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|
/* Target description support for GDB.
Copyright (C) 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc.
Contributed by CodeSourcery.
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 "defs.h"
#include "arch-utils.h"
#include "gdbcmd.h"
#include "gdbtypes.h"
#include "reggroups.h"
#include "target.h"
#include "target-descriptions.h"
#include "vec.h"
#include "xml-support.h"
#include "xml-tdesc.h"
#include "gdb_assert.h"
#include "gdb_obstack.h"
#include "hashtab.h"
/* Types. */
typedef struct property
{
char *key;
char *value;
} property_s;
DEF_VEC_O(property_s);
/* An individual register from a target description. */
typedef struct tdesc_reg
{
/* The name of this register. In standard features, it may be
recognized by the architecture support code, or it may be purely
for the user. */
char *name;
/* The register number used by this target to refer to this
register. This is used for remote p/P packets and to determine
the ordering of registers in the remote g/G packets. */
long target_regnum;
/* If this flag is set, GDB should save and restore this register
around calls to an inferior function. */
int save_restore;
/* The name of the register group containing this register, or NULL
if the group should be automatically determined from the
register's type. If this is "general", "float", or "vector", the
corresponding "info" command should display this register's
value. It can be an arbitrary string, but should be limited to
alphanumeric characters and internal hyphens. Currently other
strings are ignored (treated as NULL). */
char *group;
/* The size of the register, in bits. */
int bitsize;
/* The type of the register. This string corresponds to either
a named type from the target description or a predefined
type from GDB. */
char *type;
/* The target-described type corresponding to TYPE, if found. */
struct tdesc_type *tdesc_type;
} *tdesc_reg_p;
DEF_VEC_P(tdesc_reg_p);
/* A named type from a target description. */
typedef struct tdesc_type_field
{
char *name;
struct tdesc_type *type;
} tdesc_type_field;
DEF_VEC_O(tdesc_type_field);
typedef struct tdesc_type
{
/* The name of this type. */
char *name;
/* Identify the kind of this type. */
enum
{
/* Predefined types. */
TDESC_TYPE_INT8,
TDESC_TYPE_INT16,
TDESC_TYPE_INT32,
TDESC_TYPE_INT64,
TDESC_TYPE_INT128,
TDESC_TYPE_UINT8,
TDESC_TYPE_UINT16,
TDESC_TYPE_UINT32,
TDESC_TYPE_UINT64,
TDESC_TYPE_UINT128,
TDESC_TYPE_CODE_PTR,
TDESC_TYPE_DATA_PTR,
TDESC_TYPE_IEEE_SINGLE,
TDESC_TYPE_IEEE_DOUBLE,
TDESC_TYPE_ARM_FPA_EXT,
/* Types defined by a target feature. */
TDESC_TYPE_VECTOR,
TDESC_TYPE_UNION
} kind;
/* Kind-specific data. */
union
{
/* Vector type. */
struct
{
struct tdesc_type *type;
int count;
} v;
/* Union type. */
struct
{
VEC(tdesc_type_field) *fields;
} u;
} u;
} *tdesc_type_p;
DEF_VEC_P(tdesc_type_p);
/* A feature from a target description. Each feature is a collection
of other elements, e.g. registers and types. */
typedef struct tdesc_feature
{
/* The name of this feature. It may be recognized by the architecture
support code. */
char *name;
/* The registers associated with this feature. */
VEC(tdesc_reg_p) *registers;
/* The types associated with this feature. */
VEC(tdesc_type_p) *types;
} *tdesc_feature_p;
DEF_VEC_P(tdesc_feature_p);
/* A compatible architecture from a target description. */
typedef const struct bfd_arch_info *arch_p;
DEF_VEC_P(arch_p);
/* A target description. */
struct target_desc
{
/* The architecture reported by the target, if any. */
const struct bfd_arch_info *arch;
/* The osabi reported by the target, if any; GDB_OSABI_UNKNOWN
otherwise. */
enum gdb_osabi osabi;
/* The list of compatible architectures reported by the target. */
VEC(arch_p) *compatible;
/* Any architecture-specific properties specified by the target. */
VEC(property_s) *properties;
/* The features associated with this target. */
VEC(tdesc_feature_p) *features;
};
/* Per-architecture data associated with a target description. The
target description may be shared by multiple architectures, but
this data is private to one gdbarch. */
typedef struct tdesc_arch_reg
{
struct tdesc_reg *reg;
struct type *type;
} tdesc_arch_reg;
DEF_VEC_O(tdesc_arch_reg);
struct tdesc_arch_data
{
/* A list of register/type pairs, indexed by GDB's internal register number.
During initialization of the gdbarch this list is used to store
registers which the architecture assigns a fixed register number.
