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|
/* Symbol table definitions for GDB.
Copyright (C) 1986-2016 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/>. */
#if !defined (SYMTAB_H)
#define SYMTAB_H 1
#include "vec.h"
#include "gdb_vecs.h"
#include "gdbtypes.h"
#include "common/enum-flags.h"
/* Opaque declarations. */
struct ui_file;
struct frame_info;
struct symbol;
struct obstack;
struct objfile;
struct block;
struct blockvector;
struct axs_value;
struct agent_expr;
struct program_space;
struct language_defn;
struct probe;
struct common_block;
struct obj_section;
struct cmd_list_element;
/* Some of the structures in this file are space critical.
The space-critical structures are:
struct general_symbol_info
struct symbol
struct partial_symbol
These structures are laid out to encourage good packing.
They use ENUM_BITFIELD and short int fields, and they order the
structure members so that fields less than a word are next
to each other so they can be packed together. */
/* Rearranged: used ENUM_BITFIELD and rearranged field order in
all the space critical structures (plus struct minimal_symbol).
Memory usage dropped from 99360768 bytes to 90001408 bytes.
I measured this with before-and-after tests of
"HEAD-old-gdb -readnow HEAD-old-gdb" and
"HEAD-new-gdb -readnow HEAD-old-gdb" on native i686-pc-linux-gnu,
red hat linux 8, with LD_LIBRARY_PATH=/usr/lib/debug,
typing "maint space 1" at the first command prompt.
Here is another measurement (from andrew c):
# no /usr/lib/debug, just plain glibc, like a normal user
gdb HEAD-old-gdb
(gdb) break internal_error
(gdb) run
(gdb) maint internal-error
(gdb) backtrace
(gdb) maint space 1
gdb gdb_6_0_branch 2003-08-19 space used: 8896512
gdb HEAD 2003-08-19 space used: 8904704
gdb HEAD 2003-08-21 space used: 8396800 (+symtab.h)
gdb HEAD 2003-08-21 space used: 8265728 (+gdbtypes.h)
The third line shows the savings from the optimizations in symtab.h.
The fourth line shows the savings from the optimizations in
gdbtypes.h. Both optimizations are in gdb HEAD now.
--chastain 2003-08-21 */
/* Define a structure for the information that is common to all symbol types,
including minimal symbols, partial symbols, and full symbols. In a
multilanguage environment, some language specific information may need to
be recorded along with each symbol. */
/* This structure is space critical. See space comments at the top. */
struct general_symbol_info
{
/* Name of the symbol. This is a required field. Storage for the
name is allocated on the objfile_obstack for the associated
objfile. For languages like C++ that make a distinction between
the mangled name and demangled name, this is the mangled
name. */
const char *name;
/* Value of the symbol. Which member of this union to use, and what
it means, depends on what kind of symbol this is and its
SYMBOL_CLASS. See comments there for more details. All of these
are in host byte order (though what they point to might be in
target byte order, e.g. LOC_CONST_BYTES). */
union
{
LONGEST ivalue;
const struct block *block;
const gdb_byte *bytes;
CORE_ADDR address;
/* A common block. Used with LOC_COMMON_BLOCK. */
const struct common_block *common_block;
/* For opaque typedef struct chain. */
struct symbol *chain;
}
value;
/* Since one and only one language can apply, wrap the language specific
information inside a union. */
union
{
/* A pointer to an obstack that can be used for storage associated
with this symbol. This is only used by Ada, and only when the
'ada_mangled' field is zero. */
struct obstack *obstack;
/* This is used by languages which wish to store a demangled name.
currently used by Ada, C++, and Objective C. */
const char *demangled_name;
}
language_specific;
/* Record the source code language that applies to this symbol.
This is used to select one of the fields from the language specific
union above. */
ENUM_BITFIELD(language) language : LANGUAGE_BITS;
/* This is only used by Ada. If set, then the 'demangled_name' field
of language_specific is valid. Otherwise, the 'obstack' field is
valid. */
unsigned int ada_mangled : 1;
/* Which section is this symbol in? This is an index into
section_offsets for this objfile. Negative means that the symbol
does not get relocated relative to a section. */
short section;
};
extern void symbol_set_demangled_name (struct general_symbol_info *,
const char *,
struct obstack *);
extern const char *symbol_get_demangled_name
(const struct general_symbol_info *);
extern CORE_ADDR symbol_overlayed_address (CORE_ADDR, struct obj_section *);
/* Note that all the following SYMBOL_* macros are used with the
SYMBOL argument being either a partial symbol or
a full symbol. Both types have a ginfo field. In particular
the SYMBOL_SET_LANGUAGE, SYMBOL_DEMANGLED_NAME, etc.
macros cannot be entirely substituted by
functions, unless the callers are changed to pass in the ginfo
field only, instead of the SYMBOL parameter. */
#define SYMBOL_VALUE(symbol) (symbol)->ginfo.value.ivalue
#define SYMBOL_VALUE_ADDRESS(symbol) (symbol)->ginfo.value.address
#define SYMBOL_VALUE_BYTES(symbol) (symbol)->ginfo.value.bytes
#define SYMBOL_VALUE_COMMON_BLOCK(symbol) (symbol)->ginfo.value.common_block
#define SYMBOL_BLOCK_VALUE(symbol) (symbol)->ginfo.value.block
#define SYMBOL_VALUE_CHAIN(symbol) (symbol)->ginfo.value.chain
#define SYMBOL_LANGUAGE(symbol) (symbol)->ginfo.language
#define SYMBOL_SECTION(symbol) (symbol)->ginfo.section
#define SYMBOL_OBJ_SECTION(objfile, symbol) \
(((symbol)->ginfo.section >= 0) \
? (&(((objfile)->sections)[(symbol)->ginfo.section])) \
: NULL)
/* Initializes the language dependent portion of a symbol
depending upon the language for the symbol. */
#define SYMBOL_SET_LANGUAGE(symbol,language,obstack) \
(symbol_set_language (&(symbol)->ginfo, (language), (obstack)))
extern void symbol_set_language (struct general_symbol_info *symbol,
enum language language,
struct obstack *obstack);
/* Set just the linkage name of a symbol; do not try to demangle
it. Used for constructs which do not have a mangled name,
e.g. struct tags. Unlike SYMBOL_SET_NAMES, linkage_name must
be terminated and either already on the objfile's obstack or
permanently allocated. */
#define SYMBOL_SET_LINKAGE_NAME(symbol,linkage_name) \
(symbol)->ginfo.name = (linkage_name)
/* Set the linkage and natural names of a symbol, by demangling
the linkage name. */
#define SYMBOL_SET_NAMES(symbol,linkage_name,len,copy_name,objfile) \
symbol_set_names (&(symbol)->ginfo, linkage_name, len, copy_name, objfile)
extern void symbol_set_names (struct general_symbol_info *symbol,
const char *linkage_name, int len, int copy_name,
struct objfile *objfile);
/* Now come lots of name accessor macros. Short version as to when to
use which: Use SYMBOL_NATURAL_NAME to refer to the name of the
symbol in the original source code. Use SYMBOL_LINKAGE_NAME if you
want to know what the linker thinks the symbol's name is. Use
SYMBOL_PRINT_NAME for output. Use SYMBOL_DEMANGLED_NAME if you
specifically need to know whether SYMBOL_NATURAL_NAME and
SYMBOL_LINKAGE_NAME are different. */
/* Return SYMBOL's "natural" name, i.e. the name that it was called in
the original source code. In languages like C++ where symbols may
be mangled for ease of manipulation by the linker, this is the
demangled name. */
#define SYMBOL_NATURAL_NAME(symbol) \
(symbol_natural_name (&(symbol)->ginfo))
extern const char *symbol_natural_name
(const struct general_symbol_info *symbol);
/* Return SYMBOL's name from the point of view of the linker. In
languages like C++ where symbols may be mangled for ease of
manipulation by the linker, this is the mangled name; otherwise,
it's the same as SYMBOL_NATURAL_NAME. */
#define SYMBOL_LINKAGE_NAME(symbol) (symbol)->ginfo.name
/* Return the demangled name for a symbol based on the language for
that symbol. If no demangled name exists, return NULL. */
#define SYMBOL_DEMANGLED_NAME(symbol) \
(symbol_demangled_name (&(symbol)->ginfo))
extern const char *symbol_demangled_name
(const struct general_symbol_info *symbol);
/* Macro that returns a version of the name of a symbol that is
suitable for output. In C++ this is the "demangled" form of the
name if demangle is on and the "mangled" form of the name if
demangle is off. In other languages this is just the symbol name.
