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binutils-gdb/gdb/mips-tdep.h
Simon Marchi 345bd07cce gdb: fix gdbarch_tdep ODR violation 
I would like to be able to use non-trivial types in gdbarch_tdep types.
This is not possible at the moment (in theory), because of the one
definition rule.

To allow it, rename all gdbarch_tdep types to <arch>_gdbarch_tdep, and
make them inherit from a gdbarch_tdep base class.  The inheritance is
necessary to be able to pass pointers to all these <arch>_gdbarch_tdep
objects to gdbarch_alloc, which takes a pointer to gdbarch_tdep.

These objects are never deleted through a base class pointer, so I
didn't include a virtual destructor.  In the future, if gdbarch objects
deletable, I could imagine that the gdbarch_tdep objects could become
owned by the gdbarch objects, and then it would become useful to have a
virtual destructor (so that the gdbarch object can delete the owned
gdbarch_tdep object).  But that's not necessary right now.

It turns out that RISC-V already has a gdbarch_tdep that is
non-default-constructible, so that provides a good motivation for this
change.

Most changes are fairly straightforward, mostly needing to add some
casts all over the place.  There is however the xtensa architecture,
doing its own little weird thing to define its gdbarch_tdep.  I did my
best to adapt it, but I can't test those changes.

Change-Id: Ic001903f91ddd106bd6ca09a79dabe8df2d69f3b
2021-11-15 11:29:39 -05:00

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/* Target-dependent header for the MIPS architecture, for GDB, the GNU Debugger.
Copyright (C) 2002-2021 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 3 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, see <http://www.gnu.org/licenses/>. */
#ifndef MIPS_TDEP_H
#define MIPS_TDEP_H
#include "objfiles.h"
struct gdbarch;
/* All the possible MIPS ABIs. */
enum mips_abi
{
MIPS_ABI_UNKNOWN = 0,
MIPS_ABI_N32,
MIPS_ABI_O32,
MIPS_ABI_N64,
MIPS_ABI_O64,
MIPS_ABI_EABI32,
MIPS_ABI_EABI64,
MIPS_ABI_LAST
};
/* Return the MIPS ABI associated with GDBARCH. */
enum mips_abi mips_abi (struct gdbarch *gdbarch);
/* Base and compressed MIPS ISA variations. */
enum mips_isa
{
ISA_MIPS = -1, /* mips_compression_string depends on it. */
ISA_MIPS16,
ISA_MICROMIPS
};
/* Corresponding MSYMBOL_TARGET_FLAG aliases. */
#define MSYMBOL_TARGET_FLAG_MIPS16 MSYMBOL_TARGET_FLAG_1
#define MSYMBOL_TARGET_FLAG_MICROMIPS MSYMBOL_TARGET_FLAG_2
/* Return the MIPS ISA's register size. Just a short cut to the BFD
architecture's word size. */
extern int mips_isa_regsize (struct gdbarch *gdbarch);
/* Return the current index for various MIPS registers. */
struct mips_regnum
{
int pc;
int fp0;
int fp_implementation_revision;
int fp_control_status;
int badvaddr; /* Bad vaddr for addressing exception. */
int cause; /* Describes last exception. */
int hi; /* Multiply/divide temp. */
int lo; /* ... */
int dspacc; /* SmartMIPS/DSP accumulators. */
int dspctl; /* DSP control. */
};
extern const struct mips_regnum *mips_regnum (struct gdbarch *gdbarch);
/* Some MIPS boards don't support floating point while others only
support single-precision floating-point operations. */
enum mips_fpu_type
{
MIPS_FPU_DOUBLE, /* Full double precision floating point. */
MIPS_FPU_SINGLE, /* Single precision floating point (R4650). */
MIPS_FPU_NONE /* No floating point. */
};
/* MIPS specific per-architecture information. */
struct mips_gdbarch_tdep : gdbarch_tdep
{
/* from the elf header */
int elf_flags = 0;
/* mips options */
enum mips_abi mips_abi {};