Registers which are NULL in this array, or off the end, are
treated as zero-sized and nameless (i.e. placeholders in the
numbering). */
VEC(tdesc_arch_reg) *arch_regs;
/* Functions which report the register name, type, and reggroups for
pseudo-registers. */
gdbarch_register_name_ftype *pseudo_register_name;
gdbarch_register_type_ftype *pseudo_register_type;
gdbarch_register_reggroup_p_ftype *pseudo_register_reggroup_p;
};
/* Global state. These variables are associated with the current
target; if GDB adds support for multiple simultaneous targets, then
these variables should become target-specific data. */
/* A flag indicating that a description has already been fetched from
the current target, so it should not be queried again. */
static int target_desc_fetched;
/* The description fetched from the current target, or NULL if the
current target did not supply any description. Only valid when
target_desc_fetched is set. Only the description initialization
code should access this; normally, the description should be
accessed through the gdbarch object. */
static const struct target_desc *current_target_desc;
/* Other global variables. */
/* The filename to read a target description from. */
static char *target_description_filename;
/* A handle for architecture-specific data associated with the
target description (see struct tdesc_arch_data). */
static struct gdbarch_data *tdesc_data;
/* Fetch the current target's description, and switch the current
architecture to one which incorporates that description. */
void
target_find_description (void)
{
/* If we've already fetched a description from the target, don't do
it again. This allows a target to fetch the description early,
during its to_open or to_create_inferior, if it needs extra
information about the target to initialize. */
if (target_desc_fetched)
return;
/* The current architecture should not have any target description
specified. It should have been cleared, e.g. when we
disconnected from the previous target. */
gdb_assert (gdbarch_target_desc (target_gdbarch) == NULL);
/* First try to fetch an XML description from the user-specified
file. */
current_target_desc = NULL;
if (target_description_filename != NULL
&& *target_description_filename != '\0')
current_target_desc
= file_read_description_xml (target_description_filename);
/* Next try to read the description from the current target using
target objects. */
if (current_target_desc == NULL)
current_target_desc = target_read_description_xml (¤t_target);
/* If that failed try a target-specific hook. */
if (current_target_desc == NULL)
current_target_desc = target_read_description (¤t_target);
/* If a non-NULL description was returned, then update the current
architecture. */
if (current_target_desc)
{
struct gdbarch_info info;
gdbarch_info_init (&info);
info.target_desc = current_target_desc;
if (!gdbarch_update_p (info))
warning (_("Architecture rejected target-supplied description"));
else
{
struct tdesc_arch_data *data;
data = gdbarch_data (target_gdbarch, tdesc_data);
if (tdesc_has_registers (current_target_desc)
&& data->arch_regs == NULL)
warning (_("Target-supplied registers are not supported "
"by the current architecture"));
}
}
/* Now that we know this description is usable, record that we
fetched it. */
target_desc_fetched = 1;
}
/* Discard any description fetched from the current target, and switch
the current architecture to one with no target description. */
void
target_clear_description (void)
{
struct gdbarch_info info;
if (!target_desc_fetched)
return;
target_desc_fetched = 0;
current_target_desc = NULL;
gdbarch_info_init (&info);
if (!gdbarch_update_p (info))
internal_error (__FILE__, __LINE__,
_("Could not remove target-supplied description"));
}
/* Return the global current target description. This should only be
used by gdbarch initialization code; most access should be through
an existing gdbarch. */
const struct target_desc *
target_current_description (void)
{
if (target_desc_fetched)
return current_target_desc;
return NULL;
}
/* Return non-zero if this target description is compatible
with the given BFD architecture. */
int
tdesc_compatible_p (const struct target_desc *target_desc,
const struct bfd_arch_info *arch)
{
const struct bfd_arch_info *compat;
int ix;
for (ix = 0; VEC_iterate (arch_p, target_desc->compatible, ix, compat);
ix++)
{
if (compat == arch
|| arch->compatible (arch, compat)
|| compat->compatible (compat, arch))
return 1;
}
return 0;
}
/* Direct accessors for target descriptions. */
/* Return the string value of a property named KEY, or NULL if the
property was not specified. */
const char *
tdesc_property (const struct target_desc *target_desc, const char *key)
{
struct property *prop;
int ix;
for (ix = 0; VEC_iterate (property_s, target_desc->properties, ix, prop);
ix++)
if (strcmp (prop->key, key) == 0)
return prop->value;
return NULL;
}
/* Return the BFD architecture associated with this target
description, or NULL if no architecture was specified. */
const struct bfd_arch_info *
tdesc_architecture (const struct target_desc *target_desc)
{
return target_desc->arch;
}
/* Return the OSABI associated with this target description, or
GDB_OSABI_UNKNOWN if no osabi was specified. */
enum gdb_osabi
tdesc_osabi (const struct target_desc *target_desc)
{
return target_desc->osabi;
}
/* Return 1 if this target description includes any registers. */
int
tdesc_has_registers (const struct target_desc *target_desc)
{
int ix;
struct tdesc_feature *feature;
