Projet_SETI_RISC-V/riscv-gnu-toolchain/binutils/gdbserver/linux-arc-low.cc

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/* Target dependent code for the remote server for GNU/Linux ARC.
Copyright 2020-2022 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/>. */
#include "server.h"
#include "regdef.h"
#include "linux-low.h"
#include "tdesc.h"
#include "arch/arc.h"
#include <linux/elf.h>
#include <arpa/inet.h>
/* Linux starting with 4.12 supports NT_ARC_V2 note type, which adds R30,
R58 and R59 registers. */
#ifdef NT_ARC_V2
#define ARC_HAS_V2_REGSET
#endif
/* The encoding of the instruction "TRAP_S 1" (endianness agnostic). */
#define TRAP_S_1_OPCODE 0x783e
#define TRAP_S_1_SIZE 2
/* Using a mere "uint16_t arc_linux_traps_s = TRAP_S_1_OPCODE" would
work as well, because the endianness will end up correctly when
the code is compiled for the same endianness as the target (see
the notes for "low_breakpoint_at" in this file). However, this
illustrates how the __BIG_ENDIAN__ macro can be used to make
easy-to-understand codes. */
#if defined(__BIG_ENDIAN__)
/* 0x78, 0x3e. */
static gdb_byte arc_linux_trap_s[TRAP_S_1_SIZE]
= {TRAP_S_1_OPCODE >> 8, TRAP_S_1_OPCODE & 0xFF};
#else
/* 0x3e, 0x78. */
static gdb_byte arc_linux_trap_s[TRAP_S_1_SIZE]
= {TRAP_S_1_OPCODE && 0xFF, TRAP_S_1_OPCODE >> 8};
#endif
/* Linux target op definitions for the ARC architecture.
Note for future: in case of adding the protected method low_get_next_pcs(),
the public method supports_software_single_step() should be added to return
"true". */
class arc_target : public linux_process_target
{
public:
const regs_info *get_regs_info () override;
const gdb_byte *sw_breakpoint_from_kind (int kind, int *size) override;
protected:
void low_arch_setup () override;
bool low_cannot_fetch_register (int regno) override;
bool low_cannot_store_register (int regno) override;
bool low_supports_breakpoints () override;
CORE_ADDR low_get_pc (regcache *regcache) override;
void low_set_pc (regcache *regcache, CORE_ADDR newpc) override;
bool low_breakpoint_at (CORE_ADDR where) override;
};
/* The singleton target ops object. */
static arc_target the_arc_target;
bool
arc_target::low_supports_breakpoints ()
{
return true;
}
CORE_ADDR
arc_target::low_get_pc (regcache *regcache)
{
return linux_get_pc_32bit (regcache);
}
void
arc_target::low_set_pc (regcache *regcache, CORE_ADDR pc)
{
linux_set_pc_32bit (regcache, pc);
}
static const struct target_desc *
arc_linux_read_description (void)
{
#ifdef __ARC700__
arc_arch_features features (4, ARC_ISA_ARCV1);
#else
arc_arch_features features (4, ARC_ISA_ARCV2);
#endif
target_desc_up tdesc = arc_create_target_description (features);
static const char *expedite_regs[] = { "sp", "status32", nullptr };
init_target_desc (tdesc.get (), expedite_regs);
return tdesc.release ();
}
void
arc_target::low_arch_setup ()
{
current_process ()->tdesc = arc_linux_read_description ();
}
bool
arc_target::low_cannot_fetch_register (int regno)
{
return (regno >= current_process ()->tdesc->reg_defs.size ());
}
bool
arc_target::low_cannot_store_register (int regno)
{
return (regno >= current_process ()->tdesc->reg_defs.size ());
}
/* This works for both endianness. Below you see an illustration of how
the "trap_s 1" instruction encoded for both endianness in the memory
will end up as the TRAP_S_1_OPCODE constant:
BE: 0x78 0x3e --> at INSN addr: 0x78 0x3e --> INSN = 0x783e
LE: 0x3e 0x78 --> at INSN addr: 0x3e 0x78 --> INSN = 0x783e
One can employ "memcmp()" for comparing the arrays too. */
bool
arc_target::low_breakpoint_at (CORE_ADDR where)
{
uint16_t insn;
/* "the_target" global variable is the current object at hand. */
this->read_memory (where, (gdb_byte *) &insn, TRAP_S_1_SIZE);
return (insn == TRAP_S_1_OPCODE);
}
/* PTRACE_GETREGSET/NT_PRSTATUS and PTRACE_SETREGSET/NT_PRSTATUS work with
regsets in a struct, "user_regs_struct", defined in the
linux/arch/arc/include/uapi/asm/ptrace.h header. This code supports
ARC Linux ABI v3 and v4. */
/* Populate a ptrace NT_PRSTATUS regset from a regcache.
