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|
/* Object file "section" support for the BFD library.
Copyright (C) 1990-2015 Free Software Foundation, Inc.
Written by Cygnus Support.
This file is part of BFD, the Binary File Descriptor library.
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, write to the Free Software
Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
/*
SECTION
Sections
The raw data contained within a BFD is maintained through the
section abstraction. A single BFD may have any number of
sections. It keeps hold of them by pointing to the first;
each one points to the next in the list.
Sections are supported in BFD in <<section.c>>.
@menu
@* Section Input::
@* Section Output::
@* typedef asection::
@* section prototypes::
@end menu
INODE
Section Input, Section Output, Sections, Sections
SUBSECTION
Section input
When a BFD is opened for reading, the section structures are
created and attached to the BFD.
Each section has a name which describes the section in the
outside world---for example, <<a.out>> would contain at least
three sections, called <<.text>>, <<.data>> and <<.bss>>.
Names need not be unique; for example a COFF file may have several
sections named <<.data>>.
Sometimes a BFD will contain more than the ``natural'' number of
sections. A back end may attach other sections containing
constructor data, or an application may add a section (using
<<bfd_make_section>>) to the sections attached to an already open
BFD. For example, the linker creates an extra section
<<COMMON>> for each input file's BFD to hold information about
common storage.
The raw data is not necessarily read in when
the section descriptor is created. Some targets may leave the
data in place until a <<bfd_get_section_contents>> call is
made. Other back ends may read in all the data at once. For
example, an S-record file has to be read once to determine the
size of the data. An IEEE-695 file doesn't contain raw data in
sections, but data and relocation expressions intermixed, so
the data area has to be parsed to get out the data and
relocations.
INODE
Section Output, typedef asection, Section Input, Sections
SUBSECTION
Section output
To write a new object style BFD, the various sections to be
written have to be created. They are attached to the BFD in
the same way as input sections; data is written to the
sections using <<bfd_set_section_contents>>.
Any program that creates or combines sections (e.g., the assembler
and linker) must use the <<asection>> fields <<output_section>> and
<<output_offset>> to indicate the file sections to which each
section must be written. (If the section is being created from
scratch, <<output_section>> should probably point to the section
itself and <<output_offset>> should probably be zero.)
The data to be written comes from input sections attached
(via <<output_section>> pointers) to
the output sections. The output section structure can be
considered a filter for the input section: the output section
determines the vma of the output data and the name, but the
input section determines the offset into the output section of
the data to be written.
E.g., to create a section "O", starting at 0x100, 0x123 long,
containing two subsections, "A" at offset 0x0 (i.e., at vma
0x100) and "B" at offset 0x20 (i.e., at vma 0x120) the <<asection>>
structures would look like:
| section name "A"
| output_offset 0x00
| size 0x20
| output_section -----------> section name "O"
| | vma 0x100
| section name "B" | size 0x123
| output_offset 0x20 |
| size 0x103 |
| output_section --------|
SUBSECTION
Link orders
The data within a section is stored in a @dfn{link_order}.
These are much like the fixups in <<gas>>. The link_order
abstraction allows a section to grow and shrink within itself.
A link_order knows how big it is, and which is the next
link_order and where the raw data for it is; it also points to
a list of relocations which apply to it.
The link_order is used by the linker to perform relaxing on
final code. The compiler creates code which is as big as
necessary to make it work without relaxing, and the user can
select whether to relax. Sometimes relaxing takes a lot of
time. The linker runs around the relocations to see if any
are attached to data which can be shrunk, if so it does it on
a link_order by link_order basis.
*/
#include "sysdep.h"
#include "bfd.h"
#include "libbfd.h"
#include "bfdlink.h"
/*
DOCDD
INODE
typedef asection, section prototypes, Section Output, Sections
SUBSECTION
typedef asection
Here is the section structure:
CODE_FRAGMENT
.
.typedef struct bfd_section
.{
. {* The name of the section; the name isn't a copy, the pointer is
. the same as that passed to bfd_make_section. *}
. const char *name;
.
. {* A unique sequence number. *}
. int id;
.
. {* Which section in the bfd; 0..n-1 as sections are created in a bfd. *}
. int index;
.
. {* The next section in the list belonging to the BFD, or NULL. *}
. struct bfd_section *next;
.
. {* The previous section in the list belonging to the BFD, or NULL. *}
. struct bfd_section *prev;
.
. {* The field flags contains attributes of the section. Some
. flags are read in from the object file, and some are
. synthesized from other information. *}
. flagword flags;
.
.#define SEC_NO_FLAGS 0x000
.
. {* Tells the OS to allocate space for this section when loading.
. This is clear for a section containing debug information only. *}
.#define SEC_ALLOC 0x001
.
