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/* Definitions to make GDB run on a mips box under 4.3bsd.
Copyright 1986, 1987, 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
1998, 1999, 2000
Free Software Foundation, Inc.
Contributed by Per Bothner (bothner@cs.wisc.edu) at U.Wisconsin
and by Alessandro Forin (af@cs.cmu.edu) at CMU..
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. */
#ifndef TM_MIPS_H
#define TM_MIPS_H 1
#define GDB_MULTI_ARCH 1
#include "regcache.h"
struct frame_info;
struct symbol;
struct type;
struct value;
#include <bfd.h>
#include "coff/sym.h" /* Needed for PDR below. */
#include "coff/symconst.h"
#if !defined (MIPS_EABI)
#define MIPS_EABI 0
#endif
/* PC should be masked to remove possible MIPS16 flag */
#if !defined (GDB_TARGET_MASK_DISAS_PC)
#define GDB_TARGET_MASK_DISAS_PC(addr) UNMAKE_MIPS16_ADDR(addr)
#endif
#if !defined (GDB_TARGET_UNMASK_DISAS_PC)
#define GDB_TARGET_UNMASK_DISAS_PC(addr) MAKE_MIPS16_ADDR(addr)
#endif
/* The name of the usual type of MIPS processor that is in the target
system. */
#define DEFAULT_MIPS_TYPE "generic"
/* Remove useless bits from the stack pointer. */
#define TARGET_READ_SP() ADDR_BITS_REMOVE (read_register (SP_REGNUM))
/* Offset from address of function to start of its code.
Zero on most machines. */
#define FUNCTION_START_OFFSET 0
/* Return non-zero if PC points to an instruction which will cause a step
to execute both the instruction at PC and an instruction at PC+4. */
extern int mips_step_skips_delay (CORE_ADDR);
#define STEP_SKIPS_DELAY_P (1)
#define STEP_SKIPS_DELAY(pc) (mips_step_skips_delay (pc))
/* Are we currently handling a signal */
extern int in_sigtramp (CORE_ADDR, char *);
#define IN_SIGTRAMP(pc, name) in_sigtramp(pc, name)
/* Say how long (ordinary) registers are. This is a piece of bogosity
used in push_word and a few other places; REGISTER_RAW_SIZE is the
real way to know how big a register is. */
#define REGISTER_SIZE 4
/* The size of a register. This is predefined in tm-mips64.h. We
can't use REGISTER_SIZE because that is used for various other
things. */
#ifndef MIPS_REGSIZE
#define MIPS_REGSIZE 4
#endif
/* Number of machine registers */
#ifndef NUM_REGS
#define NUM_REGS 90
#endif
/* Given the register index, return the name of the corresponding
register. */
extern char *mips_register_name (int regnr);
#define REGISTER_NAME(i) mips_register_name (i)
/* Initializer for an array of names of registers.
There should be NUM_REGS strings in this initializer. */
#ifndef MIPS_REGISTER_NAMES
#define MIPS_REGISTER_NAMES \
{ "zero", "at", "v0", "v1", "a0", "a1", "a2", "a3", \
"t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7", \
"s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7", \
"t8", "t9", "k0", "k1", "gp", "sp", "s8", "ra", \
"sr", "lo", "hi", "bad", "cause","pc", \
"f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7", \
"f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15", \
"f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",\
"f24", "f25", "f26", "f27", "f28", "f29", "f30", "f31",\
"fsr", "fir", "fp", "", \
"", "", "", "", "", "", "", "", \
"", "", "", "", "", "", "", "", \
}
#endif
/* Register numbers of various important registers.