This appears to be a unique approach to populating the buffer, but
being name, rather than offset based, it is robust to future API
changes, as there is no need to create a regmap of registers in the
user_regs_struct. */
static void
arc_fill_gregset (struct regcache *regcache, void *buf)
{
struct user_regs_struct *regbuf = (struct user_regs_struct *) buf;
/* Core registers. */
collect_register_by_name (regcache, "r0", &(regbuf->scratch.r0));
collect_register_by_name (regcache, "r1", &(regbuf->scratch.r1));
collect_register_by_name (regcache, "r2", &(regbuf->scratch.r2));
collect_register_by_name (regcache, "r3", &(regbuf->scratch.r3));
collect_register_by_name (regcache, "r4", &(regbuf->scratch.r4));
collect_register_by_name (regcache, "r5", &(regbuf->scratch.r5));
collect_register_by_name (regcache, "r6", &(regbuf->scratch.r6));
collect_register_by_name (regcache, "r7", &(regbuf->scratch.r7));
collect_register_by_name (regcache, "r8", &(regbuf->scratch.r8));
collect_register_by_name (regcache, "r9", &(regbuf->scratch.r9));
collect_register_by_name (regcache, "r10", &(regbuf->scratch.r10));
collect_register_by_name (regcache, "r11", &(regbuf->scratch.r11));
collect_register_by_name (regcache, "r12", &(regbuf->scratch.r12));
collect_register_by_name (regcache, "r13", &(regbuf->callee.r13));
collect_register_by_name (regcache, "r14", &(regbuf->callee.r14));
collect_register_by_name (regcache, "r15", &(regbuf->callee.r15));
collect_register_by_name (regcache, "r16", &(regbuf->callee.r16));
collect_register_by_name (regcache, "r17", &(regbuf->callee.r17));
collect_register_by_name (regcache, "r18", &(regbuf->callee.r18));
collect_register_by_name (regcache, "r19", &(regbuf->callee.r19));
collect_register_by_name (regcache, "r20", &(regbuf->callee.r20));
collect_register_by_name (regcache, "r21", &(regbuf->callee.r21));
collect_register_by_name (regcache, "r22", &(regbuf->callee.r22));
collect_register_by_name (regcache, "r23", &(regbuf->callee.r23));
collect_register_by_name (regcache, "r24", &(regbuf->callee.r24));
collect_register_by_name (regcache, "r25", &(regbuf->callee.r25));
collect_register_by_name (regcache, "gp", &(regbuf->scratch.gp));
collect_register_by_name (regcache, "fp", &(regbuf->scratch.fp));
collect_register_by_name (regcache, "sp", &(regbuf->scratch.sp));
collect_register_by_name (regcache, "blink", &(regbuf->scratch.blink));
/* Loop registers. */
collect_register_by_name (regcache, "lp_count", &(regbuf->scratch.lp_count));
collect_register_by_name (regcache, "lp_start", &(regbuf->scratch.lp_start));
collect_register_by_name (regcache, "lp_end", &(regbuf->scratch.lp_end));
/* The current "pc" value must be written to "eret" (exception return
address) register, because that is the address that the kernel code
will jump back to after a breakpoint exception has been raised.
