binutils-gdb/gdb/gdbarch.py

517 lines
18 KiB
Python
Raw Normal View History

#!/usr/bin/env python3
# Architecture commands for GDB, the GNU debugger.
#
# Copyright (C) 1998-2022 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/>.
import textwrap
import gdbcopyright
# All the components created in gdbarch-components.py.
components = []
def join_type_and_name(t, n):
"Combine the type T and the name N into a C declaration."
if t.endswith("*") or t.endswith("&"):
return t + n
else:
return t + " " + n
def join_params(params):
"""Given a sequence of (TYPE, NAME) pairs, generate a comma-separated
list of declarations."""
params = [join_type_and_name(p[0], p[1]) for p in params]
return ", ".join(params)
class _Component:
"Base class for all components."
def __init__(self, **kwargs):
for key in kwargs:
setattr(self, key, kwargs[key])
components.append(self)
def get_predicate(self):
"Return the expression used for validity checking."
assert self.predicate and not isinstance(self.invalid, str)
if self.predefault:
predicate = f"gdbarch->{self.name} != {self.predefault}"
elif isinstance(c, Value):
predicate = f"gdbarch->{self.name} != 0"
else:
predicate = f"gdbarch->{self.name} != NULL"
return predicate
class Info(_Component):
"An Info component is copied from the gdbarch_info."
def __init__(self, *, name, type, printer=None):
super().__init__(name=name, type=type, printer=printer)
# This little hack makes the generator a bit simpler.
self.predicate = None
class Value(_Component):
"A Value component is just a data member."
def __init__(
self,
*,
name,
type,
comment=None,
predicate=None,
predefault=None,
postdefault=None,
invalid=None,
printer=None,
):
super().__init__(
comment=comment,
name=name,
type=type,
predicate=predicate,
predefault=predefault,
postdefault=postdefault,
invalid=invalid,
printer=printer,
)
class Function(_Component):
"A Function component is a function pointer member."
def __init__(
self,
*,
name,
type,
params,
comment=None,
predicate=None,
predefault=None,
postdefault=None,
invalid=None,
printer=None,
):
super().__init__(
comment=comment,
name=name,
type=type,
predicate=predicate,
predefault=predefault,
postdefault=postdefault,
invalid=invalid,
printer=printer,
params=params,
)
def ftype(self):
"Return the name of the function typedef to use."
return f"gdbarch_{self.name}_ftype"
def param_list(self):
"Return the formal parameter list as a string."
return join_params(self.params)
def set_list(self):
"""Return the formal parameter list of the caller function,
as a string. This list includes the gdbarch."""
arch_arg = ("struct gdbarch *", "gdbarch")
arch_tuple = [arch_arg]
return join_params(arch_tuple + list(self.params))
def actuals(self):
"Return the actual parameters to forward, as a string."
return ", ".join([p[1] for p in self.params])
class Method(Function):
"A Method is like a Function but passes the gdbarch through."
def param_list(self):
"See superclass."
return self.set_list()
def actuals(self):
"See superclass."
result = ["gdbarch"] + [p[1] for p in self.params]
return ", ".join(result)
# Read the components.
with open("gdbarch-components.py") as fd:
exec(fd.read())
copyright = gdbcopyright.copyright(
"gdbarch.py", "Dynamic architecture support for GDB, the GNU debugger."
)
def info(c):
"Filter function to only allow Info components."
return type(c) is Info
def not_info(c):
"Filter function to omit Info components."
return type(c) is not Info
with open("gdbarch-gen.h", "w") as f:
print(copyright, file=f)
print(file=f)
print(file=f)
print("/* The following are pre-initialized by GDBARCH. */", file=f)
# Do Info components first.
for c in filter(info, components):
print(file=f)
print(
f"""extern {c.type} gdbarch_{c.name} (struct gdbarch *gdbarch);
/* set_gdbarch_{c.name}() - not applicable - pre-initialized. */""",
file=f,
)
print(file=f)
print(file=f)
print("/* The following are initialized by the target dependent code. */", file=f)