if (target_desc == NULL)
return 0;
for (ix = 0;
VEC_iterate (tdesc_feature_p, target_desc->features, ix, feature);
ix++)
if (! VEC_empty (tdesc_reg_p, feature->registers))
return 1;
return 0;
}
/* Return the feature with the given name, if present, or NULL if
the named feature is not found. */
const struct tdesc_feature *
tdesc_find_feature (const struct target_desc *target_desc,
const char *name)
{
int ix;
struct tdesc_feature *feature;
for (ix = 0;
VEC_iterate (tdesc_feature_p, target_desc->features, ix, feature);
ix++)
if (strcmp (feature->name, name) == 0)
return feature;
return NULL;
}
/* Return the name of FEATURE. */
const char *
tdesc_feature_name (const struct tdesc_feature *feature)
{
return feature->name;
}
/* Predefined types. */
static struct tdesc_type tdesc_predefined_types[] =
{
{ "int8", TDESC_TYPE_INT8 },
{ "int16", TDESC_TYPE_INT16 },
{ "int32", TDESC_TYPE_INT32 },
{ "int64", TDESC_TYPE_INT64 },
{ "int128", TDESC_TYPE_INT128 },
{ "uint8", TDESC_TYPE_UINT8 },
{ "uint16", TDESC_TYPE_UINT16 },
{ "uint32", TDESC_TYPE_UINT32 },
{ "uint64", TDESC_TYPE_UINT64 },
{ "uint128", TDESC_TYPE_UINT128 },
{ "code_ptr", TDESC_TYPE_CODE_PTR },
{ "data_ptr", TDESC_TYPE_DATA_PTR },
{ "ieee_single", TDESC_TYPE_IEEE_SINGLE },
{ "ieee_double", TDESC_TYPE_IEEE_DOUBLE },
{ "arm_fpa_ext", TDESC_TYPE_ARM_FPA_EXT }
};
/* Return the type associated with ID in the context of FEATURE, or
NULL if none. */
struct tdesc_type *
tdesc_named_type (const struct tdesc_feature *feature, const char *id)
{
int ix;
struct tdesc_type *type;
/* First try target-defined types. */
for (ix = 0; VEC_iterate (tdesc_type_p, feature->types, ix, type); ix++)
if (strcmp (type->name, id) == 0)
return type;
/* Next try the predefined types. */
for (ix = 0; ix < ARRAY_SIZE (tdesc_predefined_types); ix++)
if (strcmp (tdesc_predefined_types[ix].name, id) == 0)
return &tdesc_predefined_types[ix];
return NULL;
}
/* Construct, if necessary, and return the GDB type implementing target
type TDESC_TYPE for architecture GDBARCH. */
static struct type *
tdesc_gdb_type (struct gdbarch *gdbarch, struct tdesc_type *tdesc_type)
{
switch (tdesc_type->kind)
{
/* Predefined types. */
case TDESC_TYPE_INT8:
return builtin_type (gdbarch)->builtin_int8;
case TDESC_TYPE_INT16:
return builtin_type (gdbarch)->builtin_int16;
case TDESC_TYPE_INT32:
return builtin_type (gdbarch)->builtin_int32;
case TDESC_TYPE_INT64:
return builtin_type (gdbarch)->builtin_int64;
case TDESC_TYPE_INT128:
return builtin_type (gdbarch)->builtin_int128;
case TDESC_TYPE_UINT8:
return builtin_type (gdbarch)->builtin_uint8;
case TDESC_TYPE_UINT16:
return builtin_type (gdbarch)->builtin_uint16;
case TDESC_TYPE_UINT32:
return builtin_type (gdbarch)->builtin_uint32;
case TDESC_TYPE_UINT64:
return builtin_type (gdbarch)->builtin_uint64;
case TDESC_TYPE_UINT128:
return builtin_type (gdbarch)->builtin_uint128;
case TDESC_TYPE_CODE_PTR:
return builtin_type (gdbarch)->builtin_func_ptr;
case TDESC_TYPE_DATA_PTR:
return builtin_type (gdbarch)->builtin_data_ptr;
case TDESC_TYPE_IEEE_SINGLE:
return arch_float_type (gdbarch, -1, "builtin_type_ieee_single",
floatformats_ieee_single);
case TDESC_TYPE_IEEE_DOUBLE:
return arch_float_type (gdbarch, -1, "builtin_type_ieee_double",
floatformats_ieee_double);
case TDESC_TYPE_ARM_FPA_EXT:
return arch_float_type (gdbarch, -1, "builtin_type_arm_ext",
floatformats_arm_ext);
/* Types defined by a target feature. */
case TDESC_TYPE_VECTOR:
{
struct type *type, *field_type;
field_type = tdesc_gdb_type (gdbarch, tdesc_type->u.v.type);
type = init_vector_type (field_type, tdesc_type->u.v.count);
TYPE_NAME (type) = xstrdup (tdesc_type->name);
return type;
}
case TDESC_TYPE_UNION:
{
struct type *type, *field_type;
struct tdesc_type_field *f;
int ix;
type = arch_composite_type (gdbarch, NULL, TYPE_CODE_UNION);
TYPE_NAME (type) = xstrdup (tdesc_type->name);
for (ix = 0;
VEC_iterate (tdesc_type_field, tdesc_type->u.u.fields, ix, f);
ix++)
{
field_type = tdesc_gdb_type (gdbarch, f->type);
append_composite_type_field (type, xstrdup (f->name), field_type);
/* If any of the children of this union are vectors, flag the
union as a vector also. This allows e.g. a union of two
vector types to show up automatically in "info vector". */
if (TYPE_VECTOR (field_type))
TYPE_VECTOR (type) = 1;
}
return type;
}
}
internal_error (__FILE__, __LINE__,
"Type \"%s\" has an unknown kind %d",
tdesc_type->name, tdesc_type->kind);
}
/* Support for registers from target descriptions. */
/* Construct the per-gdbarch data. */
static void *
tdesc_data_init (struct obstack *obstack)
{
struct tdesc_arch_data *data;
data = OBSTACK_ZALLOC (obstack, struct tdesc_arch_data);
return data;
}
/* Similar, but for the temporary copy used during architecture
initialization. */
struct tdesc_arch_data *
tdesc_data_alloc (void)
{
return XZALLOC (struct tdesc_arch_data);
}
/* Free something allocated by tdesc_data_alloc, if it is not going
to be used (for instance if it was unsuitable for the
architecture). */
void
tdesc_data_cleanup (void *data_untyped)
{
struct tdesc_arch_data *data = data_untyped;
VEC_free (tdesc_arch_reg, data->arch_regs);
xfree (data);
}
/* Search FEATURE for a register named NAME. */
static struct tdesc_reg *
tdesc_find_register_early (const struct tdesc_feature *feature,
const char *name)
{
int ixr;
struct tdesc_reg *reg;
for (ixr = 0;
VEC_iterate (tdesc_reg_p, feature->registers, ixr, reg);
ixr++)
if (strcasecmp (reg->name, name) == 0)
return reg;
return NULL;
}
/* Search FEATURE for a register named NAME. Assign REGNO to it. */