Note that some of these values are "real" register numbers,
and correspond to the general registers of the machine,
and some are "phony" register numbers which are too large
to be actual register numbers as far as the user is concerned
but do serve to get the desired values when passed to read_register. */
#define ZERO_REGNUM 0 /* read-only register, always 0 */
#define V0_REGNUM 2 /* Function integer return value */
#define A0_REGNUM 4 /* Loc of first arg during a subr call */
#if MIPS_EABI
#define MIPS_LAST_ARG_REGNUM 11 /* EABI uses R4 through R11 for args */
#else
#define MIPS_LAST_ARG_REGNUM 7 /* old ABI uses R4 through R7 for args */
#endif
#define T9_REGNUM 25 /* Contains address of callee in PIC */
#define SP_REGNUM 29 /* Contains address of top of stack */
#define RA_REGNUM 31 /* Contains return address value */
#define PS_REGNUM 32 /* Contains processor status */
#define HI_REGNUM 34 /* Multiple/divide temp */
#define LO_REGNUM 33 /* ... */
#define BADVADDR_REGNUM 35 /* bad vaddr for addressing exception */
#define CAUSE_REGNUM 36 /* describes last exception */
#define PC_REGNUM 37 /* Contains program counter */
#define FP0_REGNUM 38 /* Floating point register 0 (single float) */
#define FPA0_REGNUM (FP0_REGNUM+12) /* First float argument register */
#if MIPS_EABI /* EABI uses F12 through F19 for args */
#define MIPS_LAST_FP_ARG_REGNUM (FP0_REGNUM+19)
#else /* old ABI uses F12 through F15 for args */
#define MIPS_LAST_FP_ARG_REGNUM (FP0_REGNUM+15)
#endif
#define FCRCS_REGNUM 70 /* FP control/status */
#define FCRIR_REGNUM 71 /* FP implementation/revision */
#define FP_REGNUM 72 /* Pseudo register that contains true address of executing stack frame */
#define UNUSED_REGNUM 73 /* Never used, FIXME */
#define FIRST_EMBED_REGNUM 74 /* First CP0 register for embedded use */
#define PRID_REGNUM 89 /* Processor ID */
#define LAST_EMBED_REGNUM 89 /* Last one */
/* Define DO_REGISTERS_INFO() to do machine-specific formatting
of register dumps. */
#define DO_REGISTERS_INFO(_regnum, fp) mips_do_registers_info(_regnum, fp)
extern void mips_do_registers_info (int, int);
/* Total amount of space needed to store our copies of the machine's
register state, the array `registers'. */
#define REGISTER_BYTES (NUM_REGS*MIPS_REGSIZE)
/* Index within `registers' of the first byte of the space for
register N. */
#define REGISTER_BYTE(N) ((N) * MIPS_REGSIZE)
/* Covert between the RAW and VIRTUAL registers.
Some MIPS (SR, FSR, FIR) have a `raw' size of MIPS_REGSIZE but are
really 32 bit registers. This is a legacy of the 64 bit MIPS GDB
protocol which transfers 64 bits for 32 bit registers. */
extern int mips_register_convertible (int reg_nr);
#define REGISTER_CONVERTIBLE(N) (mips_register_convertible ((N)))
void mips_register_convert_to_virtual (int reg_nr, struct type *virtual_type,
char *raw_buf, char *virt_buf);
#define REGISTER_CONVERT_TO_VIRTUAL(N,VIRTUAL_TYPE,RAW_BUF,VIRT_BUF) \
mips_register_convert_to_virtual (N,VIRTUAL_TYPE,RAW_BUF,VIRT_BUF)
void mips_register_convert_to_raw (struct type *virtual_type, int reg_nr,
char *virt_buf, char *raw_buf);
#define REGISTER_CONVERT_TO_RAW(VIRTUAL_TYPE,N,VIRT_BUF,RAW_BUF) \
mips_register_convert_to_raw (VIRTUAL_TYPE,N,VIRT_BUF,RAW_BUF)
/* Number of bytes of storage in the program's representation
for register N. */
#define REGISTER_VIRTUAL_SIZE(N) TYPE_LENGTH (REGISTER_VIRTUAL_TYPE (N))
/* Largest value REGISTER_RAW_SIZE can have. */
#define MAX_REGISTER_RAW_SIZE 8
/* Largest value REGISTER_VIRTUAL_SIZE can have. */
#define MAX_REGISTER_VIRTUAL_SIZE 8
/* Return the GDB type object for the "standard" data type of data in
register N. */
#ifndef REGISTER_VIRTUAL_TYPE
#define REGISTER_VIRTUAL_TYPE(N) \
(((N) >= FP0_REGNUM && (N) < FP0_REGNUM+32) ? builtin_type_float \
: ((N) == 32 /*SR*/) ? builtin_type_uint32 \
: ((N) >= 70 && (N) <= 89) ? builtin_type_uint32 \
: builtin_type_int)
#endif
/* All mips targets store doubles in a register pair with the least
significant register in the lower numbered register.