The result should never be NULL. Don't use this for internal
purposes (e.g. storing in a hashtable): it's only suitable for output.
N.B. symbol may be anything with a ginfo member,
e.g., struct symbol or struct minimal_symbol. */
#define SYMBOL_PRINT_NAME(symbol) \
(demangle ? SYMBOL_NATURAL_NAME (symbol) : SYMBOL_LINKAGE_NAME (symbol))
extern int demangle;
/* Macro that returns the name to be used when sorting and searching symbols.
In C++, we search for the demangled form of a name,
and so sort symbols accordingly. In Ada, however, we search by mangled
name. If there is no distinct demangled name, then SYMBOL_SEARCH_NAME
returns the same value (same pointer) as SYMBOL_LINKAGE_NAME. */
#define SYMBOL_SEARCH_NAME(symbol) \
(symbol_search_name (&(symbol)->ginfo))
extern const char *symbol_search_name (const struct general_symbol_info *);
/* Return non-zero if NAME matches the "search" name of SYMBOL.
Whitespace and trailing parentheses are ignored.
See strcmp_iw for details about its behavior. */
#define SYMBOL_MATCHES_SEARCH_NAME(symbol, name) \
(strcmp_iw (SYMBOL_SEARCH_NAME (symbol), (name)) == 0)
/* Classification types for a minimal symbol. These should be taken as
"advisory only", since if gdb can't easily figure out a
classification it simply selects mst_unknown. It may also have to
guess when it can't figure out which is a better match between two
types (mst_data versus mst_bss) for example. Since the minimal
symbol info is sometimes derived from the BFD library's view of a
file, we need to live with what information bfd supplies. */
enum minimal_symbol_type
{
mst_unknown = 0, /* Unknown type, the default */
mst_text, /* Generally executable instructions */
mst_text_gnu_ifunc, /* Executable code returning address
of executable code */
mst_slot_got_plt, /* GOT entries for .plt sections */
mst_data, /* Generally initialized data */
mst_bss, /* Generally uninitialized data */
mst_abs, /* Generally absolute (nonrelocatable) */
/* GDB uses mst_solib_trampoline for the start address of a shared
library trampoline entry. Breakpoints for shared library functions
are put there if the shared library is not yet loaded.
After the shared library is loaded, lookup_minimal_symbol will
prefer the minimal symbol from the shared library (usually
a mst_text symbol) over the mst_solib_trampoline symbol, and the
breakpoints will be moved to their true address in the shared
library via breakpoint_re_set. */
mst_solib_trampoline, /* Shared library trampoline code */
/* For the mst_file* types, the names are only guaranteed to be unique
within a given .o file. */
mst_file_text, /* Static version of mst_text */
mst_file_data, /* Static version of mst_data */
mst_file_bss, /* Static version of mst_bss */
nr_minsym_types
};
/* The number of enum minimal_symbol_type values, with some padding for
reasonable growth. */
#define MINSYM_TYPE_BITS 4
gdb_static_assert (nr_minsym_types <= (1 << MINSYM_TYPE_BITS));
/* Define a simple structure used to hold some very basic information about
all defined global symbols (text, data, bss, abs, etc). The only required
information is the general_symbol_info.
In many cases, even if a file was compiled with no special options for
debugging at all, as long as was not stripped it will contain sufficient
information to build a useful minimal symbol table using this structure.
Even when a file contains enough debugging information to build a full
symbol table, these minimal symbols are still useful for quickly mapping
between names and addresses, and vice versa. They are also sometimes
used to figure out what full symbol table entries need to be read in. */
struct minimal_symbol
{
/* The general symbol info required for all types of symbols.
The SYMBOL_VALUE_ADDRESS contains the address that this symbol
corresponds to. */
struct general_symbol_info mginfo;
/* Size of this symbol. dbx_end_psymtab in dbxread.c uses this
information to calculate the end of the partial symtab based on the
address of the last symbol plus the size of the last symbol. */
unsigned long size;
/* Which source file is this symbol in? Only relevant for mst_file_*. */
const char *filename;
/* Classification type for this minimal symbol. */
ENUM_BITFIELD(minimal_symbol_type) type : MINSYM_TYPE_BITS;
/* Non-zero if this symbol was created by gdb.
Such symbols do not appear in the output of "info var|fun". */
unsigned int created_by_gdb : 1;
/* Two flag bits provided for the use of the target. */
unsigned int target_flag_1 : 1;
unsigned int target_flag_2 : 1;
/* Nonzero iff the size of the minimal symbol has been set.