int
tdesc_numbered_register (const struct tdesc_feature *feature,
struct tdesc_arch_data *data,
int regno, const char *name)
{
struct tdesc_arch_reg arch_reg = { 0 };
struct tdesc_reg *reg = tdesc_find_register_early (feature, name);
if (reg == NULL)
return 0;
/* Make sure the vector includes a REGNO'th element. */
while (regno >= VEC_length (tdesc_arch_reg, data->arch_regs))
VEC_safe_push (tdesc_arch_reg, data->arch_regs, &arch_reg);
arch_reg.reg = reg;
VEC_replace (tdesc_arch_reg, data->arch_regs, regno, &arch_reg);
return 1;
}
/* Search FEATURE for a register named NAME, but do not assign a fixed
register number to it. */
int
tdesc_unnumbered_register (const struct tdesc_feature *feature,
const char *name)
{
struct tdesc_reg *reg = tdesc_find_register_early (feature, name);
if (reg == NULL)
return 0;
return 1;
}
/* Search FEATURE for a register whose name is in NAMES and assign
REGNO to it. */
int
tdesc_numbered_register_choices (const struct tdesc_feature *feature,
struct tdesc_arch_data *data,
int regno, const char *const names[])
{
int i;
for (i = 0; names[i] != NULL; i++)
if (tdesc_numbered_register (feature, data, regno, names[i]))
return 1;
return 0;
}
/* Search FEATURE for a register named NAME, and return its size in
bits. The register must exist. */
int
tdesc_register_size (const struct tdesc_feature *feature,
const char *name)
{
struct tdesc_reg *reg = tdesc_find_register_early (feature, name);
gdb_assert (reg != NULL);
return reg->bitsize;
}
/* Look up a register by its GDB internal register number. */
static struct tdesc_arch_reg *
tdesc_find_arch_register (struct gdbarch *gdbarch, int regno)
{
struct tdesc_arch_reg *reg;
struct tdesc_arch_data *data;
data = gdbarch_data (gdbarch, tdesc_data);
if (regno < VEC_length (tdesc_arch_reg, data->arch_regs))
return VEC_index (tdesc_arch_reg, data->arch_regs, regno);
else
return NULL;
}
static struct tdesc_reg *
tdesc_find_register (struct gdbarch *gdbarch, int regno)
{
struct tdesc_arch_reg *reg = tdesc_find_arch_register (gdbarch, regno);
return reg? reg->reg : NULL;
}
/* Return the name of register REGNO, from the target description or
from an architecture-provided pseudo_register_name method. */
const char *
tdesc_register_name (struct gdbarch *gdbarch, int regno)
{
struct tdesc_reg *reg = tdesc_find_register (gdbarch, regno);
int num_regs = gdbarch_num_regs (gdbarch);
int num_pseudo_regs = gdbarch_num_pseudo_regs (gdbarch);
if (reg != NULL)
return reg->name;
if (regno >= num_regs && regno < num_regs + num_pseudo_regs)
{
struct tdesc_arch_data *data = gdbarch_data (gdbarch, tdesc_data);
gdb_assert (data->pseudo_register_name != NULL);
return data->pseudo_register_name (gdbarch, regno);
}
return "";
}
struct type *
tdesc_register_type (struct gdbarch *gdbarch, int regno)
{
struct tdesc_arch_reg *arch_reg = tdesc_find_arch_register (gdbarch, regno);
struct tdesc_reg *reg = arch_reg? arch_reg->reg : NULL;
int num_regs = gdbarch_num_regs (gdbarch);
int num_pseudo_regs = gdbarch_num_pseudo_regs (gdbarch);
if (reg == NULL && regno >= num_regs && regno < num_regs + num_pseudo_regs)
{
struct tdesc_arch_data *data = gdbarch_data (gdbarch, tdesc_data);
gdb_assert (data->pseudo_register_type != NULL);
return data->pseudo_register_type (gdbarch, regno);
}
if (reg == NULL)
/* Return "int0_t", since "void" has a misleading size of one. */
return builtin_type (gdbarch)->builtin_int0;
if (arch_reg->type == NULL)
{
/* First check for a predefined or target defined type. */
if (reg->tdesc_type)
arch_reg->type = tdesc_gdb_type (gdbarch, reg->tdesc_type);
/* Next try size-sensitive type shortcuts. */
else if (strcmp (reg->type, "float") == 0)
{
if (reg->bitsize == gdbarch_float_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_float;
else if (reg->bitsize == gdbarch_double_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_double;
else if (reg->bitsize == gdbarch_long_double_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_long_double;
else
{
warning (_("Register \"%s\" has an unsupported size (%d bits)"),
reg->name, reg->bitsize);
arch_reg->type = builtin_type (gdbarch)->builtin_double;
}
}
else if (strcmp (reg->type, "int") == 0)
{
if (reg->bitsize == gdbarch_long_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_long;
else if (reg->bitsize == TARGET_CHAR_BIT)
arch_reg->type = builtin_type (gdbarch)->builtin_char;
else if (reg->bitsize == gdbarch_short_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_short;
else if (reg->bitsize == gdbarch_int_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_int;
else if (reg->bitsize == gdbarch_long_long_bit (gdbarch))
arch_reg->type = builtin_type (gdbarch)->builtin_long_long;
else if (reg->bitsize == gdbarch_ptr_bit (gdbarch))
/* A bit desperate by this point... */
arch_reg->type = builtin_type (gdbarch)->builtin_data_ptr;
else
{
warning (_("Register \"%s\" has an unsupported size (%d bits)"),
reg->name, reg->bitsize);
arch_reg->type = builtin_type (gdbarch)->builtin_long;
}
}
if (arch_reg->type == NULL)
internal_error (__FILE__, __LINE__,
"Register \"%s\" has an unknown type \"%s\"",
reg->name, reg->type);
}
return arch_reg->type;
}
static int
tdesc_remote_register_number (struct gdbarch *gdbarch, int regno)
{
struct tdesc_reg *reg = tdesc_find_register (gdbarch, regno);
if (reg != NULL)
return reg->target_regnum;
else
return -1;
}
/* Check whether REGNUM is a member of REGGROUP. Registers from the
target description may be classified as general, float, or vector.