. {* Tells the OS to load the section from the file when loading.
. This is clear for a .bss section. *}
.#define SEC_LOAD 0x002
.
. {* The section contains data still to be relocated, so there is
. some relocation information too. *}
.#define SEC_RELOC 0x004
.
. {* A signal to the OS that the section contains read only data. *}
.#define SEC_READONLY 0x008
.
. {* The section contains code only. *}
.#define SEC_CODE 0x010
.
. {* The section contains data only. *}
.#define SEC_DATA 0x020
.
. {* The section will reside in ROM. *}
.#define SEC_ROM 0x040
.
. {* The section contains constructor information. This section
. type is used by the linker to create lists of constructors and
. destructors used by <<g++>>. When a back end sees a symbol
. which should be used in a constructor list, it creates a new
. section for the type of name (e.g., <<__CTOR_LIST__>>), attaches
. the symbol to it, and builds a relocation. To build the lists
. of constructors, all the linker has to do is catenate all the
. sections called <<__CTOR_LIST__>> and relocate the data
. contained within - exactly the operations it would peform on
. standard data. *}
.#define SEC_CONSTRUCTOR 0x080
.
. {* The section has contents - a data section could be
. <<SEC_ALLOC>> | <<SEC_HAS_CONTENTS>>; a debug section could be
. <<SEC_HAS_CONTENTS>> *}
.#define SEC_HAS_CONTENTS 0x100
.
. {* An instruction to the linker to not output the section
. even if it has information which would normally be written. *}
.#define SEC_NEVER_LOAD 0x200
.
. {* The section contains thread local data. *}
.#define SEC_THREAD_LOCAL 0x400
.
. {* The section has GOT references. This flag is only for the
. linker, and is currently only used by the elf32-hppa back end.
. It will be set if global offset table references were detected
. in this section, which indicate to the linker that the section
. contains PIC code, and must be handled specially when doing a
. static link. *}
.#define SEC_HAS_GOT_REF 0x800
.
. {* The section contains common symbols (symbols may be defined
. multiple times, the value of a symbol is the amount of
. space it requires, and the largest symbol value is the one
. used). Most targets have exactly one of these (which we
. translate to bfd_com_section_ptr), but ECOFF has two. *}
.#define SEC_IS_COMMON 0x1000
.
. {* The section contains only debugging information. For
. example, this is set for ELF .debug and .stab sections.
. strip tests this flag to see if a section can be
. discarded. *}
.#define SEC_DEBUGGING 0x2000
.
. {* The contents of this section are held in memory pointed to
. by the contents field. This is checked by bfd_get_section_contents,
. and the data is retrieved from memory if appropriate. *}
.#define SEC_IN_MEMORY 0x4000
.
. {* The contents of this section are to be excluded by the
. linker for executable and shared objects unless those
. objects are to be further relocated. *}
.#define SEC_EXCLUDE 0x8000
.
. {* The contents of this section are to be sorted based on the sum of
. the symbol and addend values specified by the associated relocation
. entries. Entries without associated relocation entries will be
. appended to the end of the section in an unspecified order. *}
.#define SEC_SORT_ENTRIES 0x10000
.
. {* When linking, duplicate sections of the same name should be
. discarded, rather than being combined into a single section as
. is usually done. This is similar to how common symbols are
. handled. See SEC_LINK_DUPLICATES below. *}
.#define SEC_LINK_ONCE 0x20000
.
. {* If SEC_LINK_ONCE is set, this bitfield describes how the linker
. should handle duplicate sections. *}
.#define SEC_LINK_DUPLICATES 0xc0000
.
. {* This value for SEC_LINK_DUPLICATES means that duplicate
. sections with the same name should simply be discarded. *}
.#define SEC_LINK_DUPLICATES_DISCARD 0x0
.
. {* This value for SEC_LINK_DUPLICATES means that the linker
. should warn if there are any duplicate sections, although
. it should still only link one copy. *}
.#define SEC_LINK_DUPLICATES_ONE_ONLY 0x40000
.
. {* This value for SEC_LINK_DUPLICATES means that the linker
. should warn if any duplicate sections are a different size. *}
.#define SEC_LINK_DUPLICATES_SAME_SIZE 0x80000
.
. {* This value for SEC_LINK_DUPLICATES means that the linker
. should warn if any duplicate sections contain different
. contents. *}
.#define SEC_LINK_DUPLICATES_SAME_CONTENTS \
. (SEC_LINK_DUPLICATES_ONE_ONLY | SEC_LINK_DUPLICATES_SAME_SIZE)
.
. {* This section was created by the linker as part of dynamic
. relocation or other arcane processing. It is skipped when
. going through the first-pass output, trusting that someone
. else up the line will take care of it later. *}
.#define SEC_LINKER_CREATED 0x100000
.