The "pc_stop" value is ignored by the genregs_set() in
linux/arch/arc/kernel/ptrace.c. */
collect_register_by_name (regcache, "pc", &(regbuf->scratch.ret));
/* Currently ARC Linux ptrace doesn't allow writes to status32 because
some of its bits are kernel mode-only and shoudn't be writable from
user-space. Writing status32 from debugger could be useful, though,
so ability to write non-priviliged bits will be added to kernel
sooner or later. */
/* BTA. */
collect_register_by_name (regcache, "bta", &(regbuf->scratch.bta));
}
/* Populate a regcache from a ptrace NT_PRSTATUS regset. */
static void
arc_store_gregset (struct regcache *regcache, const void *buf)
{
const struct user_regs_struct *regbuf = (const struct user_regs_struct *) buf;
/* Core registers. */
supply_register_by_name (regcache, "r0", &(regbuf->scratch.r0));
supply_register_by_name (regcache, "r1", &(regbuf->scratch.r1));
supply_register_by_name (regcache, "r2", &(regbuf->scratch.r2));
supply_register_by_name (regcache, "r3", &(regbuf->scratch.r3));
supply_register_by_name (regcache, "r4", &(regbuf->scratch.r4));
supply_register_by_name (regcache, "r5", &(regbuf->scratch.r5));
supply_register_by_name (regcache, "r6", &(regbuf->scratch.r6));
supply_register_by_name (regcache, "r7", &(regbuf->scratch.r7));
supply_register_by_name (regcache, "r8", &(regbuf->scratch.r8));
supply_register_by_name (regcache, "r9", &(regbuf->scratch.r9));
supply_register_by_name (regcache, "r10", &(regbuf->scratch.r10));
supply_register_by_name (regcache, "r11", &(regbuf->scratch.r11));
supply_register_by_name (regcache, "r12", &(regbuf->scratch.r12));
supply_register_by_name (regcache, "r13", &(regbuf->callee.r13));
supply_register_by_name (regcache, "r14", &(regbuf->callee.r14));
supply_register_by_name (regcache, "r15", &(regbuf->callee.r15));
supply_register_by_name (regcache, "r16", &(regbuf->callee.r16));
supply_register_by_name (regcache, "r17", &(regbuf->callee.r17));
supply_register_by_name (regcache, "r18", &(regbuf->callee.r18));
supply_register_by_name (regcache, "r19", &(regbuf->callee.r19));
supply_register_by_name (regcache, "r20", &(regbuf->callee.r20));
supply_register_by_name (regcache, "r21", &(regbuf->callee.r21));
supply_register_by_name (regcache, "r22", &(regbuf->callee.r22));
supply_register_by_name (regcache, "r23", &(regbuf->callee.r23));
supply_register_by_name (regcache, "r24", &(regbuf->callee.r24));
supply_register_by_name (regcache, "r25", &(regbuf->callee.r25));
supply_register_by_name (regcache, "gp", &(regbuf->scratch.gp));
supply_register_by_name (regcache, "fp", &(regbuf->scratch.fp));
supply_register_by_name (regcache, "sp", &(regbuf->scratch.sp));
supply_register_by_name (regcache, "blink", &(regbuf->scratch.blink));
/* Loop registers. */
supply_register_by_name (regcache, "lp_count", &(regbuf->scratch.lp_count));
supply_register_by_name (regcache, "lp_start", &(regbuf->scratch.lp_start));
supply_register_by_name (regcache, "lp_end", &(regbuf->scratch.lp_end));
/* The genregs_get() in linux/arch/arc/kernel/ptrace.c populates the
pseudo register "stop_pc" with the "efa" (exception fault address)
register. This was deemed necessary, because the breakpoint
instruction, "trap_s 1", is a committing one; i.e. the "eret"
(exception return address) register will be pointing to the next
instruction, while "efa" points to the address that raised the
breakpoint. */
supply_register_by_name (regcache, "pc", &(regbuf->stop_pc));
unsigned long pcl = regbuf->stop_pc & ~3L;
supply_register_by_name (regcache, "pcl", &pcl);
/* Other auxilliary registers. */
supply_register_by_name (regcache, "status32", &(regbuf->scratch.status32));
/* BTA. */
supply_register_by_name (regcache, "bta", &(regbuf->scratch.bta));
}
#ifdef ARC_HAS_V2_REGSET
/* Look through a regcache's TDESC for a register named NAME.