Unlike a gdbarch register_reggroup_p method, this function will
return -1 if it does not know; the caller should handle registers
with no specified group.
Arbitrary strings (other than "general", "float", and "vector")
from the description are not used; they cause the register to be
displayed in "info all-registers" but excluded from "info
registers" et al. The names of containing features are also not
used. This might be extended to display registers in some more
useful groupings.
The save-restore flag is also implemented here. */
int
tdesc_register_in_reggroup_p (struct gdbarch *gdbarch, int regno,
struct reggroup *reggroup)
{
struct tdesc_reg *reg = tdesc_find_register (gdbarch, regno);
if (reg != NULL && reg->group != NULL)
{
int general_p = 0, float_p = 0, vector_p = 0;
if (strcmp (reg->group, "general") == 0)
general_p = 1;
else if (strcmp (reg->group, "float") == 0)
float_p = 1;
else if (strcmp (reg->group, "vector") == 0)
vector_p = 1;
if (reggroup == float_reggroup)
return float_p;
if (reggroup == vector_reggroup)
return vector_p;
if (reggroup == general_reggroup)
return general_p;
}
if (reg != NULL
&& (reggroup == save_reggroup || reggroup == restore_reggroup))
return reg->save_restore;
return -1;
}
/* Check whether REGNUM is a member of REGGROUP. Registers with no
group specified go to the default reggroup function and are handled
by type. */
static int
tdesc_register_reggroup_p (struct gdbarch *gdbarch, int regno,
struct reggroup *reggroup)
{
int num_regs = gdbarch_num_regs (gdbarch);
int num_pseudo_regs = gdbarch_num_pseudo_regs (gdbarch);
int ret;
if (regno >= num_regs && regno < num_regs + num_pseudo_regs)
{
struct tdesc_arch_data *data = gdbarch_data (gdbarch, tdesc_data);
if (data->pseudo_register_reggroup_p != NULL)
return data->pseudo_register_reggroup_p (gdbarch, regno, reggroup);
/* Otherwise fall through to the default reggroup_p. */
}
ret = tdesc_register_in_reggroup_p (gdbarch, regno, reggroup);
if (ret != -1)
return ret;
return default_register_reggroup_p (gdbarch, regno, reggroup);
}
/* Record architecture-specific functions to call for pseudo-register
support. */
void
set_tdesc_pseudo_register_name (struct gdbarch *gdbarch,
gdbarch_register_name_ftype *pseudo_name)
{
struct tdesc_arch_data *data = gdbarch_data (gdbarch, tdesc_data);
data->pseudo_register_name = pseudo_name;
}
void
set_tdesc_pseudo_register_type (struct gdbarch *gdbarch,
gdbarch_register_type_ftype *pseudo_type)
{
struct tdesc_arch_data *data = gdbarch_data (gdbarch, tdesc_data);
data->pseudo_register_type = pseudo_type;
}
void
set_tdesc_pseudo_register_reggroup_p
(struct gdbarch *gdbarch,
gdbarch_register_reggroup_p_ftype *pseudo_reggroup_p)
{
struct tdesc_arch_data *data = gdbarch_data (gdbarch, tdesc_data);
data->pseudo_register_reggroup_p = pseudo_reggroup_p;
}
/* Update GDBARCH to use the target description for registers. */
void
tdesc_use_registers (struct gdbarch *gdbarch,
const struct target_desc *target_desc,
struct tdesc_arch_data *early_data)
{
int num_regs = gdbarch_num_regs (gdbarch);
int i, ixf, ixr;
struct tdesc_feature *feature;
struct tdesc_reg *reg;
struct tdesc_arch_data *data;
struct tdesc_arch_reg *arch_reg, new_arch_reg = { 0 };
htab_t reg_hash;
/* We can't use the description for registers if it doesn't describe
any. This function should only be called after validating
registers, so the caller should know that registers are
included. */
gdb_assert (tdesc_has_registers (target_desc));
data = gdbarch_data (gdbarch, tdesc_data);
data->arch_regs = early_data->arch_regs;
xfree (early_data);
/* Build up a set of all registers, so that we can assign register
numbers where needed. The hash table expands as necessary, so
the initial size is arbitrary. */
reg_hash = htab_create (37, htab_hash_pointer, htab_eq_pointer, NULL);
for (ixf = 0;
VEC_iterate (tdesc_feature_p, target_desc->features, ixf, feature);
ixf++)
for (ixr = 0;
VEC_iterate (tdesc_reg_p, feature->registers, ixr, reg);
ixr++)
{
void **slot = htab_find_slot (reg_hash, reg, INSERT);
*slot = reg;
}
/* Remove any registers which were assigned numbers by the
architecture. */
for (ixr = 0;
VEC_iterate (tdesc_arch_reg, data->arch_regs, ixr, arch_reg);
ixr++)
if (arch_reg->reg)
htab_remove_elt (reg_hash, arch_reg->reg);
/* Assign numbers to the remaining registers and add them to the
list of registers. The new numbers are always above gdbarch_num_regs.