. {* This section should not be subject to garbage collection.
. Also set to inform the linker that this section should not be
. listed in the link map as discarded. *}
.#define SEC_KEEP 0x200000
.
. {* This section contains "short" data, and should be placed
. "near" the GP. *}
.#define SEC_SMALL_DATA 0x400000
.
. {* Attempt to merge identical entities in the section.
. Entity size is given in the entsize field. *}
.#define SEC_MERGE 0x800000
.
. {* If given with SEC_MERGE, entities to merge are zero terminated
. strings where entsize specifies character size instead of fixed
. size entries. *}
.#define SEC_STRINGS 0x1000000
.
. {* This section contains data about section groups. *}
.#define SEC_GROUP 0x2000000
.
. {* The section is a COFF shared library section. This flag is
. only for the linker. If this type of section appears in
. the input file, the linker must copy it to the output file
. without changing the vma or size. FIXME: Although this
. was originally intended to be general, it really is COFF
. specific (and the flag was renamed to indicate this). It
. might be cleaner to have some more general mechanism to
. allow the back end to control what the linker does with
. sections. *}
.#define SEC_COFF_SHARED_LIBRARY 0x4000000
.
. {* This input section should be copied to output in reverse order
. as an array of pointers. This is for ELF linker internal use
. only. *}
.#define SEC_ELF_REVERSE_COPY 0x4000000
.
. {* This section contains data which may be shared with other
. executables or shared objects. This is for COFF only. *}
.#define SEC_COFF_SHARED 0x8000000
.
. {* This section should be compressed. This is for ELF linker
. internal use only. *}
.#define SEC_ELF_COMPRESS 0x8000000
.
. {* When a section with this flag is being linked, then if the size of
. the input section is less than a page, it should not cross a page
. boundary. If the size of the input section is one page or more,
. it should be aligned on a page boundary. This is for TI
. TMS320C54X only. *}
.#define SEC_TIC54X_BLOCK 0x10000000
.
. {* Conditionally link this section; do not link if there are no
. references found to any symbol in the section. This is for TI
. TMS320C54X only. *}
.#define SEC_TIC54X_CLINK 0x20000000
.
. {* Indicate that section has the no read flag set. This happens
. when memory read flag isn't set. *}
.#define SEC_COFF_NOREAD 0x40000000
.
. {* End of section flags. *}
.
. {* Some internal packed boolean fields. *}
.
. {* See the vma field. *}
. unsigned int user_set_vma : 1;
.
. {* A mark flag used by some of the linker backends. *}
. unsigned int linker_mark : 1;
.
. {* Another mark flag used by some of the linker backends. Set for
. output sections that have an input section. *}
. unsigned int linker_has_input : 1;
.
. {* Mark flag used by some linker backends for garbage collection. *}
. unsigned int gc_mark : 1;
.
. {* Section compression status. *}
. unsigned int compress_status : 2;
.#define COMPRESS_SECTION_NONE 0
.#define COMPRESS_SECTION_DONE 1
.#define DECOMPRESS_SECTION_SIZED 2
.
. {* The following flags are used by the ELF linker. *}
.
. {* Mark sections which have been allocated to segments. *}
. unsigned int segment_mark : 1;
.
. {* Type of sec_info information. *}
. unsigned int sec_info_type:3;
.#define SEC_INFO_TYPE_NONE 0
.#define SEC_INFO_TYPE_STABS 1
.#define SEC_INFO_TYPE_MERGE 2
.#define SEC_INFO_TYPE_EH_FRAME 3
.#define SEC_INFO_TYPE_JUST_SYMS 4
.#define SEC_INFO_TYPE_TARGET 5
.
. {* Nonzero if this section uses RELA relocations, rather than REL. *}
. unsigned int use_rela_p:1;
.
. {* Bits used by various backends. The generic code doesn't touch
. these fields. *}
.
. unsigned int sec_flg0:1;
. unsigned int sec_flg1:1;
. unsigned int sec_flg2:1;
. unsigned int sec_flg3:1;
. unsigned int sec_flg4:1;
. unsigned int sec_flg5:1;
.
. {* End of internal packed boolean fields. *}
.
. {* The virtual memory address of the section - where it will be
. at run time. The symbols are relocated against this. The
. user_set_vma flag is maintained by bfd; if it's not set, the
. backend can assign addresses (for example, in <<a.out>>, where
. the default address for <<.data>> is dependent on the specific
. target and various flags). *}
. bfd_vma vma;
.
. {* The load address of the section - where it would be in a
. rom image; really only used for writing section header
. information. *}
. bfd_vma lma;
.