If the target is big endian, double register values need conversion
between memory and register formats. */
#define REGISTER_CONVERT_TO_TYPE(n, type, buffer) \
do {if (TARGET_BYTE_ORDER == BFD_ENDIAN_BIG \
&& REGISTER_RAW_SIZE (n) == 4 \
&& (n) >= FP0_REGNUM && (n) < FP0_REGNUM + 32 \
&& TYPE_CODE(type) == TYPE_CODE_FLT \
&& TYPE_LENGTH(type) == 8) { \
char __temp[4]; \
memcpy (__temp, ((char *)(buffer))+4, 4); \
memcpy (((char *)(buffer))+4, (buffer), 4); \
memcpy (((char *)(buffer)), __temp, 4); }} while (0)
#define REGISTER_CONVERT_FROM_TYPE(n, type, buffer) \
do {if (TARGET_BYTE_ORDER == BFD_ENDIAN_BIG \
&& REGISTER_RAW_SIZE (n) == 4 \
&& (n) >= FP0_REGNUM && (n) < FP0_REGNUM + 32 \
&& TYPE_CODE(type) == TYPE_CODE_FLT \
&& TYPE_LENGTH(type) == 8) { \
char __temp[4]; \
memcpy (__temp, ((char *)(buffer))+4, 4); \
memcpy (((char *)(buffer))+4, (buffer), 4); \
memcpy (((char *)(buffer)), __temp, 4); }} while (0)
/* Store the address of the place in which to copy the structure the
subroutine will return. Handled by mips_push_arguments. */
#define STORE_STRUCT_RETURN(addr, sp)
/**/
/* Extract from an array REGBUF containing the (raw) register state
a function return value of type TYPE, and copy that, in virtual format,
into VALBUF. XXX floats */
#define EXTRACT_RETURN_VALUE(TYPE,REGBUF,VALBUF) \
mips_extract_return_value(TYPE, REGBUF, VALBUF)
extern void mips_extract_return_value (struct type *, char[], char *);
/* Write into appropriate registers a function return value
of type TYPE, given in virtual format. */
#define STORE_RETURN_VALUE(TYPE,VALBUF) \
mips_store_return_value(TYPE, VALBUF)
extern void mips_store_return_value (struct type *, char *);
/* Extract from an array REGBUF containing the (raw) register state
the address in which a function should return its structure value,
as a CORE_ADDR (or an expression that can be used as one). */
/* The address is passed in a0 upon entry to the function, but when
the function exits, the compiler has copied the value to v0. This
convention is specified by the System V ABI, so I think we can rely
on it. */
#define EXTRACT_STRUCT_VALUE_ADDRESS(REGBUF) \
(extract_address (REGBUF + REGISTER_BYTE (V0_REGNUM), \
REGISTER_RAW_SIZE (V0_REGNUM)))
extern use_struct_convention_fn mips_use_struct_convention;
#define USE_STRUCT_CONVENTION(gcc_p, type) mips_use_struct_convention (gcc_p, type)
/* Describe the pointer in each stack frame to the previous stack frame
(its caller). */
/* FRAME_CHAIN takes a frame's nominal address
and produces the frame's chain-pointer. */
#define FRAME_CHAIN(thisframe) (CORE_ADDR) mips_frame_chain (thisframe)
extern CORE_ADDR mips_frame_chain (struct frame_info *);
/* Define other aspects of the stack frame. */
/* A macro that tells us whether the function invocation represented
by FI does not have a frame on the stack associated with it. If it
does not, FRAMELESS is set to 1, else 0. */
/* We handle this differently for mips, and maybe we should not */
#define FRAMELESS_FUNCTION_INVOCATION(FI) (0)
/* Saved Pc. */
#define FRAME_SAVED_PC(FRAME) (mips_frame_saved_pc(FRAME))
extern CORE_ADDR mips_frame_saved_pc (struct frame_info *);
#define FRAME_ARGS_ADDRESS(fi) (fi)->frame
#define FRAME_LOCALS_ADDRESS(fi) (fi)->frame
/* Return number of args passed to a frame.