Iterate over the features, not the hash table, so that the order
matches that in the target description. */
gdb_assert (VEC_length (tdesc_arch_reg, data->arch_regs) <= num_regs);
while (VEC_length (tdesc_arch_reg, data->arch_regs) < num_regs)
VEC_safe_push (tdesc_arch_reg, data->arch_regs, &new_arch_reg);
for (ixf = 0;
VEC_iterate (tdesc_feature_p, target_desc->features, ixf, feature);
ixf++)
for (ixr = 0;
VEC_iterate (tdesc_reg_p, feature->registers, ixr, reg);
ixr++)
if (htab_find (reg_hash, reg) != NULL)
{
new_arch_reg.reg = reg;
VEC_safe_push (tdesc_arch_reg, data->arch_regs, &new_arch_reg);
num_regs++;
}
htab_delete (reg_hash);
/* Update the architecture. */
set_gdbarch_num_regs (gdbarch, num_regs);
set_gdbarch_register_name (gdbarch, tdesc_register_name);
set_gdbarch_register_type (gdbarch, tdesc_register_type);
set_gdbarch_remote_register_number (gdbarch,
tdesc_remote_register_number);
set_gdbarch_register_reggroup_p (gdbarch, tdesc_register_reggroup_p);
}
/* Methods for constructing a target description. */
static void
tdesc_free_reg (struct tdesc_reg *reg)
{
xfree (reg->name);
xfree (reg->type);
xfree (reg->group);
xfree (reg);
}
void
tdesc_create_reg (struct tdesc_feature *feature, const char *name,
int regnum, int save_restore, const char *group,
int bitsize, const char *type)
{
struct tdesc_reg *reg = XZALLOC (struct tdesc_reg);
reg->name = xstrdup (name);
reg->target_regnum = regnum;
reg->save_restore = save_restore;
reg->group = group ? xstrdup (group) : NULL;
reg->bitsize = bitsize;
reg->type = type ? xstrdup (type) : xstrdup ("<unknown>");
/* If the register's type is target-defined, look it up now. We may not
have easy access to the containing feature when we want it later. */
reg->tdesc_type = tdesc_named_type (feature, reg->type);
VEC_safe_push (tdesc_reg_p, feature->registers, reg);
}
static void
tdesc_free_type (struct tdesc_type *type)
{
switch (type->kind)
{
case TDESC_TYPE_UNION:
{
struct tdesc_type_field *f;
int ix;
for (ix = 0;
VEC_iterate (tdesc_type_field, type->u.u.fields, ix, f);
ix++)
xfree (f->name);
VEC_free (tdesc_type_field, type->u.u.fields);
}
break;
default:
break;
}
xfree (type->name);
xfree (type);
}
struct tdesc_type *
tdesc_create_vector (struct tdesc_feature *feature, const char *name,
struct tdesc_type *field_type, int count)
{
struct tdesc_type *type = XZALLOC (struct tdesc_type);
type->name = xstrdup (name);
type->kind = TDESC_TYPE_VECTOR;
type->u.v.type = field_type;
type->u.v.count = count;
VEC_safe_push (tdesc_type_p, feature->types, type);
return type;
}
struct tdesc_type *
tdesc_create_union (struct tdesc_feature *feature, const char *name)
{
struct tdesc_type *type = XZALLOC (struct tdesc_type);
type->name = xstrdup (name);
type->kind = TDESC_TYPE_UNION;
VEC_safe_push (tdesc_type_p, feature->types, type);
return type;
}
void
tdesc_add_field (struct tdesc_type *type, const char *field_name,
struct tdesc_type *field_type)
{
struct tdesc_type_field f = { 0 };
gdb_assert (type->kind == TDESC_TYPE_UNION);
f.name = xstrdup (field_name);
f.type = field_type;
VEC_safe_push (tdesc_type_field, type->u.u.fields, &f);
}
static void
tdesc_free_feature (struct tdesc_feature *feature)
{
struct tdesc_reg *reg;
struct tdesc_type *type;
int ix;
for (ix = 0; VEC_iterate (tdesc_reg_p, feature->registers, ix, reg); ix++)
tdesc_free_reg (reg);
VEC_free (tdesc_reg_p, feature->registers);
for (ix = 0; VEC_iterate (tdesc_type_p, feature->types, ix, type); ix++)
tdesc_free_type (type);
VEC_free (tdesc_type_p, feature->types);
xfree (feature->name);
xfree (feature);
}
struct tdesc_feature *
tdesc_create_feature (struct target_desc *tdesc, const char *name)
{
struct tdesc_feature *new_feature = XZALLOC (struct tdesc_feature);
new_feature->name = xstrdup (name);
VEC_safe_push (tdesc_feature_p, tdesc->features, new_feature);
return new_feature;
}
struct target_desc *
allocate_target_description (void)
{
return XZALLOC (struct target_desc);
}
static void
free_target_description (void *arg)
{
struct target_desc *target_desc = arg;
struct tdesc_feature *feature;
struct property *prop;
int ix;
for (ix = 0;