# Generate decls for accessors, setters, and predicates for all
# non-Info components.
for c in filter(not_info, components):
if c.comment:
print(file=f)
comment = c.comment.split("\n")
if comment[0] == "":
comment = comment[1:]
if comment[-1] == "":
comment = comment[:-1]
print("/* ", file=f, end="")
print(comment[0], file=f, end="")
if len(comment) > 1:
print(file=f)
print(
textwrap.indent("\n".join(comment[1:]), prefix=" "),
end="",
file=f,
)
print(" */", file=f)
if c.predicate:
print(file=f)
print(f"extern bool gdbarch_{c.name}_p (struct gdbarch *gdbarch);", file=f)
print(file=f)
if isinstance(c, Value):
print(
f"extern {c.type} gdbarch_{c.name} (struct gdbarch *gdbarch);",
file=f,
)
print(
f"extern void set_gdbarch_{c.name} (struct gdbarch *gdbarch, {c.type} {c.name});",
file=f,
)
else:
assert isinstance(c, Function)
print(
f"typedef {c.type} ({c.ftype()}) ({c.param_list()});",
file=f,
)
print(
f"extern {c.type} gdbarch_{c.name} ({c.set_list()});",
file=f,
)
print(
f"extern void set_gdbarch_{c.name} (struct gdbarch *gdbarch, {c.ftype()} *{c.name});",
file=f,
)
with open("gdbarch.c", "w") as f:
print(copyright, file=f)
print(file=f)
print("/* Maintain the struct gdbarch object. */", file=f)
print(file=f)
#
# The struct definition body.
#
print("struct gdbarch", file=f)
print("{", file=f)
print(" /* Has this architecture been fully initialized? */", file=f)
print(" int initialized_p;", file=f)
print(file=f)
print(" /* An obstack bound to the lifetime of the architecture. */", file=f)
print(" struct obstack *obstack;", file=f)
print(file=f)
print(" /* basic architectural information. */", file=f)
for c in filter(info, components):
print(f" {c.type} {c.name};", file=f)
print(file=f)
print(" /* target specific vector. */", file=f)
print(" struct gdbarch_tdep *tdep;", file=f)
print(" gdbarch_dump_tdep_ftype *dump_tdep;", file=f)
print(file=f)
print(" /* per-architecture data-pointers. */", file=f)
print(" unsigned nr_data;", file=f)
print(" void **data;", file=f)
print(file=f)
for c in filter(not_info, components):
if isinstance(c, Value):
print(f" {c.type} {c.name};", file=f)
else:
assert isinstance(c, Function)
print(f" gdbarch_{c.name}_ftype *{c.name};", file=f)
print("};", file=f)
print(file=f)
#
# Initialization.
#
print("/* Create a new ``struct gdbarch'' based on information provided by", file=f)
print(" ``struct gdbarch_info''. */", file=f)
print(file=f)
print("struct gdbarch *", file=f)
print("gdbarch_alloc (const struct gdbarch_info *info,", file=f)
print(" struct gdbarch_tdep *tdep)", file=f)
print("{", file=f)
print(" struct gdbarch *gdbarch;", file=f)
print("", file=f)
print(
" /* Create an obstack for allocating all the per-architecture memory,", file=f
)
print(" then use that to allocate the architecture vector. */", file=f)
print(" struct obstack *obstack = XNEW (struct obstack);", file=f)
print(" obstack_init (obstack);", file=f)
print(" gdbarch = XOBNEW (obstack, struct gdbarch);", file=f)
print(" memset (gdbarch, 0, sizeof (*gdbarch));", file=f)
print(" gdbarch->obstack = obstack;", file=f)
print(file=f)
print(" alloc_gdbarch_data (gdbarch);", file=f)
print(file=f)
print(" gdbarch->tdep = tdep;", file=f)
print(file=f)
for c in filter(info, components):
print(f" gdbarch->{c.name} = info->{c.name};", file=f)
print(file=f)
print(" /* Force the explicit initialization of these. */", file=f)
for c in filter(not_info, components):
if c.predefault and c.predefault != "0":
print(f" gdbarch->{c.name} = {c.predefault};", file=f)
print(" /* gdbarch_alloc() */", file=f)
print(file=f)
print(" return gdbarch;", file=f)
print("}", file=f)
print(file=f)
print(file=f)
print(file=f)
#
# Post-initialization validation and updating
#
print("/* Ensure that all values in a GDBARCH are reasonable. */", file=f)
print(file=f)
print("static void", file=f)
print("verify_gdbarch (struct gdbarch *gdbarch)", file=f)
print("{", file=f)
print(" string_file log;", file=f)
print(file=f)
print(" /* fundamental */", file=f)
print(" if (gdbarch->byte_order == BFD_ENDIAN_UNKNOWN)", file=f)
print(""" log.puts ("\\n\\tbyte-order");""", file=f)
print(" if (gdbarch->bfd_arch_info == NULL)", file=f)
print(""" log.puts ("\\n\\tbfd_arch_info");""", file=f)
print(
" /* Check those that need to be defined for the given multi-arch level. */",
file=f,
)
for c in filter(not_info, components):
if c.invalid is False:
print(f" /* Skip verify of {c.name}, invalid_p == 0 */", file=f)
elif c.predicate:
print(f" /* Skip verify of {c.name}, has predicate. */", file=f)