Symbol size information can sometimes not be determined, because
the object file format may not carry that piece of information. */
unsigned int has_size : 1;
/* Minimal symbols with the same hash key are kept on a linked
list. This is the link. */
struct minimal_symbol *hash_next;
/* Minimal symbols are stored in two different hash tables. This is
the `next' pointer for the demangled hash table. */
struct minimal_symbol *demangled_hash_next;
};
#define MSYMBOL_TARGET_FLAG_1(msymbol) (msymbol)->target_flag_1
#define MSYMBOL_TARGET_FLAG_2(msymbol) (msymbol)->target_flag_2
#define MSYMBOL_SIZE(msymbol) ((msymbol)->size + 0)
#define SET_MSYMBOL_SIZE(msymbol, sz) \
do \
{ \
(msymbol)->size = sz; \
(msymbol)->has_size = 1; \
} while (0)
#define MSYMBOL_HAS_SIZE(msymbol) ((msymbol)->has_size + 0)
#define MSYMBOL_TYPE(msymbol) (msymbol)->type
#define MSYMBOL_VALUE(symbol) (symbol)->mginfo.value.ivalue
/* The unrelocated address of the minimal symbol. */
#define MSYMBOL_VALUE_RAW_ADDRESS(symbol) ((symbol)->mginfo.value.address + 0)
/* The relocated address of the minimal symbol, using the section
offsets from OBJFILE. */
#define MSYMBOL_VALUE_ADDRESS(objfile, symbol) \
((symbol)->mginfo.value.address \
+ ANOFFSET ((objfile)->section_offsets, ((symbol)->mginfo.section)))
/* For a bound minsym, we can easily compute the address directly. */
#define BMSYMBOL_VALUE_ADDRESS(symbol) \
MSYMBOL_VALUE_ADDRESS ((symbol).objfile, (symbol).minsym)
#define SET_MSYMBOL_VALUE_ADDRESS(symbol, new_value) \
((symbol)->mginfo.value.address = (new_value))
#define MSYMBOL_VALUE_BYTES(symbol) (symbol)->mginfo.value.bytes
#define MSYMBOL_BLOCK_VALUE(symbol) (symbol)->mginfo.value.block
#define MSYMBOL_VALUE_CHAIN(symbol) (symbol)->mginfo.value.chain
#define MSYMBOL_LANGUAGE(symbol) (symbol)->mginfo.language
#define MSYMBOL_SECTION(symbol) (symbol)->mginfo.section
#define MSYMBOL_OBJ_SECTION(objfile, symbol) \
(((symbol)->mginfo.section >= 0) \
? (&(((objfile)->sections)[(symbol)->mginfo.section])) \
: NULL)
#define MSYMBOL_NATURAL_NAME(symbol) \
(symbol_natural_name (&(symbol)->mginfo))
#define MSYMBOL_LINKAGE_NAME(symbol) (symbol)->mginfo.name
#define MSYMBOL_PRINT_NAME(symbol) \
(demangle ? MSYMBOL_NATURAL_NAME (symbol) : MSYMBOL_LINKAGE_NAME (symbol))
#define MSYMBOL_DEMANGLED_NAME(symbol) \
(symbol_demangled_name (&(symbol)->mginfo))
#define MSYMBOL_SET_LANGUAGE(symbol,language,obstack) \
(symbol_set_language (&(symbol)->mginfo, (language), (obstack)))
#define MSYMBOL_SEARCH_NAME(symbol) \
(symbol_search_name (&(symbol)->mginfo))
#define MSYMBOL_MATCHES_SEARCH_NAME(symbol, name) \
(strcmp_iw (MSYMBOL_SEARCH_NAME (symbol), (name)) == 0)
#define MSYMBOL_SET_NAMES(symbol,linkage_name,len,copy_name,objfile) \
symbol_set_names (&(symbol)->mginfo, linkage_name, len, copy_name, objfile)
#include "minsyms.h"
/* Represent one symbol name; a variable, constant, function or typedef. */
/* Different name domains for symbols. Looking up a symbol specifies a
domain and ignores symbol definitions in other name domains. */
typedef enum domain_enum_tag
{
/* UNDEF_DOMAIN is used when a domain has not been discovered or
none of the following apply. This usually indicates an error either
in the symbol information or in gdb's handling of symbols. */
UNDEF_DOMAIN,
/* VAR_DOMAIN is the usual domain. In C, this contains variables,
function names, typedef names and enum type values. */
VAR_DOMAIN,
/* STRUCT_DOMAIN is used in C to hold struct, union and enum type names.
Thus, if `struct foo' is used in a C program, it produces a symbol named
`foo' in the STRUCT_DOMAIN. */
STRUCT_DOMAIN,
/* MODULE_DOMAIN is used in Fortran to hold module type names. */
MODULE_DOMAIN,
/* LABEL_DOMAIN may be used for names of labels (for gotos). */
LABEL_DOMAIN,
/* Fortran common blocks. Their naming must be separate from VAR_DOMAIN.
They also always use LOC_COMMON_BLOCK. */
COMMON_BLOCK_DOMAIN,
/* This must remain last. */
NR_DOMAINS
} domain_enum;
/* The number of bits in a symbol used to represent the domain. */
#define SYMBOL_DOMAIN_BITS 3
gdb_static_assert (NR_DOMAINS <= (1 << SYMBOL_DOMAIN_BITS));
extern const char *domain_name (domain_enum);
/* Searching domains, used for `search_symbols'. Element numbers are
hardcoded in GDB, check all enum uses before changing it. */
enum search_domain
{
/* Everything in VAR_DOMAIN minus FUNCTIONS_DOMAIN and
TYPES_DOMAIN. */
VARIABLES_DOMAIN = 0,
/* All functions -- for some reason not methods, though. */
FUNCTIONS_DOMAIN = 1,
/* All defined types */
TYPES_DOMAIN = 2,
/* Any type. */
ALL_DOMAIN = 3
};
extern const char *search_domain_name (enum search_domain);
/* An address-class says where to find the value of a symbol. */
enum address_class
{
/* Not used; catches errors. */
LOC_UNDEF,
/* Value is constant int SYMBOL_VALUE, host byteorder. */
LOC_CONST,
/* Value is at fixed address SYMBOL_VALUE_ADDRESS. */
LOC_STATIC,
/* Value is in register. SYMBOL_VALUE is the register number
in the original debug format. SYMBOL_REGISTER_OPS holds a
function that can be called to transform this into the
actual register number this represents in a specific target
architecture (gdbarch).
For some symbol formats (stabs, for some compilers at least),
the compiler generates two symbols, an argument and a register.
In some cases we combine them to a single LOC_REGISTER in symbol
reading, but currently not for all cases (e.g. it's passed on the
stack and then loaded into a register). */
LOC_REGISTER,
/* It's an argument; the value is at SYMBOL_VALUE offset in arglist. */
LOC_ARG,
/* Value address is at SYMBOL_VALUE offset in arglist. */
LOC_REF_ARG,
/* Value is in specified register. Just like LOC_REGISTER except the
register holds the address of the argument instead of the argument
itself. This is currently used for the passing of structs and unions
on sparc and hppa. It is also used for call by reference where the
address is in a register, at least by mipsread.c. */
LOC_REGPARM_ADDR,
/* Value is a local variable at SYMBOL_VALUE offset in stack frame. */
LOC_LOCAL,
/* Value not used; definition in SYMBOL_TYPE. Symbols in the domain
STRUCT_DOMAIN all have this class. */
LOC_TYPEDEF,
/* Value is address SYMBOL_VALUE_ADDRESS in the code. */
LOC_LABEL,
/* In a symbol table, value is SYMBOL_BLOCK_VALUE of a `struct block'.
In a partial symbol table, SYMBOL_VALUE_ADDRESS is the start address
of the block. Function names have this class. */
LOC_BLOCK,
/* Value is a constant byte-sequence pointed to by SYMBOL_VALUE_BYTES, in
target byte order. */
LOC_CONST_BYTES,
/* Value is at fixed address, but the address of the variable has
to be determined from the minimal symbol table whenever the
variable is referenced.
This happens if debugging information for a global symbol is
emitted and the corresponding minimal symbol is defined
in another object file or runtime common storage.
The linker might even remove the minimal symbol if the global
symbol is never referenced, in which case the symbol remains
unresolved.
GDB would normally find the symbol in the minimal symbol table if it will
not find it in the full symbol table. But a reference to an external
symbol in a local block shadowing other definition requires full symbol
without possibly having its address available for LOC_STATIC. Testcase
is provided as `gdb.dwarf2/dw2-unresolved.exp'.