VEC_iterate (tdesc_feature_p, target_desc->features, ix, feature);
ix++)
tdesc_free_feature (feature);
VEC_free (tdesc_feature_p, target_desc->features);
for (ix = 0;
VEC_iterate (property_s, target_desc->properties, ix, prop);
ix++)
{
xfree (prop->key);
xfree (prop->value);
}
VEC_free (property_s, target_desc->properties);
VEC_free (arch_p, target_desc->compatible);
xfree (target_desc);
}
struct cleanup *
make_cleanup_free_target_description (struct target_desc *target_desc)
{
return make_cleanup (free_target_description, target_desc);
}
void
tdesc_add_compatible (struct target_desc *target_desc,
const struct bfd_arch_info *compatible)
{
const struct bfd_arch_info *compat;
int ix;
/* If this instance of GDB is compiled without BFD support for the
compatible architecture, simply ignore it -- we would not be able
to handle it anyway. */
if (compatible == NULL)
return;
for (ix = 0; VEC_iterate (arch_p, target_desc->compatible, ix, compat);
ix++)
if (compat == compatible)
internal_error (__FILE__, __LINE__,
_("Attempted to add duplicate "
"compatible architecture \"%s\""),
compatible->printable_name);
VEC_safe_push (arch_p, target_desc->compatible, compatible);
}
void
set_tdesc_property (struct target_desc *target_desc,
const char *key, const char *value)
{
struct property *prop, new_prop;
int ix;
gdb_assert (key != NULL && value != NULL);
for (ix = 0; VEC_iterate (property_s, target_desc->properties, ix, prop);
ix++)
if (strcmp (prop->key, key) == 0)
internal_error (__FILE__, __LINE__,
_("Attempted to add duplicate property \"%s\""), key);
new_prop.key = xstrdup (key);
new_prop.value = xstrdup (value);
VEC_safe_push (property_s, target_desc->properties, &new_prop);
}
void
set_tdesc_architecture (struct target_desc *target_desc,
const struct bfd_arch_info *arch)
{
target_desc->arch = arch;
}
void
set_tdesc_osabi (struct target_desc *target_desc, enum gdb_osabi osabi)
{
target_desc->osabi = osabi;
}
static struct cmd_list_element *tdesc_set_cmdlist, *tdesc_show_cmdlist;
static struct cmd_list_element *tdesc_unset_cmdlist;
/* Helper functions for the CLI commands. */
static void
set_tdesc_cmd (char *args, int from_tty)
{
help_list (tdesc_set_cmdlist, "set tdesc ", -1, gdb_stdout);
}
static void
show_tdesc_cmd (char *args, int from_tty)
{
cmd_show_list (tdesc_show_cmdlist, from_tty, "");
}
static void
unset_tdesc_cmd (char *args, int from_tty)
{
help_list (tdesc_unset_cmdlist, "unset tdesc ", -1, gdb_stdout);
}
static void
set_tdesc_filename_cmd (char *args, int from_tty,
struct cmd_list_element *c)
{
target_clear_description ();
target_find_description ();
}
static void
show_tdesc_filename_cmd (struct ui_file *file, int from_tty,
struct cmd_list_element *c,
const char *value)
{
if (value != NULL && *value != '\0')
printf_filtered (_("\
The target description will be read from \"%s\".\n"),
value);
else
printf_filtered (_("\
The target description will be read from the target.\n"));
}
static void
unset_tdesc_filename_cmd (char *args, int from_tty)
{
xfree (target_description_filename);
target_description_filename = NULL;
target_clear_description ();
target_find_description ();
}
static void
maint_print_c_tdesc_cmd (char *args, int from_tty)
{
const struct target_desc *tdesc;
const struct bfd_arch_info *compatible;
const char *filename, *inp;
char *function, *outp;
struct property *prop;
struct tdesc_feature *feature;
struct tdesc_reg *reg;
struct tdesc_type *type;
struct tdesc_type_field *f;
int ix, ix2, ix3;
/* Use the global target-supplied description, not the current
architecture's. This lets a GDB for one architecture generate C
for another architecture's description, even though the gdbarch
initialization code will reject the new description. */
tdesc = current_target_desc;
if (tdesc == NULL)
error (_("There is no target description to print."));
if (target_description_filename == NULL)
error (_("The current target description did not come from an XML file."));
filename = lbasename (target_description_filename);
function = alloca (strlen (filename) + 1);
for (inp = filename, outp = function; *inp != '\0'; inp++)
if (*inp == '.')