If found, return true; false, otherwise. */
static bool
is_reg_name_available_p (const struct target_desc *tdesc,
const char *name)
{
for (const gdb::reg &reg : tdesc->reg_defs)
if (strcmp (name, reg.name) == 0)
return true;
return false;
}
/* Copy registers from regcache to user_regs_arcv2. */
static void
arc_fill_v2_regset (struct regcache *regcache, void *buf)
{
struct user_regs_arcv2 *regbuf = (struct user_regs_arcv2 *) buf;
if (is_reg_name_available_p (regcache->tdesc, "r30"))
collect_register_by_name (regcache, "r30", &(regbuf->r30));
if (is_reg_name_available_p (regcache->tdesc, "r58"))
collect_register_by_name (regcache, "r58", &(regbuf->r58));
if (is_reg_name_available_p (regcache->tdesc, "r59"))
collect_register_by_name (regcache, "r59", &(regbuf->r59));
}
/* Copy registers from user_regs_arcv2 to regcache. */
static void
arc_store_v2_regset (struct regcache *regcache, const void *buf)
{
struct user_regs_arcv2 *regbuf = (struct user_regs_arcv2 *) buf;
if (is_reg_name_available_p (regcache->tdesc, "r30"))
supply_register_by_name (regcache, "r30", &(regbuf->r30));
if (is_reg_name_available_p (regcache->tdesc, "r58"))
supply_register_by_name (regcache, "r58", &(regbuf->r58));
if (is_reg_name_available_p (regcache->tdesc, "r59"))
supply_register_by_name (regcache, "r59", &(regbuf->r59));
}
#endif
/* Fetch the thread-local storage pointer for libthread_db. Note that
this function is not called from GDB, but is called from libthread_db.
This is the same function as for other architectures, for example in
linux-arm-low.c. */
ps_err_e
ps_get_thread_area (struct ps_prochandle *ph, lwpid_t lwpid,
int idx, void **base)
{
if (ptrace (PTRACE_GET_THREAD_AREA, lwpid, nullptr, base) != 0)
return PS_ERR;
/* IDX is the bias from the thread pointer to the beginning of the
thread descriptor. It has to be subtracted due to implementation
quirks in libthread_db. */
*base = (void *) ((char *) *base - idx);
return PS_OK;
}
static struct regset_info arc_regsets[] =
{
{ PTRACE_GETREGSET, PTRACE_SETREGSET, NT_PRSTATUS,
sizeof (struct user_regs_struct), GENERAL_REGS,
arc_fill_gregset, arc_store_gregset
},
#ifdef ARC_HAS_V2_REGSET
{ PTRACE_GETREGSET, PTRACE_SETREGSET, NT_ARC_V2,
sizeof (struct user_regs_arcv2), GENERAL_REGS,
arc_fill_v2_regset, arc_store_v2_regset
},
#endif
NULL_REGSET
};
static struct regsets_info arc_regsets_info =
{
arc_regsets, /* regsets */
0, /* num_regsets */
nullptr, /* disabled regsets */
};
static struct regs_info arc_regs_info =
{
nullptr, /* regset_bitmap */
nullptr, /* usrregs */
&arc_regsets_info
};
const regs_info *
arc_target::get_regs_info ()
{
return &arc_regs_info;
}
/* One of the methods necessary for Z0 packet support. */
const gdb_byte *
arc_target::sw_breakpoint_from_kind (int kind, int *size)
{
gdb_assert (kind == TRAP_S_1_SIZE);
*size = kind;
return arc_linux_trap_s;
}
/* The linux target ops object. */
linux_process_target *the_linux_target = &the_arc_target;
void
initialize_low_arch (void)
{
initialize_regsets_info (&arc_regsets_info);
}