freebsd-dev/gnu/usr.bin/ld/symseg.h

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/*-
*
* This code is derived from software copyrighted by the Free Software
* Foundation.
*
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* from: @(#)symseg.h 5.4 (Berkeley) 4/30/91
1999-08-27 23:37:10 +00:00
* $FreeBSD$
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*/
/* GDB symbol table format definitions.
Copyright (C) 1987, 1988 Free Software Foundation, Inc.
This file is part of GNU CC.
GNU CC 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 1, or (at your option)
any later version.
GNU CC 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 GNU CC; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
/* Format of GDB symbol table data.
There is one symbol segment for each source file or
independant compilation. These segments are simply concatenated
to form the GDB symbol table. A zero word where the beginning
of a segment is expected indicates there are no more segments.
Format of a symbol segment:
The symbol segment begins with a word containing 1
if it is in the format described here. Other formats may
be designed, with other code numbers.
The segment contains many objects which point at each other.
The pointers are offsets in bytes from the beginning of the segment.
Thus, each segment can be loaded into core and its pointers relocated
to make valid in-core pointers.
All the data objects in the segment can be found indirectly from
one of them, the root object, of type `struct symbol_root'.
It appears at the beginning of the segment.
The total size of the segment, in bytes, appears as the `length'
field of this object. This size includes the size of the
root object.
All the object data types are defined here to contain pointer types
appropriate for in-core use on a relocated symbol segment.
Casts to and from type int are required for working with
unrelocated symbol segments such as are found in the file.
The ldsymaddr word is filled in by the loader to contain
the offset (in bytes) within the ld symbol table
of the first nonglobal symbol from this compilation.
This makes it possible to match those symbols
(which contain line number information) reliably with
the segment they go with.
Core addresses within the program that appear in the symbol segment
are not relocated by the loader. They are inserted by the assembler
and apply to addresses as output by the assembler, so GDB must
relocate them when it loads the symbol segment. It gets the information
on how to relocate from the textrel, datarel, bssrel, databeg and bssbeg
words of the root object.
The words textrel, datarel and bssrel
are filled in by ld with the amounts to relocate within-the-file
text, data and bss addresses by; databeg and bssbeg can be
used to tell which kind of relocation an address needs. */
enum language {language_c};
struct symbol_root
{
int format; /* Data format version */
int length; /* # bytes in this symbol segment */
int ldsymoff; /* Offset in ld symtab of this file's syms */
int textrel; /* Relocation for text addresses */
int datarel; /* Relocation for data addresses */
int bssrel; /* Relocation for bss addresses */
char *filename; /* Name of main source file compiled */
char *filedir; /* Name of directory it was reached from */
struct blockvector *blockvector; /* Vector of all symbol-naming blocks */
struct typevector *typevector; /* Vector of all data types */
enum language language; /* Code identifying the language used */
char *version; /* Version info. Not fully specified */
char *compilation; /* Compilation info. Not fully specified */
int databeg; /* Address within the file of data start */
int bssbeg; /* Address within the file of bss start */
struct sourcevector *sourcevector; /* Vector of line-number info */
};
/* All data types of symbols in the compiled program
are represented by `struct type' objects.
All of these objects are pointed to by the typevector.
The type vector may have empty slots that contain zero. */
struct typevector
{
int length; /* Number of types described */
struct type *type[1];
};
/* Different kinds of data types are distinguished by the `code' field. */
enum type_code
{
TYPE_CODE_UNDEF, /* Not used; catches errors */
TYPE_CODE_PTR, /* Pointer type */
TYPE_CODE_ARRAY, /* Array type, lower bound zero */
TYPE_CODE_STRUCT, /* C struct or Pascal record */
TYPE_CODE_UNION, /* C union or Pascal variant part */
TYPE_CODE_ENUM, /* Enumeration type */
TYPE_CODE_FUNC, /* Function type */
TYPE_CODE_INT, /* Integer type */
TYPE_CODE_FLT, /* Floating type */
TYPE_CODE_VOID, /* Void type (values zero length) */
TYPE_CODE_SET, /* Pascal sets */
TYPE_CODE_RANGE, /* Range (integers within spec'd bounds) */
TYPE_CODE_PASCAL_ARRAY, /* Array with explicit type of index */
};
/* This appears in a type's flags word for an unsigned integer type. */
#define TYPE_FLAG_UNSIGNED 1
/* Other flag bits are used with GDB. */
struct type
{
/* Code for kind of type */
enum type_code code;
/* Name of this type, or zero if none.
This is used for printing only.
Type names specified as input are defined by symbols. */
char *name;
/* Length in bytes of storage for a value of this type */
int length;
/* For a pointer type, describes the type of object pointed to.
For an array type, describes the type of the elements.
For a function type, describes the type of the value.
Unused otherwise. */
struct type *target_type;
/* Type that is a pointer to this type.
Zero if no such pointer-to type is known yet.
The debugger may add the address of such a type
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if it has to construct one later. */
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struct type *pointer_type;
/* Type that is a function returning this type.
Zero if no such function type is known here.
The debugger may add the address of such a type
if it has to construct one later. */
struct type *function_type;
/* Flags about this type. */
short flags;
/* Number of fields described for this type */
short nfields;
/* For structure and union types, a description of each field.
For set and pascal array types, there is one "field",
whose type is the domain type of the set or array.
For range types, there are two "fields",
the minimum and maximum values (both inclusive).
For enum types, each possible value is described by one "field".