This is also used for thread local storage (TLS) variables. In this case,
the address of the TLS variable must be determined when the variable is
referenced, from the MSYMBOL_VALUE_RAW_ADDRESS, which is the offset
of the TLS variable in the thread local storage of the shared
library/object. */
LOC_UNRESOLVED,
/* The variable does not actually exist in the program.
The value is ignored. */
LOC_OPTIMIZED_OUT,
/* The variable's address is computed by a set of location
functions (see "struct symbol_computed_ops" below). */
LOC_COMPUTED,
/* The variable uses general_symbol_info->value->common_block field.
It also always uses COMMON_BLOCK_DOMAIN. */
LOC_COMMON_BLOCK,
/* Not used, just notes the boundary of the enum. */
LOC_FINAL_VALUE
};
/* The number of bits needed for values in enum address_class, with some
padding for reasonable growth, and room for run-time registered address
classes. See symtab.c:MAX_SYMBOL_IMPLS.
This is a #define so that we can have a assertion elsewhere to
verify that we have reserved enough space for synthetic address
classes. */
#define SYMBOL_ACLASS_BITS 5
gdb_static_assert (LOC_FINAL_VALUE <= (1 << SYMBOL_ACLASS_BITS));
/* The methods needed to implement LOC_COMPUTED. These methods can
use the symbol's .aux_value for additional per-symbol information.
At present this is only used to implement location expressions. */
struct symbol_computed_ops
{
/* Return the value of the variable SYMBOL, relative to the stack
frame FRAME. If the variable has been optimized out, return
zero.
Iff `read_needs_frame (SYMBOL)' is not SYMBOL_NEEDS_FRAME, then
FRAME may be zero. */
struct value *(*read_variable) (struct symbol * symbol,
struct frame_info * frame);
/* Read variable SYMBOL like read_variable at (callee) FRAME's function
entry. SYMBOL should be a function parameter, otherwise
NO_ENTRY_VALUE_ERROR will be thrown. */
struct value *(*read_variable_at_entry) (struct symbol *symbol,
struct frame_info *frame);
/* Find the "symbol_needs_kind" value for the given symbol. This
value determines whether reading the symbol needs memory (e.g., a
global variable), just registers (a thread-local), or a frame (a
local variable). */
enum symbol_needs_kind (*get_symbol_read_needs) (struct symbol * symbol);
/* Write to STREAM a natural-language description of the location of
SYMBOL, in the context of ADDR. */
void (*describe_location) (struct symbol * symbol, CORE_ADDR addr,
struct ui_file * stream);
/* Non-zero if this symbol's address computation is dependent on PC. */
unsigned char location_has_loclist;
/* Tracepoint support. Append bytecodes to the tracepoint agent
expression AX that push the address of the object SYMBOL. Set
VALUE appropriately. Note --- for objects in registers, this
needn't emit any code; as long as it sets VALUE properly, then
the caller will generate the right code in the process of
treating this as an lvalue or rvalue. */
void (*tracepoint_var_ref) (struct symbol *symbol, struct gdbarch *gdbarch,
struct agent_expr *ax, struct axs_value *value);
/* Generate C code to compute the location of SYMBOL. The C code is
emitted to STREAM. GDBARCH is the current architecture and PC is
the PC at which SYMBOL's location should be evaluated.
REGISTERS_USED is a vector indexed by register number; the
generator function should set an element in this vector if the
corresponding register is needed by the location computation.
The generated C code must assign the location to a local
variable; this variable's name is RESULT_NAME. */
void (*generate_c_location) (struct symbol *symbol, struct ui_file *stream,
struct gdbarch *gdbarch,
unsigned char *registers_used,
CORE_ADDR pc, const char *result_name);
};
/* The methods needed to implement LOC_BLOCK for inferior functions.
These methods can use the symbol's .aux_value for additional
per-symbol information. */
struct symbol_block_ops
{
/* Fill in *START and *LENGTH with DWARF block data of function
FRAMEFUNC valid for inferior context address PC. Set *LENGTH to
zero if such location is not valid for PC; *START is left
uninitialized in such case. */
void (*find_frame_base_location) (struct symbol *framefunc, CORE_ADDR pc,
const gdb_byte **start, size_t *length);
/* Return the frame base address. FRAME is the frame for which we want to
compute the base address while FRAMEFUNC is the symbol for the
corresponding function. Return 0 on failure (FRAMEFUNC may not hold the
information we need).
This method is designed to work with static links (nested functions
handling). Static links are function properties whose evaluation returns
the frame base address for the enclosing frame. However, there are
multiple definitions for "frame base": the content of the frame base
register, the CFA as defined by DWARF unwinding information, ...
So this specific method is supposed to compute the frame base address such
as for nested fuctions, the static link computes the same address. For
instance, considering DWARF debugging information, the static link is
computed with DW_AT_static_link and this method must be used to compute
the corresponding DW_AT_frame_base attribute. */
CORE_ADDR (*get_frame_base) (struct symbol *framefunc,
struct frame_info *frame);
};
/* Functions used with LOC_REGISTER and LOC_REGPARM_ADDR. */
struct symbol_register_ops
{
int (*register_number) (struct symbol *symbol, struct gdbarch *gdbarch);
};
/* Objects of this type are used to find the address class and the
various computed ops vectors of a symbol. */
struct symbol_impl
{
enum address_class aclass;
/* Used with LOC_COMPUTED. */
const struct symbol_computed_ops *ops_computed;
/* Used with LOC_BLOCK. */
const struct symbol_block_ops *ops_block;
/* Used with LOC_REGISTER and LOC_REGPARM_ADDR. */
const struct symbol_register_ops *ops_register;
};
/* This structure is space critical. See space comments at the top. */
struct symbol
{
/* The general symbol info required for all types of symbols. */
struct general_symbol_info ginfo;
/* Data type of value */
struct type *type;
/* The owner of this symbol.
Which one to use is defined by symbol.is_objfile_owned. */
union
{
/* The symbol table containing this symbol. This is the file associated
with LINE. It can be NULL during symbols read-in but it is never NULL
during normal operation. */
struct symtab *symtab;
/* For types defined by the architecture. */
struct gdbarch *arch;
} owner;
/* Domain code. */
ENUM_BITFIELD(domain_enum_tag) domain : SYMBOL_DOMAIN_BITS;
/* Address class. This holds an index into the 'symbol_impls'
table. The actual enum address_class value is stored there,
alongside any per-class ops vectors. */
unsigned int aclass_index : SYMBOL_ACLASS_BITS;
/* If non-zero then symbol is objfile-owned, use owner.symtab.
Otherwise symbol is arch-owned, use owner.arch. */
unsigned int is_objfile_owned : 1;
/* Whether this is an argument. */
unsigned is_argument : 1;
/* Whether this is an inlined function (class LOC_BLOCK only). */
unsigned is_inlined : 1;
/* True if this is a C++ function symbol with template arguments.
In this case the symbol is really a "struct template_symbol". */
unsigned is_cplus_template_function : 1;
/* Line number of this symbol's definition, except for inlined
functions. For an inlined function (class LOC_BLOCK and
SYMBOL_INLINED set) this is the line number of the function's call
site. Inlined function symbols are not definitions, and they are
never found by symbol table lookup.
If this symbol is arch-owned, LINE shall be zero.
