. This is
needed because we cannot remove the breakpoints in the inferior
process until after the `wait' in `wait_for_inferior'. Used for
sun4. */
int one_stepped;
/* sparc64_single_step() is called just before we want to resume the inferior,
if we want to single-step it but there is no hardware or kernel single-step
support (as on all SPARCs). We find all the possible targets of the
coming instruction and breakpoint them.
single_step is also called just after the inferior stops. If we had
set up a simulated single-step, we undo our damage. */
/* FIXME: When the code is releasable, sparc's single step could become this
one, removing the duplication. */
void
sparc64_single_step (ignore)
int ignore; /* pid, but we don't need it */
{
branch_type br, isbranch();
CORE_ADDR pc;
long pc_instruction;
if (!one_stepped)
{
/* Always set breakpoint for NPC. */
next_pc = read_register (NPC_REGNUM);
npc4 = next_pc + 4; /* branch not taken */
target_insert_breakpoint (next_pc, break_mem[0]);
/* printf_unfiltered ("set break at %x\n",next_pc); */
pc = read_register (PC_REGNUM);
pc_instruction = read_memory_integer (pc, sizeof(pc_instruction));
br = isbranch (pc_instruction, pc, &target);
brknpc4 = brktrg = 0;
if (br == bicca)
{
/* Conditional annulled branch will either end up at
npc (if taken) or at npc+4 (if not taken).
Trap npc+4. */
brknpc4 = 1;
target_insert_breakpoint (npc4, break_mem[1]);
}
else if ((br == baa && target != next_pc)
|| (TARGET_SPARC64 && br == done_retry))
{
/* Unconditional annulled branch will always end up at
the target. */
brktrg = 1;
target_insert_breakpoint (target, break_mem[2]);
}
/* We are ready to let it go */
one_stepped = 1;
return;
}
else
{
/* Remove breakpoints */
target_remove_breakpoint (next_pc, break_mem[0]);
if (brknpc4)
target_remove_breakpoint (npc4, break_mem[1]);
if (brktrg)
target_remove_breakpoint (target, break_mem[2]);
one_stepped = 0;
}
}
CORE_ADDR
sparc64_extract_struct_value_address (regbuf)
char regbuf[REGISTER_BYTES];
{
CORE_ADDR addr;
/* FIXME: We assume a non-leaf function. */
addr = read_register (I0_REGNUM);
return addr;
}
/* Check instruction at ADDR to see if it is an annulled branch or other
instruction whose npc isn't pc+4 (eg: trap, done, retry).
All other instructions will go to NPC or will trap.
Set *TARGET if we find a candidate branch; set to zero if not. */
branch_type
isbranch (instruction, addr, target)
long instruction;
CORE_ADDR addr, *target;
{
branch_type val = not_branch;
long int offset; /* Must be signed for sign-extend. */
union
{
unsigned long int code;
struct
{
unsigned int op:2;
unsigned int a:1;
unsigned int cond:4;
unsigned int op2:3;
unsigned int disp22:22;
} b;
struct
{
unsigned int op:2;
unsigned int a:1;
unsigned int cond:4;
unsigned int op2:3;
unsigned int cc:2;
unsigned int p:1;
unsigned int disp19:19;
} bp;
struct
{
unsigned int op:2;
unsigned int a:1;
unsigned int zero:1;
unsigned int rcond:3;
unsigned int op2:3;
unsigned int disp16hi:2;
unsigned int p:1;
unsigned int rs1:5;
unsigned int disp16lo:14;
} bpr;
struct
{
unsigned int op:2;
unsigned int fcn:5;
unsigned int op3:6;
unsigned int reserved:19;
} dr;
} insn;
*target = 0;
insn.code = instruction;
if (insn.b.op == 0
&& (insn.b.op2 == 1 || insn.b.op2 == 2 || insn.b.op2 ==3
|| insn.b.op2 == 5 || insn.b.op2 == 6))
{
if (insn.b.cond == 8)
val = insn.b.a ? baa : ba;
else
val = insn.b.a ? bicca : bicc;
switch (insn.b.op2)
{
case 1: /* bpcc */
offset = 4 * ((int) (insn.bp.disp19 << 13) >> 13);
break;
case 2: /* bicc */
offset = 4 * ((int) (insn.b.disp22 << 10) >> 10);
break;
case 3: /* bpr */
offset = 4 * ((int) ((insn.bpr.disp16hi << 10)
|| (insn.bpr.disp16lo << 18)) >> 13);
break;
case 5: /* fbpfcc */
offset = 4 * ((int) (insn.bp.disp19 << 13) >> 13);
break;
case 6: /* fbfcc */
offset = 4 * ((int) (insn.b.disp22 << 10) >> 10);
break;
}
*target = addr + offset;
}
else if (insn.dr.op == 2 && insn.dr.op3 == 62)
{
if (insn.dr.fcn == 0)
{
/* done */
*target = read_register (TNPC_REGNUM);
val = done_retry;
}
else if (insn.dr.fcn == 1)
{
/* retry */
*target = read_register (TPC_REGNUM);
val = done_retry;
}
}
return val;
}
/* PRINT_REGISTER_HOOK routine.
Pretty print various registers. */
static void
dump_ccreg (reg, val)
char *reg;
int val;
{
printf_unfiltered ("%s:%s,%s,%s,%s", reg,
val & 8 ? "N" : "NN",
val & 4 ? "Z" : "NZ",
val & 2 ? "O" : "NO",
val & 1 ? "C" : "NC"
);
}
void
sparc_print_register_hook (regno)
int regno;
{
if (((unsigned) (regno) - FP0_REGNUM < FP_MAX_REGNUM - FP0_REGNUM)
&& ((regno) & 1) == 0)
{
char doublereg[8]; /* two float regs */
if (!read_relative_register_raw_bytes ((regno), doublereg))
{
printf_unfiltered("\t");
print_floating (doublereg, builtin_type_double, gdb_stdout);
}
}
else if ((regno) == CCR_REGNUM)
{
int ccr = read_register (CCR_REGNUM);
printf_unfiltered("\t");
dump_ccreg ("xcc", ccr >> 4);
printf_unfiltered(", ");
dump_ccreg ("icc", ccr & 15);
}
}
/* We try to support 32 bit and 64 bit pointers.
We are called when the Shade target is selected by shadeif.c. */
int target_ptr_bit = 64; /* default */
void
set_target_ptr_bit(ptr_bit)
int ptr_bit;
{
target_ptr_bit = ptr_bit;
}