enum mips_abi found_abi {};
enum mips_isa mips_isa {};
enum mips_fpu_type mips_fpu_type {};
int mips_last_arg_regnum = 0;
int mips_last_fp_arg_regnum = 0;
int default_mask_address_p = 0;
/* Is the target using 64-bit raw integer registers but only
storing a left-aligned 32-bit value in each? */
int mips64_transfers_32bit_regs_p = 0;
/* Indexes for various registers. IRIX and embedded have
different values. This contains the "public" fields. Don't
add any that do not need to be public. */
const struct mips_regnum *regnum = nullptr;
/* Register names table for the current register set. */
const char * const *mips_processor_reg_names = nullptr;
/* The size of register data available from the target, if known.
This doesn't quite obsolete the manual
mips64_transfers_32bit_regs_p, since that is documented to force
left alignment even for big endian (very strange). */
int register_size_valid_p = 0;
int register_size = 0;
/* Return the expected next PC if FRAME is stopped at a syscall
instruction. */
CORE_ADDR (*syscall_next_pc) (struct frame_info *frame) = nullptr;
};
/* Register numbers of various important registers. */
enum
{
MIPS_ZERO_REGNUM = 0, /* Read-only register, always 0. */
MIPS_AT_REGNUM = 1,
MIPS_V0_REGNUM = 2, /* Function integer return value. */
MIPS_A0_REGNUM = 4, /* Loc of first arg during a subr call. */
MIPS_S2_REGNUM = 18, /* Contains return address in MIPS16 thunks. */
MIPS_T9_REGNUM = 25, /* Contains address of callee in PIC. */
MIPS_GP_REGNUM = 28,
MIPS_SP_REGNUM = 29,
MIPS_RA_REGNUM = 31,
MIPS_PS_REGNUM = 32, /* Contains processor status. */
MIPS_EMBED_LO_REGNUM = 33,
MIPS_EMBED_HI_REGNUM = 34,
MIPS_EMBED_BADVADDR_REGNUM = 35,
MIPS_EMBED_CAUSE_REGNUM = 36,
MIPS_EMBED_PC_REGNUM = 37,
MIPS_EMBED_FP0_REGNUM = 38,
MIPS_UNUSED_REGNUM = 73, /* Never used, FIXME. */
MIPS_FIRST_EMBED_REGNUM = 74, /* First CP0 register for embedded use. */
MIPS_PRID_REGNUM = 89, /* Processor ID. */
MIPS_LAST_EMBED_REGNUM = 89 /* Last one. */
};
/* Instruction sizes and other useful constants. */
enum
{
MIPS_INSN16_SIZE = 2,
MIPS_INSN32_SIZE = 4,
/* The number of floating-point or integer registers. */
MIPS_NUMREGS = 32
};
/* Single step based on where the current instruction will take us. */
extern std::vector<CORE_ADDR> mips_software_single_step
(struct regcache *regcache);
/* Strip the ISA (compression) bit off from ADDR. */
extern CORE_ADDR mips_unmake_compact_addr (CORE_ADDR addr);
/* Tell if the program counter value in MEMADDR is in a standard
MIPS function. */
extern int mips_pc_is_mips (CORE_ADDR memaddr);
/* Tell if the program counter value in MEMADDR is in a MIPS16
function. */
extern int mips_pc_is_mips16 (struct gdbarch *gdbarch, CORE_ADDR memaddr);
/* Tell if the program counter value in MEMADDR is in a microMIPS
function. */
extern int mips_pc_is_micromips (struct gdbarch *gdbarch, CORE_ADDR memaddr);
/* Return the currently configured (or set) saved register size. */
extern unsigned int mips_abi_regsize (struct gdbarch *gdbarch);
/* Make PC the address of the next instruction to execute. */
extern void mips_write_pc (struct regcache *regcache, CORE_ADDR pc);
/* Target descriptions which only indicate the size of general
registers. */
extern struct target_desc *mips_tdesc_gp32;
extern struct target_desc *mips_tdesc_gp64;
/* Return non-zero if PC is in a MIPS SVR4 lazy binding stub section. */
static inline int
in_mips_stubs_section (CORE_ADDR pc)
{
return pc_in_section (pc, ".MIPS.stubs");
}
#endif /* MIPS_TDEP_H */
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