FIXME: Should we really make the assumption that nobody will try
to debug files longer than 64K lines? What about machine
generated programs? */
unsigned short line;
/* An arbitrary data pointer, allowing symbol readers to record
additional information on a per-symbol basis. Note that this data
must be allocated using the same obstack as the symbol itself. */
/* So far it is only used by:
LOC_COMPUTED: to find the location information
LOC_BLOCK (DWARF2 function): information used internally by the
DWARF 2 code --- specifically, the location expression for the frame
base for this function. */
/* FIXME drow/2003-02-21: For the LOC_BLOCK case, it might be better
to add a magic symbol to the block containing this information,
or to have a generic debug info annotation slot for symbols. */
void *aux_value;
struct symbol *hash_next;
};
/* Several lookup functions return both a symbol and the block in which the
symbol is found. This structure is used in these cases. */
struct block_symbol
{
/* The symbol that was found, or NULL if no symbol was found. */
struct symbol *symbol;
/* If SYMBOL is not NULL, then this is the block in which the symbol is
defined. */
const struct block *block;
};
extern const struct symbol_impl *symbol_impls;
/* For convenience. All fields are NULL. This means "there is no
symbol". */
extern const struct block_symbol null_block_symbol;
/* Note: There is no accessor macro for symbol.owner because it is
"private". */
#define SYMBOL_DOMAIN(symbol) (symbol)->domain
#define SYMBOL_IMPL(symbol) (symbol_impls[(symbol)->aclass_index])
#define SYMBOL_ACLASS_INDEX(symbol) (symbol)->aclass_index
#define SYMBOL_CLASS(symbol) (SYMBOL_IMPL (symbol).aclass)
#define SYMBOL_OBJFILE_OWNED(symbol) ((symbol)->is_objfile_owned)
#define SYMBOL_IS_ARGUMENT(symbol) (symbol)->is_argument
#define SYMBOL_INLINED(symbol) (symbol)->is_inlined
#define SYMBOL_IS_CPLUS_TEMPLATE_FUNCTION(symbol) \
(symbol)->is_cplus_template_function
#define SYMBOL_TYPE(symbol) (symbol)->type
#define SYMBOL_LINE(symbol) (symbol)->line
#define SYMBOL_COMPUTED_OPS(symbol) (SYMBOL_IMPL (symbol).ops_computed)
#define SYMBOL_BLOCK_OPS(symbol) (SYMBOL_IMPL (symbol).ops_block)
#define SYMBOL_REGISTER_OPS(symbol) (SYMBOL_IMPL (symbol).ops_register)
#define SYMBOL_LOCATION_BATON(symbol) (symbol)->aux_value
extern int register_symbol_computed_impl (enum address_class,
const struct symbol_computed_ops *);
extern int register_symbol_block_impl (enum address_class aclass,
const struct symbol_block_ops *ops);
extern int register_symbol_register_impl (enum address_class,
const struct symbol_register_ops *);
/* Return the OBJFILE of SYMBOL.
It is an error to call this if symbol.is_objfile_owned is false, which
only happens for architecture-provided types. */
extern struct objfile *symbol_objfile (const struct symbol *symbol);
/* Return the ARCH of SYMBOL. */
extern struct gdbarch *symbol_arch (const struct symbol *symbol);
/* Return the SYMTAB of SYMBOL.
It is an error to call this if symbol.is_objfile_owned is false, which
only happens for architecture-provided types. */
extern struct symtab *symbol_symtab (const struct symbol *symbol);
/* Set the symtab of SYMBOL to SYMTAB.
It is an error to call this if symbol.is_objfile_owned is false, which
only happens for architecture-provided types. */
extern void symbol_set_symtab (struct symbol *symbol, struct symtab *symtab);
/* An instance of this type is used to represent a C++ template
function. It includes a "struct symbol" as a kind of base class;
users downcast to "struct template_symbol *" when needed. A symbol
is really of this type iff SYMBOL_IS_CPLUS_TEMPLATE_FUNCTION is
true. */
struct template_symbol
{
/* The base class. */
struct symbol base;
/* The number of template arguments. */
int n_template_arguments;
/* The template arguments. This is an array with
N_TEMPLATE_ARGUMENTS elements. */
struct symbol **template_arguments;
};
/* Each item represents a line-->pc (or the reverse) mapping. This is
somewhat more wasteful of space than one might wish, but since only
the files which are actually debugged are read in to core, we don't
waste much space. */
struct linetable_entry
{
int line;
CORE_ADDR pc;
};
/* The order of entries in the linetable is significant. They should
be sorted by increasing values of the pc field. If there is more than
one entry for a given pc, then I'm not sure what should happen (and
I not sure whether we currently handle it the best way).
Example: a C for statement generally looks like this
10 0x100 - for the init/test part of a for stmt.
20 0x200
30 0x300
10 0x400 - for the increment part of a for stmt.
If an entry has a line number of zero, it marks the start of a PC
range for which no line number information is available. It is
acceptable, though wasteful of table space, for such a range to be
zero length. */
struct linetable
{
int nitems;
/* Actually NITEMS elements. If you don't like this use of the
`struct hack', you can shove it up your ANSI (seriously, if the
committee tells us how to do it, we can probably go along). */
struct linetable_entry item[1];
};
/* How to relocate the symbols from each section in a symbol file.
Each struct contains an array of offsets.
The ordering and meaning of the offsets is file-type-dependent;
typically it is indexed by section numbers or symbol types or
something like that.
To give us flexibility in changing the internal representation
of these offsets, the ANOFFSET macro must be used to insert and
extract offset values in the struct. */
struct section_offsets
{
CORE_ADDR offsets[1]; /* As many as needed. */
};
#define ANOFFSET(secoff, whichone) \
((whichone == -1) \
? (internal_error (__FILE__, __LINE__, \
_("Section index is uninitialized")), -1) \
: secoff->offsets[whichone])
/* The size of a section_offsets table for N sections. */
#define SIZEOF_N_SECTION_OFFSETS(n) \
(sizeof (struct section_offsets) \
+ sizeof (((struct section_offsets *) 0)->offsets) * ((n)-1))
/* Each source file or header is represented by a struct symtab.
The name "symtab" is historical, another name for it is "filetab".
These objects are chained through the `next' field. */
struct symtab
{
/* Unordered chain of all filetabs in the compunit, with the exception
that the "main" source file is the first entry in the list. */
struct symtab *next;
/* Backlink to containing compunit symtab. */
struct compunit_symtab *compunit_symtab;
/* Table mapping core addresses to line numbers for this file.
Can be NULL if none. Never shared between different symtabs. */
struct linetable *linetable;
/* Name of this source file. This pointer is never NULL. */
const char *filename;
/* Total number of lines found in source file. */
int nlines;
/* line_charpos[N] is the position of the (N-1)th line of the
source file. "position" means something we can lseek() to; it
is not guaranteed to be useful any other way. */
int *line_charpos;
/* Language of this source file. */
enum language language;
/* Full name of file as found by searching the source path.