Can return -1, meaning no way to tell. */
#define FRAME_NUM_ARGS(fi) (mips_frame_num_args(fi))
extern int mips_frame_num_args (struct frame_info *);
/* Return number of bytes at start of arglist that are not really args. */
#define FRAME_ARGS_SKIP 0
/* Put here the code to store, into a struct frame_saved_regs,
the addresses of the saved registers of frame described by FRAME_INFO.
This includes special registers such as pc and fp saved in special
ways in the stack frame. sp is even more special:
the address we return for it IS the sp for the next frame. */
#define FRAME_INIT_SAVED_REGS(frame_info) \
do { \
if ((frame_info)->saved_regs == NULL) \
mips_find_saved_regs (frame_info); \
(frame_info)->saved_regs[SP_REGNUM] = (frame_info)->frame; \
} while (0)
extern void mips_find_saved_regs (struct frame_info *);
/* Things needed for making the inferior call functions. */
/* Stack must be aligned on 32-bit boundaries when synthesizing
function calls. We don't need STACK_ALIGN, PUSH_ARGUMENTS will
handle it. */
extern CORE_ADDR mips_push_arguments (int, struct value **, CORE_ADDR, int,
CORE_ADDR);
#define PUSH_ARGUMENTS(nargs, args, sp, struct_return, struct_addr) \
(mips_push_arguments((nargs), (args), (sp), (struct_return), (struct_addr)))
extern CORE_ADDR mips_push_return_address (CORE_ADDR pc, CORE_ADDR sp);
#define PUSH_RETURN_ADDRESS(PC, SP) (mips_push_return_address ((PC), (SP)))
/* Push an empty stack frame, to record the current PC, etc. */
#define PUSH_DUMMY_FRAME mips_push_dummy_frame()
extern void mips_push_dummy_frame (void);
/* Discard from the stack the innermost frame, restoring all registers. */
#define POP_FRAME mips_pop_frame()
extern void mips_pop_frame (void);
#define CALL_DUMMY_START_OFFSET (0)
#define CALL_DUMMY_BREAKPOINT_OFFSET (0)
/* When calling functions on Irix 5 (or any MIPS SVR4 ABI compliant
platform), $t9 ($25) (Dest_Reg) contains the address of the callee
(used for PIC). It doesn't hurt to do this on other systems; $t9
will be ignored. */
#define FIX_CALL_DUMMY(dummyname, start_sp, fun, nargs, args, rettype, gcc_p) \
write_register(T9_REGNUM, fun)
#define CALL_DUMMY_LOCATION AT_ENTRY_POINT
#define CALL_DUMMY_ADDRESS() (mips_call_dummy_address ())
extern CORE_ADDR mips_call_dummy_address (void);
/* Special symbol found in blocks associated with routines. We can hang
mips_extra_func_info_t's off of this. */
#define MIPS_EFI_SYMBOL_NAME "__GDB_EFI_INFO__"
extern void ecoff_relocate_efi (struct symbol *, CORE_ADDR);
/* Specific information about a procedure.
This overlays the MIPS's PDR records,
mipsread.c (ab)uses this to save memory */
typedef struct mips_extra_func_info
{
long numargs; /* number of args to procedure (was iopt) */
bfd_vma high_addr; /* upper address bound */
long frame_adjust; /* offset of FP from SP (used on MIPS16) */
PDR pdr; /* Procedure descriptor record */
}
*mips_extra_func_info_t;
extern void mips_init_extra_frame_info (int fromleaf, struct frame_info *);
#define INIT_EXTRA_FRAME_INFO(fromleaf, fci) \
mips_init_extra_frame_info(fromleaf, fci)
extern void mips_print_extra_frame_info (struct frame_info *frame);
#define PRINT_EXTRA_FRAME_INFO(fi) \
mips_print_extra_frame_info (fi)
/* It takes two values to specify a frame on the MIPS.
In fact, the *PC* is the primary value that sets up a frame. The
PC is looked up to see what function it's in; symbol information
from that function tells us which register is the frame pointer
base, and what offset from there is the "virtual frame pointer".