elif isinstance(c.invalid, str) and c.postdefault is not None:
print(f" if ({c.invalid})", file=f)
print(f" gdbarch->{c.name} = {c.postdefault};", file=f)
elif c.predefault is not None and c.postdefault is not None:
print(f" if (gdbarch->{c.name} == {c.predefault})", file=f)
print(f" gdbarch->{c.name} = {c.postdefault};", file=f)
elif c.postdefault is not None:
print(f" if (gdbarch->{c.name} == 0)", file=f)
print(f" gdbarch->{c.name} = {c.postdefault};", file=f)
elif isinstance(c.invalid, str):
print(f" if ({c.invalid})", file=f)
print(f""" log.puts ("\\n\\t{c.name}");""", file=f)
elif c.predefault is not None:
print(f" if (gdbarch->{c.name} == {c.predefault})", file=f)
print(f""" log.puts ("\\n\\t{c.name}");""", file=f)
gdb/gdbarch: compare some fields against 0 verify_gdbarch After the previous commit, which removes the predicate function gdbarch_register_type_p, I noticed that the gdbarch->register_type field was not checked at in the verify_gdbarch function. More than not being checked, the field wasn't mentioned at all. I find this strange, I would expect that every field would at least be mentioned - we already generate comments for some fields saying that this field is _not_ being checked, so the fact that this field isn't being checked looks (to me), like this field is somehow slipping through the cracks. The comment at the top of gdbarch-components.py tries to explain how the validation is done. I didn't understand this comment completely, but, I think this final sentence: "Otherwise, the check is done against 0 (really NULL for function pointers, but same idea)." Means that, if non of the other cases apply, then the field should be checked against 0, with 0 indicating that the field is invalid (was not set by the tdep code). However, this is clearly not being done. Looking in gdbarch.py at the code to generate verify_gdbarch we do find that there is a case that is not handled, the case where the 'invalid' field is set true True, but non of the other cases apply. In this commit I propose two changes: 1. Handle the case where the 'invalid' field of a property is set to True, this should perform a check for the field of gdbarch still being set to 0, and 2. If the if/else series that generates verify_gdbarch doesn't handle a property then we should raise an exception. This means that if a property is added which isn't handled, we should no longer silently ignore it. After doing this, I re-generated the gdbarch files and saw that the following gdbarch fields now had new validation checks: register_type believe_pcc_promotion register_to_value value_to_register frame_red_zone_size displaced_step_restore_all_in_ptid solib_symbols_extension Looking at how these are currently set in the various -tdep.c files, I believe the only one of these that is required to be set for all architectures is the register_type field. And so, for all of the other fields, I've changed the property definition on gdbarch-components.py, setting the 'invalid' field to False. Now, after re-generation, the register_type field is checked against 0, thus an architecture that doesn't set_gdbarch_register_type will now fail during validation. For all the other fields we skip the validation, in which case, it is find for an architecture to not set this field. My expectation is that there should be no user visible changes after this commit. Certainly for all fields except register_type, all I've really done is cause some extra comments to be generated, so I think that's clearly fine. For the register_type field, my claim is that any architecture that didn't provide this would fail when creating its register cache, and I couldn't spot an architecture that doesn't provide this hook. As such, I think this change should be fine too.
2022-03-10 19:18:18 +08:00
elif c.invalid is True:
print(f" if (gdbarch->{c.name} == 0)", file=f)
print(f""" log.puts ("\\n\\t{c.name}");""", file=f)
else:
# We should not allow ourselves to simply do nothing here
# because no other case applies. If we end up here then
# either the input data needs adjusting so one of the
# above cases matches, or we need additional cases adding
# here.
raise Exception("unhandled case when generating gdbarch validation")
print(" if (!log.empty ())", file=f)
print(" internal_error (__FILE__, __LINE__,", file=f)
print(""" _("verify_gdbarch: the following are invalid ...%s"),""", file=f)
print(" log.c_str ());", file=f)
print("}", file=f)
print(file=f)
print(file=f)