NULL if not yet known. */
char *fullname;
};
#define SYMTAB_COMPUNIT(symtab) ((symtab)->compunit_symtab)
#define SYMTAB_LINETABLE(symtab) ((symtab)->linetable)
#define SYMTAB_LANGUAGE(symtab) ((symtab)->language)
#define SYMTAB_BLOCKVECTOR(symtab) \
COMPUNIT_BLOCKVECTOR (SYMTAB_COMPUNIT (symtab))
#define SYMTAB_OBJFILE(symtab) \
COMPUNIT_OBJFILE (SYMTAB_COMPUNIT (symtab))
#define SYMTAB_PSPACE(symtab) (SYMTAB_OBJFILE (symtab)->pspace)
#define SYMTAB_DIRNAME(symtab) \
COMPUNIT_DIRNAME (SYMTAB_COMPUNIT (symtab))
typedef struct symtab *symtab_ptr;
DEF_VEC_P (symtab_ptr);
/* Compunit symtabs contain the actual "symbol table", aka blockvector, as well
as the list of all source files (what gdb has historically associated with
the term "symtab").
Additional information is recorded here that is common to all symtabs in a
compilation unit (DWARF or otherwise).
Example:
For the case of a program built out of these files:
foo.c
foo1.h
foo2.h
bar.c
foo1.h
bar.h
This is recorded as:
objfile -> foo.c(cu) -> bar.c(cu) -> NULL
| |
v v
foo.c bar.c
| |
v v
foo1.h foo1.h
| |
v v
foo2.h bar.h
| |
v v
NULL NULL
where "foo.c(cu)" and "bar.c(cu)" are struct compunit_symtab objects,
and the files foo.c, etc. are struct symtab objects. */
struct compunit_symtab
{
/* Unordered chain of all compunit symtabs of this objfile. */
struct compunit_symtab *next;
/* Object file from which this symtab information was read. */
struct objfile *objfile;
/* Name of the symtab.
This is *not* intended to be a usable filename, and is
for debugging purposes only. */
const char *name;
/* Unordered list of file symtabs, except that by convention the "main"
source file (e.g., .c, .cc) is guaranteed to be first.
Each symtab is a file, either the "main" source file (e.g., .c, .cc)
or header (e.g., .h). */
struct symtab *filetabs;
/* Last entry in FILETABS list.
Subfiles are added to the end of the list so they accumulate in order,
with the main source subfile living at the front.
The main reason is so that the main source file symtab is at the head
of the list, and the rest appear in order for debugging convenience. */
struct symtab *last_filetab;
/* Non-NULL string that identifies the format of the debugging information,
such as "stabs", "dwarf 1", "dwarf 2", "coff", etc. This is mostly useful
for automated testing of gdb but may also be information that is
useful to the user. */
const char *debugformat;
/* String of producer version information, or NULL if we don't know. */
const char *producer;
/* Directory in which it was compiled, or NULL if we don't know. */
const char *dirname;
/* List of all symbol scope blocks for this symtab. It is shared among
all symtabs in a given compilation unit. */
const struct blockvector *blockvector;
/* Section in objfile->section_offsets for the blockvector and
the linetable. Probably always SECT_OFF_TEXT. */
int block_line_section;
/* Symtab has been compiled with both optimizations and debug info so that
GDB may stop skipping prologues as variables locations are valid already
at function entry points. */
unsigned int locations_valid : 1;
/* DWARF unwinder for this CU is valid even for epilogues (PC at the return
instruction). This is supported by GCC since 4.5.0. */
unsigned int epilogue_unwind_valid : 1;
/* struct call_site entries for this compilation unit or NULL. */
htab_t call_site_htab;
/* The macro table for this symtab. Like the blockvector, this
is shared between different symtabs in a given compilation unit.
It's debatable whether it *should* be shared among all the symtabs in
the given compilation unit, but it currently is. */
struct macro_table *macro_table;
/* If non-NULL, then this points to a NULL-terminated vector of
included compunits. When searching the static or global
block of this compunit, the corresponding block of all
included compunits will also be searched. Note that this
list must be flattened -- the symbol reader is responsible for
ensuring that this vector contains the transitive closure of all
included compunits. */
struct compunit_symtab **includes;
/* If this is an included compunit, this points to one includer
of the table. This user is considered the canonical compunit
containing this one. An included compunit may itself be
included by another. */
struct compunit_symtab *user;
};
#define COMPUNIT_OBJFILE(cust) ((cust)->objfile)
#define COMPUNIT_FILETABS(cust) ((cust)->filetabs)
#define COMPUNIT_DEBUGFORMAT(cust) ((cust)->debugformat)
#define COMPUNIT_PRODUCER(cust) ((cust)->producer)
#define COMPUNIT_DIRNAME(cust) ((cust)->dirname)
#define COMPUNIT_BLOCKVECTOR(cust) ((cust)->blockvector)
#define COMPUNIT_BLOCK_LINE_SECTION(cust) ((cust)->block_line_section)
#define COMPUNIT_LOCATIONS_VALID(cust) ((cust)->locations_valid)
#define COMPUNIT_EPILOGUE_UNWIND_VALID(cust) ((cust)->epilogue_unwind_valid)
#define COMPUNIT_CALL_SITE_HTAB(cust) ((cust)->call_site_htab)
#define COMPUNIT_MACRO_TABLE(cust) ((cust)->macro_table)
/* Iterate over all file tables (struct symtab) within a compunit. */
#define ALL_COMPUNIT_FILETABS(cu, s) \
for ((s) = (cu) -> filetabs; (s) != NULL; (s) = (s) -> next)
/* Return the primary symtab of CUST. */
extern struct symtab *
compunit_primary_filetab (const struct compunit_symtab *cust);
/* Return the language of CUST. */
extern enum language compunit_language (const struct compunit_symtab *cust);
typedef struct compunit_symtab *compunit_symtab_ptr;
DEF_VEC_P (compunit_symtab_ptr);
/* The virtual function table is now an array of structures which have the
form { int16 offset, delta; void *pfn; }.
In normal virtual function tables, OFFSET is unused.
DELTA is the amount which is added to the apparent object's base
address in order to point to the actual object to which the
virtual function should be applied.
PFN is a pointer to the virtual function.
Note that this macro is g++ specific (FIXME). */
#define VTBL_FNADDR_OFFSET 2
/* External variables and functions for the objects described above. */
/* True if we are nested inside psymtab_to_symtab. */
extern int currently_reading_symtab;
/* symtab.c lookup functions */
extern const char multiple_symbols_ask[];
extern const char multiple_symbols_all[];
extern const char multiple_symbols_cancel[];
const char *multiple_symbols_select_mode (void);
int symbol_matches_domain (enum language symbol_language,
domain_enum symbol_domain,
domain_enum domain);
/* lookup a symbol table by source file name. */
extern struct symtab *lookup_symtab (const char *);
/* An object of this type is passed as the 'is_a_field_of_this'
argument to lookup_symbol and lookup_symbol_in_language. */
struct field_of_this_result
{
/* The type in which the field was found. If this is NULL then the
symbol was not found in 'this'. If non-NULL, then one of the
other fields will be non-NULL as well. */
struct type *type;
/* If the symbol was found as an ordinary field of 'this', then this
is non-NULL and points to the particular field. */
struct field *field;
/* If the symbol was found as a function field of 'this', then this
is non-NULL and points to the particular field. */
struct fn_fieldlist *fn_field;
};
/* Find the definition for a specified symbol name NAME
in domain DOMAIN in language LANGUAGE, visible from lexical block BLOCK
if non-NULL or from global/static blocks if BLOCK is NULL.