(This is usually an offset from SP.) On most non-MIPS machines,
the primary value is the SP, and the PC, if needed, disambiguates
multiple functions with the same SP. But on the MIPS we can't do
that since the PC is not stored in the same part of the frame every
time. This does not seem to be a very clever way to set up frames,
but there is nothing we can do about that. */
#define SETUP_ARBITRARY_FRAME(argc, argv) setup_arbitrary_frame (argc, argv)
extern struct frame_info *setup_arbitrary_frame (int, CORE_ADDR *);
/* Select the default mips disassembler */
#define TM_PRINT_INSN_MACH 0
/* These are defined in mdebugread.c and are used in mips-tdep.c */
extern CORE_ADDR sigtramp_address, sigtramp_end;
extern void fixup_sigtramp (void);
/* Defined in mips-tdep.c and used in remote-mips.c */
extern char *mips_read_processor_type (void);
/* Functions for dealing with MIPS16 call and return stubs. */
#define IN_SOLIB_CALL_TRAMPOLINE(pc, name) mips_in_call_stub (pc, name)
#define IN_SOLIB_RETURN_TRAMPOLINE(pc, name) mips_in_return_stub (pc, name)
#define SKIP_TRAMPOLINE_CODE(pc) mips_skip_stub (pc)
#define IGNORE_HELPER_CALL(pc) mips_ignore_helper (pc)
extern int mips_in_call_stub (CORE_ADDR pc, char *name);
extern int mips_in_return_stub (CORE_ADDR pc, char *name);
extern CORE_ADDR mips_skip_stub (CORE_ADDR pc);
extern int mips_ignore_helper (CORE_ADDR pc);
#ifndef TARGET_MIPS
#define TARGET_MIPS
#endif
/* Definitions and declarations used by mips-tdep.c and remote-mips.c */
#define MIPS_INSTLEN 4 /* Length of an instruction */
#define MIPS16_INSTLEN 2 /* Length of an instruction on MIPS16 */
#define MIPS_NUMREGS 32 /* Number of integer or float registers */
typedef unsigned long t_inst; /* Integer big enough to hold an instruction */
/* MIPS16 function addresses are odd (bit 0 is set). Here are some
macros to test, set, or clear bit 0 of addresses. */
#define IS_MIPS16_ADDR(addr) ((addr) & 1)
#define MAKE_MIPS16_ADDR(addr) ((addr) | 1)
#define UNMAKE_MIPS16_ADDR(addr) ((addr) & ~1)
#endif /* TM_MIPS_H */
/* Macros for setting and testing a bit in a minimal symbol that
marks it as 16-bit function. The MSB of the minimal symbol's
"info" field is used for this purpose. This field is already
being used to store the symbol size, so the assumption is
that the symbol size cannot exceed 2^31.
ELF_MAKE_MSYMBOL_SPECIAL
tests whether an ELF symbol is "special", i.e. refers
to a 16-bit function, and sets a "special" bit in a
minimal symbol to mark it as a 16-bit function
MSYMBOL_IS_SPECIAL tests the "special" bit in a minimal symbol
MSYMBOL_SIZE returns the size of the minimal symbol, i.e.
the "info" field with the "special" bit masked out
*/
#define ELF_MAKE_MSYMBOL_SPECIAL(sym,msym) \
{ \
if (((elf_symbol_type *)(sym))->internal_elf_sym.st_other == STO_MIPS16) { \
MSYMBOL_INFO (msym) = (char *) (((long) MSYMBOL_INFO (msym)) | 0x80000000); \
SYMBOL_VALUE_ADDRESS (msym) |= 1; \
} \
}
#define MSYMBOL_IS_SPECIAL(msym) \
(((long) MSYMBOL_INFO (msym) & 0x80000000) != 0)
#define MSYMBOL_SIZE(msym) \
((long) MSYMBOL_INFO (msym) & 0x7fffffff)
/* Command to set the processor type. */
extern void mips_set_processor_type_command (char *, int);
/* Single step based on where the current instruction will take us. */
extern void mips_software_single_step (enum target_signal, int);
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