#
# Dumping.
#
print("/* Print out the details of the current architecture. */", file=f)
print(file=f)
print("void", file=f)
print("gdbarch_dump (struct gdbarch *gdbarch, struct ui_file *file)", file=f)
print("{", file=f)
print(""" const char *gdb_nm_file = "<not-defined>";""", file=f)
print(file=f)
print("#if defined (GDB_NM_FILE)", file=f)
print(" gdb_nm_file = GDB_NM_FILE;", file=f)
print("#endif", file=f)
print(" fprintf_filtered (file,", file=f)
print(""" "gdbarch_dump: GDB_NM_FILE = %s\\n",""", file=f)
print(" gdb_nm_file);", file=f)
for c in components:
if c.predicate:
print(" fprintf_filtered (file,", file=f)
print(
f""" "gdbarch_dump: gdbarch_{c.name}_p() = %d\\n",""",
file=f,
)
print(f" gdbarch_{c.name}_p (gdbarch));", file=f)
if isinstance(c, Function):
print(" fprintf_filtered (file,", file=f)
print(
f""" "gdbarch_dump: {c.name} = <%s>\\n",""", file=f
)
print(
f" host_address_to_string (gdbarch->{c.name}));",
file=f,
)
else:
if c.printer:
printer = c.printer
elif c.type == "CORE_ADDR":
printer = f"core_addr_to_string_nz (gdbarch->{c.name})"
else:
printer = f"plongest (gdbarch->{c.name})"
print(" fprintf_filtered (file,", file=f)
print(
f""" "gdbarch_dump: {c.name} = %s\\n",""", file=f
)
print(f" {printer});", file=f)
print(" if (gdbarch->dump_tdep != NULL)", file=f)
print(" gdbarch->dump_tdep (gdbarch, file);", file=f)
print("}", file=f)
print(file=f)
#
# Bodies of setter, accessor, and predicate functions.
#
for c in components:
if c.predicate:
print(file=f)
print("bool", file=f)
print(f"gdbarch_{c.name}_p (struct gdbarch *gdbarch)", file=f)
print("{", file=f)
print(" gdb_assert (gdbarch != NULL);", file=f)
print(f" return {c.get_predicate()};", file=f)
print("}", file=f)
if isinstance(c, Function):
print(file=f)
print(f"{c.type}", file=f)
print(f"gdbarch_{c.name} ({c.set_list()})", file=f)
print("{", file=f)
print(" gdb_assert (gdbarch != NULL);", file=f)
print(f" gdb_assert (gdbarch->{c.name} != NULL);", file=f)
if c.predicate and c.predefault:
# Allow a call to a function with a predicate.
print(
f" /* Do not check predicate: {c.get_predicate()}, allow call. */",
file=f,
)
print(" if (gdbarch_debug >= 2)", file=f)
print(
f""" fprintf_unfiltered (gdb_stdlog, "gdbarch_{c.name} called\\n");""",
file=f,
)
print(" ", file=f, end="")
if c.type != "void":
print("return ", file=f, end="")
print(f"gdbarch->{c.name} ({c.actuals()});", file=f)
print("}", file=f)
print(file=f)
print("void", file=f)
print(f"set_gdbarch_{c.name} (struct gdbarch *gdbarch,", file=f)
print(
f" {' ' * len(c.name)} gdbarch_{c.name}_ftype {c.name})",
file=f,
)
print("{", file=f)
print(f" gdbarch->{c.name} = {c.name};", file=f)
print("}", file=f)
elif isinstance(c, Value):
print(file=f)
print(f"{c.type}", file=f)
print(f"gdbarch_{c.name} (struct gdbarch *gdbarch)", file=f)
print("{", file=f)
print(" gdb_assert (gdbarch != NULL);", file=f)
if c.invalid is False:
print(f" /* Skip verify of {c.name}, invalid_p == 0 */", file=f)
elif isinstance(c.invalid, str):
print(" /* Check variable is valid. */", file=f)
print(f" gdb_assert (!({c.invalid}));", file=f)
elif c.predefault:
print(" /* Check variable changed from pre-default. */", file=f)
print(f" gdb_assert (gdbarch->{c.name} != {c.predefault});", file=f)
print(" if (gdbarch_debug >= 2)", file=f)
print(
f""" fprintf_unfiltered (gdb_stdlog, "gdbarch_{c.name} called\\n");""",
file=f,
)
print(f" return gdbarch->{c.name};", file=f)
print("}", file=f)
print(file=f)
print("void", file=f)
print(f"set_gdbarch_{c.name} (struct gdbarch *gdbarch,", file=f)
print(f" {' ' * len(c.name)} {c.type} {c.name})", file=f)
print("{", file=f)
print(f" gdbarch->{c.name} = {c.name};", file=f)
print("}", file=f)
else:
assert isinstance(c, Info)
print(file=f)
print(f"{c.type}", file=f)
print(f"gdbarch_{c.name} (struct gdbarch *gdbarch)", file=f)
print("{", file=f)
print(" gdb_assert (gdbarch != NULL);", file=f)
print(" if (gdbarch_debug >= 2)", file=f)
print(
f""" fprintf_unfiltered (gdb_stdlog, "gdbarch_{c.name} called\\n");""",
file=f,
)
print(f" return gdbarch->{c.name};", file=f)
print("}", file=f)