break;
else if (*inp == '-')
*outp++ = '_';
else
*outp++ = *inp;
*outp = '\0';
/* Standard boilerplate. */
printf_unfiltered ("/* THIS FILE IS GENERATED. Original: %s */\n\n",
filename);
printf_unfiltered ("#include \"defs.h\"\n");
printf_unfiltered ("#include \"target-descriptions.h\"\n");
printf_unfiltered ("\n");
printf_unfiltered ("struct target_desc *tdesc_%s;\n", function);
printf_unfiltered ("static void\n");
printf_unfiltered ("initialize_tdesc_%s (void)\n", function);
printf_unfiltered ("{\n");
printf_unfiltered
(" struct target_desc *result = allocate_target_description ();\n");
printf_unfiltered (" struct tdesc_feature *feature;\n");
printf_unfiltered (" struct tdesc_type *field_type, *type;\n");
printf_unfiltered ("\n");
if (tdesc_architecture (tdesc) != NULL)
{
printf_unfiltered
(" set_tdesc_architecture (result, bfd_scan_arch (\"%s\"));\n",
tdesc_architecture (tdesc)->printable_name);
printf_unfiltered ("\n");
}
for (ix = 0; VEC_iterate (arch_p, tdesc->compatible, ix, compatible);
ix++)
{
printf_unfiltered
(" tdesc_add_compatible (result, bfd_scan_arch (\"%s\"));\n",
compatible->printable_name);
}
if (ix)
printf_unfiltered ("\n");
for (ix = 0; VEC_iterate (property_s, tdesc->properties, ix, prop);
ix++)
{
printf_unfiltered (" set_tdesc_property (result, \"%s\", \"%s\");\n",
prop->key, prop->value);
}
for (ix = 0;
VEC_iterate (tdesc_feature_p, tdesc->features, ix, feature);
ix++)
{
printf_unfiltered (" feature = tdesc_create_feature (result, \"%s\");\n",
feature->name);
for (ix2 = 0;
VEC_iterate (tdesc_type_p, feature->types, ix2, type);
ix2++)
{
switch (type->kind)
{
case TDESC_TYPE_VECTOR:
printf_unfiltered
(" field_type = tdesc_named_type (feature, \"%s\");\n",
type->u.v.type->name);
printf_unfiltered
(" tdesc_create_vector (feature, \"%s\", field_type, %d);\n",
type->name, type->u.v.count);
break;
case TDESC_TYPE_UNION:
printf_unfiltered
(" type = tdesc_create_union (feature, \"%s\");\n",
type->name);
for (ix3 = 0;
VEC_iterate (tdesc_type_field, type->u.u.fields, ix3, f);
ix3++)
{
printf_unfiltered
(" field_type = tdesc_named_type (feature, \"%s\");\n",
f->type->name);
printf_unfiltered
(" tdesc_add_field (type, \"%s\", field_type);\n",
f->name);
}
break;
default:
error (_("C output is not supported type \"%s\"."), type->name);
}
printf_unfiltered ("\n");
}
for (ix2 = 0;
VEC_iterate (tdesc_reg_p, feature->registers, ix2, reg);
ix2++)
{
printf_unfiltered (" tdesc_create_reg (feature, \"%s\", %ld, %d, ",
reg->name, reg->target_regnum, reg->save_restore);
if (reg->group)
printf_unfiltered ("\"%s\", ", reg->group);
else
printf_unfiltered ("NULL, ");
printf_unfiltered ("%d, \"%s\");\n", reg->bitsize, reg->type);
}
printf_unfiltered ("\n");
}
printf_unfiltered (" tdesc_%s = result;\n", function);
printf_unfiltered ("}\n");
}
/* Provide a prototype to silence -Wmissing-prototypes. */
extern initialize_file_ftype _initialize_target_descriptions;
void
_initialize_target_descriptions (void)
{
tdesc_data = gdbarch_data_register_pre_init (tdesc_data_init);
add_prefix_cmd ("tdesc", class_maintenance, set_tdesc_cmd, _("\
Set target description specific variables."),
&tdesc_set_cmdlist, "set tdesc ",
0 /* allow-unknown */, &setlist);
add_prefix_cmd ("tdesc", class_maintenance, show_tdesc_cmd, _("\
Show target description specific variables."),
&tdesc_show_cmdlist, "show tdesc ",
0 /* allow-unknown */, &showlist);
add_prefix_cmd ("tdesc", class_maintenance, unset_tdesc_cmd, _("\
Unset target description specific variables."),
&tdesc_unset_cmdlist, "unset tdesc ",
0 /* allow-unknown */, &unsetlist);
add_setshow_filename_cmd ("filename", class_obscure,
&target_description_filename,
_("\
Set the file to read for an XML target description"), _("\
Show the file to read for an XML target description"), _("\
When set, GDB will read the target description from a local\n\
file instead of querying the remote target."),
set_tdesc_filename_cmd,
show_tdesc_filename_cmd,
&tdesc_set_cmdlist, &tdesc_show_cmdlist);
add_cmd ("filename", class_obscure, unset_tdesc_filename_cmd, _("\
Unset the file to read for an XML target description. When unset,\n\
GDB will read the description from the target."),
&tdesc_unset_cmdlist);
add_cmd ("c-tdesc", class_maintenance, maint_print_c_tdesc_cmd, _("\
Print the current target description as a C source file."),
&maintenanceprintlist);
}
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