For range types, there are two "fields", that record constant values
(inclusive) for the minimum and maximum.
Using a pointer to a separate array of fields
allows all types to have the same size, which is useful
because we can allocate the space for a type before
we know what to put in it. */
struct field
{
/* Position of this field, counting in bits from start of
containing structure. For a function type, this is the
position in the argument list of this argument.
For a range bound or enum value, this is the value itself. */
int bitpos;
/* Size of this field, in bits, or zero if not packed.
For an unpacked field, the field's type's length
says how many bytes the field occupies. */
int bitsize;
/* In a struct or enum type, type of this field.
In a function type, type of this argument.
In an array type, the domain-type of the array. */
struct type *type;
/* Name of field, value or argument.
Zero for range bounds and array domains. */
char *name;
} *fields;
};
/* All of the name-scope contours of the program
are represented by `struct block' objects.
All of these objects are pointed to by the blockvector.
Each block represents one name scope.
Each lexical context has its own block.
The first two blocks in the blockvector are special.
The first one contains all the symbols defined in this compilation
whose scope is the entire program linked together.
The second one contains all the symbols whose scope is the
entire compilation excluding other separate compilations.
In C, these correspond to global symbols and static symbols.
Each block records a range of core addresses for the code that
is in the scope of the block. The first two special blocks
give, for the range of code, the entire range of code produced
by the compilation that the symbol segment belongs to.
The blocks appear in the blockvector
in order of increasing starting-address,
and, within that, in order of decreasing ending-address.
This implies that within the body of one function
the blocks appear in the order of a depth-first tree walk. */
struct blockvector
{
/* Number of blocks in the list. */
int nblocks;
/* The blocks themselves. */
struct block *block[1];
};
struct block
{
/* Addresses in the executable code that are in this block.
Note: in an unrelocated symbol segment in a file,
these are always zero. They can be filled in from the
N_LBRAC and N_RBRAC symbols in the loader symbol table. */
int startaddr, endaddr;
/* The symbol that names this block,
if the block is the body of a function;
otherwise, zero.
Note: In an unrelocated symbol segment in an object file,
this field may be zero even when the block has a name.
That is because the block is output before the name
(since the name resides in a higher block).
Since the symbol does point to the block (as its value),
it is possible to find the block and set its name properly. */
struct symbol *function;
/* The `struct block' for the containing block, or 0 if none. */
/* Note that in an unrelocated symbol segment in an object file
this pointer may be zero when the correct value should be
the second special block (for symbols whose scope is one compilation).
This is because the compiler ouptuts the special blocks at the
very end, after the other blocks. */
struct block *superblock;
/* Number of local symbols. */
int nsyms;
/* The symbols. */
struct symbol *sym[1];
};
/* Represent one symbol name; a variable, constant, function or typedef. */
/* Different name spaces for symbols. Looking up a symbol specifies
a namespace and ignores symbol definitions in other name spaces.
VAR_NAMESPACE is the usual namespace.
In C, this contains variables, function names, typedef names
and enum type values.
STRUCT_NAMESPACE 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_NAMESPACE.
LABEL_NAMESPACE may be used for names of labels (for gotos);
currently it is not used and labels are not recorded at all. */
/* For a non-global symbol allocated statically,
the correct core address cannot be determined by the compiler.
The compiler puts an index number into the symbol's value field.
This index number can be matched with the "desc" field of
an entry in the loader symbol table. */
enum namespace
{
UNDEF_NAMESPACE, VAR_NAMESPACE, STRUCT_NAMESPACE, LABEL_NAMESPACE,
};
/* An address-class says where to find the value of the symbol in core. */
enum address_class
{
LOC_UNDEF, /* Not used; catches errors */
LOC_CONST, /* Value is constant int */
LOC_STATIC, /* Value is at fixed address */
LOC_REGISTER, /* Value is in register */
LOC_ARG, /* Value is at spec'd position in arglist */
LOC_LOCAL, /* Value is at spec'd pos in stack frame */
LOC_TYPEDEF, /* Value not used; definition in SYMBOL_TYPE
Symbols in the namespace STRUCT_NAMESPACE
all have this class. */
LOC_LABEL, /* Value is address in the code */
LOC_BLOCK, /* Value is address of a `struct block'.
Function names have this class. */
LOC_EXTERNAL, /* Value is at address not in this compilation.
This is used for .comm symbols
and for extern symbols within functions.
Inside GDB, this is changed to LOC_STATIC once the
real address is obtained from a loader symbol. */
LOC_CONST_BYTES /* Value is a constant byte-sequence. */
};
struct symbol
{
/* Symbol name */
char *name;
/* Name space code. */
enum namespace namespace;
/* Address class */
enum address_class class;
/* Data type of value */
struct type *type;
/* constant value, or address if static, or register number,
or offset in arguments, or offset in stack frame. */
union
{
long value;
struct block *block; /* for LOC_BLOCK */
char *bytes; /* for LOC_CONST_BYTES */
}
value;
};
/* Source-file information.
This describes the relation between source files and line numbers
and addresses in the program text. */
struct sourcevector
{
int length; /* Number of source files described */
struct source *source[1]; /* Descriptions of the files */
};
/* Line number and address of one line. */
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struct line
{
int linenum;
int address;
};
/* All the information on one source file. */
struct source
{
char *name; /* Name of file */
int nlines; /* Number of lines that follow */
struct line lines[1]; /* Information on each line */
};