Returns the struct symbol pointer, or NULL if no symbol is found.
C++: if IS_A_FIELD_OF_THIS is non-NULL on entry, check to see if
NAME is a field of the current implied argument `this'. If so fill in the
fields of IS_A_FIELD_OF_THIS, otherwise the fields are set to NULL.
The symbol's section is fixed up if necessary. */
extern struct block_symbol
lookup_symbol_in_language (const char *,
const struct block *,
const domain_enum,
enum language,
struct field_of_this_result *);
/* Same as lookup_symbol_in_language, but using the current language. */
extern struct block_symbol lookup_symbol (const char *,
const struct block *,
const domain_enum,
struct field_of_this_result *);
/* A default version of lookup_symbol_nonlocal for use by languages
that can't think of anything better to do.
This implements the C lookup rules. */
extern struct block_symbol
basic_lookup_symbol_nonlocal (const struct language_defn *langdef,
const char *,
const struct block *,
const domain_enum);
/* Some helper functions for languages that need to write their own
lookup_symbol_nonlocal functions. */
/* Lookup a symbol in the static block associated to BLOCK, if there
is one; do nothing if BLOCK is NULL or a global block.
Upon success fixes up the symbol's section if necessary. */
extern struct block_symbol
lookup_symbol_in_static_block (const char *name,
const struct block *block,
const domain_enum domain);
/* Search all static file-level symbols for NAME from DOMAIN.
Upon success fixes up the symbol's section if necessary. */
extern struct block_symbol lookup_static_symbol (const char *name,
const domain_enum domain);
/* Lookup a symbol in all files' global blocks.
If BLOCK is non-NULL then it is used for two things:
1) If a target-specific lookup routine for libraries exists, then use the
routine for the objfile of BLOCK, and
2) The objfile of BLOCK is used to assist in determining the search order
if the target requires it.
See gdbarch_iterate_over_objfiles_in_search_order.
Upon success fixes up the symbol's section if necessary. */
extern struct block_symbol
lookup_global_symbol (const char *name,
const struct block *block,
const domain_enum domain);
/* Lookup a symbol in block BLOCK.
Upon success fixes up the symbol's section if necessary. */
extern struct symbol *
lookup_symbol_in_block (const char *name,
const struct block *block,
const domain_enum domain);
/* Look up the `this' symbol for LANG in BLOCK. Return the symbol if
found, or NULL if not found. */
extern struct block_symbol
lookup_language_this (const struct language_defn *lang,
const struct block *block);
/* Lookup a [struct, union, enum] by name, within a specified block. */
extern struct type *lookup_struct (const char *, const struct block *);
extern struct type *lookup_union (const char *, const struct block *);
extern struct type *lookup_enum (const char *, const struct block *);
/* from blockframe.c: */
/* lookup the function symbol corresponding to the address. */
extern struct symbol *find_pc_function (CORE_ADDR);
/* lookup the function corresponding to the address and section. */
extern struct symbol *find_pc_sect_function (CORE_ADDR, struct obj_section *);
extern int find_pc_partial_function_gnu_ifunc (CORE_ADDR pc, const char **name,
CORE_ADDR *address,
CORE_ADDR *endaddr,
int *is_gnu_ifunc_p);
/* lookup function from address, return name, start addr and end addr. */
extern int find_pc_partial_function (CORE_ADDR, const char **, CORE_ADDR *,
CORE_ADDR *);
extern void clear_pc_function_cache (void);
/* Expand symtab containing PC, SECTION if not already expanded. */
extern void expand_symtab_containing_pc (CORE_ADDR, struct obj_section *);
/* lookup full symbol table by address. */
extern struct compunit_symtab *find_pc_compunit_symtab (CORE_ADDR);
/* lookup full symbol table by address and section. */
extern struct compunit_symtab *
find_pc_sect_compunit_symtab (CORE_ADDR, struct obj_section *);
extern int find_pc_line_pc_range (CORE_ADDR, CORE_ADDR *, CORE_ADDR *);
extern void reread_symbols (void);
/* Look up a type named NAME in STRUCT_DOMAIN in the current language.
The type returned must not be opaque -- i.e., must have at least one field
defined. */
extern struct type *lookup_transparent_type (const char *);
extern struct type *basic_lookup_transparent_type (const char *);
/* Macro for name of symbol to indicate a file compiled with gcc. */
#ifndef GCC_COMPILED_FLAG_SYMBOL
#define GCC_COMPILED_FLAG_SYMBOL "gcc_compiled."
#endif
/* Macro for name of symbol to indicate a file compiled with gcc2. */
#ifndef GCC2_COMPILED_FLAG_SYMBOL
#define GCC2_COMPILED_FLAG_SYMBOL "gcc2_compiled."
#endif
extern int in_gnu_ifunc_stub (CORE_ADDR pc);
/* Functions for resolving STT_GNU_IFUNC symbols which are implemented only
for ELF symbol files. */
struct gnu_ifunc_fns
{
/* See elf_gnu_ifunc_resolve_addr for its real implementation. */
CORE_ADDR (*gnu_ifunc_resolve_addr) (struct gdbarch *gdbarch, CORE_ADDR pc);
/* See elf_gnu_ifunc_resolve_name for its real implementation. */
int (*gnu_ifunc_resolve_name) (const char *function_name,
CORE_ADDR *function_address_p);
/* See elf_gnu_ifunc_resolver_stop for its real implementation. */
void (*gnu_ifunc_resolver_stop) (struct breakpoint *b);
/* See elf_gnu_ifunc_resolver_return_stop for its real implementation. */
void (*gnu_ifunc_resolver_return_stop) (struct breakpoint *b);
};
#define gnu_ifunc_resolve_addr gnu_ifunc_fns_p->gnu_ifunc_resolve_addr
#define gnu_ifunc_resolve_name gnu_ifunc_fns_p->gnu_ifunc_resolve_name
#define gnu_ifunc_resolver_stop gnu_ifunc_fns_p->gnu_ifunc_resolver_stop
#define gnu_ifunc_resolver_return_stop \
gnu_ifunc_fns_p->gnu_ifunc_resolver_return_stop
extern const struct gnu_ifunc_fns *gnu_ifunc_fns_p;
extern CORE_ADDR find_solib_trampoline_target (struct frame_info *, CORE_ADDR);
struct symtab_and_line
{
/* The program space of this sal. */
struct program_space *pspace;
struct symtab *symtab;
struct obj_section *section;
/* Line number. Line numbers start at 1 and proceed through symtab->nlines.
0 is never a valid line number; it is used to indicate that line number
information is not available. */
int line;
CORE_ADDR pc;
CORE_ADDR end;
int explicit_pc;
int explicit_line;
/* The probe associated with this symtab_and_line. */
struct probe *probe;
/* If PROBE is not NULL, then this is the objfile in which the probe
originated. */
struct objfile *objfile;
};
extern void init_sal (struct symtab_and_line *sal);
struct symtabs_and_lines
{
struct symtab_and_line *sals;
int nelts;
};
/* Given a pc value, return line number it is in. Second arg nonzero means
if pc is on the boundary use the previous statement's line number. */
extern struct symtab_and_line find_pc_line (CORE_ADDR, int);
/* Same function, but specify a section as well as an address. */
extern struct symtab_and_line find_pc_sect_line (CORE_ADDR,
struct obj_section *, int);
/* Wrapper around find_pc_line to just return the symtab. */
extern struct symtab *find_pc_line_symtab (CORE_ADDR);
/* Given a symtab and line number, return the pc there. */
extern int find_line_pc (struct symtab *, int, CORE_ADDR *);
extern int find_line_pc_range (struct symtab_and_line, CORE_ADDR *,
CORE_ADDR *);
extern void resolve_sal_pc (struct symtab_and_line *);
/* solib.c */
extern void clear_solib (void);
/* source.c */
extern int identify_source_line (struct symtab *, int, int, CORE_ADDR);
/* Flags passed as 4th argument to print_source_lines. */
enum print_source_lines_flag
{
/* Do not print an error message. */
PRINT_SOURCE_LINES_NOERROR = (1 << 0),
/* Print the filename in front of the source lines. */
PRINT_SOURCE_LINES_FILENAME = (1 << 1)
};
DEF_ENUM_FLAGS_TYPE (enum print_source_lines_flag, print_source_lines_flags);
extern void print_source_lines (struct symtab *, int, int,
print_source_lines_flags);
extern void forget_cached_source_info_for_objfile (struct objfile *);
extern void forget_cached_source_info (void);
extern void select_source_symtab (struct symtab *);
extern VEC (char_ptr) *default_make_symbol_completion_list_break_on
(const char *text, const char *word, const char *break_on,
enum type_code code);
extern VEC (char_ptr) *default_make_symbol_completion_list (const char *,
const char *,
enum type_code);
extern VEC (char_ptr) *make_symbol_completion_list (const char *, const char *);
extern VEC (char_ptr) *make_symbol_completion_type (const char *, const char *,
enum type_code);
extern VEC (char_ptr) *make_symbol_completion_list_fn (struct cmd_list_element *,
const char *,
const char *);
extern VEC (char_ptr) *make_file_symbol_completion_list (const char *,
const char *,
const char *);
extern VEC (char_ptr) *make_source_files_completion_list (const char *,
const char *);
/* symtab.c */
int matching_obj_sections (struct obj_section *, struct obj_section *);
extern struct symtab *find_line_symtab (struct symtab *, int, int *, int *);
extern struct symtab_and_line find_function_start_sal (struct symbol *sym,
int);
extern void skip_prologue_sal (struct symtab_and_line *);
/* symtab.c */
extern CORE_ADDR skip_prologue_using_sal (struct gdbarch *gdbarch,
CORE_ADDR func_addr);
extern struct symbol *fixup_symbol_section (struct symbol *,
struct objfile *);
/* Symbol searching */
/* Note: struct symbol_search, search_symbols, et.al. are declared here,
instead of making them local to symtab.c, for gdbtk's sake. */
/* When using search_symbols, a list of the following structs is returned.
Callers must free the search list using free_search_symbols! */
struct symbol_search
{
/* The block in which the match was found. Could be, for example,
STATIC_BLOCK or GLOBAL_BLOCK. */
int block;
/* Information describing what was found.
If symbol is NOT NULL, then information was found for this match. */
struct symbol *symbol;
/* If msymbol is non-null, then a match was made on something for
which only minimal_symbols exist. */
struct bound_minimal_symbol msymbol;
/* A link to the next match, or NULL for the end. */
struct symbol_search *next;
};
extern void search_symbols (const char *, enum search_domain, int,
const char **, struct symbol_search **);
extern void free_search_symbols (struct symbol_search *);
extern struct cleanup *make_cleanup_free_search_symbols (struct symbol_search
**);
/* The name of the ``main'' function.
FIXME: cagney/2001-03-20: Can't make main_name() const since some
of the calling code currently assumes that the string isn't
const. */
extern /*const */ char *main_name (void);
extern enum language main_language (void);
/* Lookup symbol NAME from DOMAIN in MAIN_OBJFILE's global blocks.
This searches MAIN_OBJFILE as well as any associated separate debug info
objfiles of MAIN_OBJFILE.
Upon success fixes up the symbol's section if necessary. */
extern struct block_symbol
lookup_global_symbol_from_objfile (struct objfile *main_objfile,
const char *name,
const domain_enum domain);
/* Return 1 if the supplied producer string matches the ARM RealView
compiler (armcc). */
int producer_is_realview (const char *producer);
void fixup_section (struct general_symbol_info *ginfo,
CORE_ADDR addr, struct objfile *objfile);
/* Look up objfile containing BLOCK. */
struct objfile *lookup_objfile_from_block (const struct block *block);
extern unsigned int symtab_create_debug;
extern unsigned int symbol_lookup_debug;
extern int basenames_may_differ;
int compare_filenames_for_search (const char *filename,
const char *search_name);
int compare_glob_filenames_for_search (const char *filename,
const char *search_name);
int iterate_over_some_symtabs (const char *name,
const char *real_path,
int (*callback) (struct symtab *symtab,
void *data),
void *data,
struct compunit_symtab *first,
struct compunit_symtab *after_last);
void iterate_over_symtabs (const char *name,
int (*callback) (struct symtab *symtab,
void *data),
void *data);
VEC (CORE_ADDR) *find_pcs_for_symtab_line (struct symtab *symtab, int line,
struct linetable_entry **best_entry);
/* Callback for LA_ITERATE_OVER_SYMBOLS. The callback will be called
once per matching symbol SYM, with DATA being the argument of the
same name that was passed to LA_ITERATE_OVER_SYMBOLS. The callback
should return nonzero to indicate that LA_ITERATE_OVER_SYMBOLS
should continue iterating, or zero to indicate that the iteration
should end. */
typedef int (symbol_found_callback_ftype) (struct symbol *sym, void *data);
void iterate_over_symbols (const struct block *block, const char *name,
const domain_enum domain,
symbol_found_callback_ftype *callback,
void *data);
/* Storage type used by demangle_for_lookup. demangle_for_lookup
either returns a const char * pointer that points to either of the
fields of this type, or a pointer to the input NAME. This is done
this way because the underlying functions that demangle_for_lookup
calls either return a std::string (e.g., cp_canonicalize_string) or
a malloc'ed buffer (libiberty's demangled), and we want to avoid
unnecessary reallocation/string copying. */
class demangle_result_storage
{
public:
/* Swap the std::string storage with STR, and return a pointer to
the beginning of the new string. */
const char *swap_string (std::string &str)
{
std::swap (m_string, str);
return m_string.c_str ();
}
/* Set the malloc storage to now point at PTR. Any previous malloc
storage is released. */
const char *set_malloc_ptr (char *ptr)
{
m_malloc.reset (ptr);
return ptr;
}
private:
/* The storage. */
std::string m_string;
gdb::unique_xmalloc_ptr<char> m_malloc;
};
const char *
demangle_for_lookup (const char *name, enum language lang,
demangle_result_storage &storage);
struct symbol *allocate_symbol (struct objfile *);
void initialize_objfile_symbol (struct symbol *);
struct template_symbol *allocate_template_symbol (struct objfile *);
#endif /* !defined(SYMTAB_H) */
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