. {* The size of the section in octets, as it will be output.
. Contains a value even if the section has no contents (e.g., the
. size of <<.bss>>). *}
. bfd_size_type size;
.
. {* For input sections, the original size on disk of the section, in
. octets. This field should be set for any section whose size is
. changed by linker relaxation. It is required for sections where
. the linker relaxation scheme doesn't cache altered section and
. reloc contents (stabs, eh_frame, SEC_MERGE, some coff relaxing
. targets), and thus the original size needs to be kept to read the
. section multiple times. For output sections, rawsize holds the
. section size calculated on a previous linker relaxation pass. *}
. bfd_size_type rawsize;
.
. {* The compressed size of the section in octets. *}
. bfd_size_type compressed_size;
.
. {* Relaxation table. *}
. struct relax_table *relax;
.
. {* Count of used relaxation table entries. *}
. int relax_count;
.
.
. {* If this section is going to be output, then this value is the
. offset in *bytes* into the output section of the first byte in the
. input section (byte ==> smallest addressable unit on the
. target). In most cases, if this was going to start at the
. 100th octet (8-bit quantity) in the output section, this value
. would be 100. However, if the target byte size is 16 bits
. (bfd_octets_per_byte is "2"), this value would be 50. *}
. bfd_vma output_offset;
.
. {* The output section through which to map on output. *}
. struct bfd_section *output_section;
.
. {* The alignment requirement of the section, as an exponent of 2 -
. e.g., 3 aligns to 2^3 (or 8). *}
. unsigned int alignment_power;
.
. {* If an input section, a pointer to a vector of relocation
. records for the data in this section. *}
. struct reloc_cache_entry *relocation;
.
. {* If an output section, a pointer to a vector of pointers to
. relocation records for the data in this section. *}
. struct reloc_cache_entry **orelocation;
.
. {* The number of relocation records in one of the above. *}
. unsigned reloc_count;
.
. {* Information below is back end specific - and not always used
. or updated. *}
.
. {* File position of section data. *}
. file_ptr filepos;
.
. {* File position of relocation info. *}
. file_ptr rel_filepos;
.
. {* File position of line data. *}
. file_ptr line_filepos;
.
. {* Pointer to data for applications. *}
. void *userdata;
.
. {* If the SEC_IN_MEMORY flag is set, this points to the actual
. contents. *}
. unsigned char *contents;
.
. {* Attached line number information. *}
. alent *lineno;
.
. {* Number of line number records. *}
. unsigned int lineno_count;
.
. {* Entity size for merging purposes. *}
. unsigned int entsize;
.
. {* Points to the kept section if this section is a link-once section,
. and is discarded. *}
. struct bfd_section *kept_section;
.
. {* When a section is being output, this value changes as more
. linenumbers are written out. *}
. file_ptr moving_line_filepos;
.
. {* What the section number is in the target world. *}
. int target_index;
.
. void *used_by_bfd;
.
. {* If this is a constructor section then here is a list of the
. relocations created to relocate items within it. *}
. struct relent_chain *constructor_chain;
.
. {* The BFD which owns the section. *}
. bfd *owner;
.
. {* A symbol which points at this section only. *}
. struct bfd_symbol *symbol;
. struct bfd_symbol **symbol_ptr_ptr;
.
. {* Early in the link process, map_head and map_tail are used to build
. a list of input sections attached to an output section. Later,
. output sections use these fields for a list of bfd_link_order
. structs. *}
. union {
. struct bfd_link_order *link_order;
. struct bfd_section *s;
. } map_head, map_tail;
.} asection;
.
.{* Relax table contains information about instructions which can
. be removed by relaxation -- replacing a long address with a
. short address. *}
.struct relax_table {
. {* Address where bytes may be deleted. *}
. bfd_vma addr;
.
. {* Number of bytes to be deleted. *}
. int size;
.};
.
.{* Note: the following are provided as inline functions rather than macros
. because not all callers use the return value. A macro implementation
. would use a comma expression, eg: "((ptr)->foo = val, TRUE)" and some
. compilers will complain about comma expressions that have no effect. *}
.static inline bfd_boolean
.bfd_set_section_userdata (bfd * abfd ATTRIBUTE_UNUSED, asection * ptr, void * val)
.{
. ptr->userdata = val;
. return TRUE;
.}
.
.static inline bfd_boolean
.bfd_set_section_vma (bfd * abfd ATTRIBUTE_UNUSED, asection * ptr, bfd_vma val)
.{
. ptr->vma = ptr->lma = val;
. ptr->user_set_vma = TRUE;
. return TRUE;
.}
.
.static inline bfd_boolean
.bfd_set_section_alignment (bfd * abfd ATTRIBUTE_UNUSED, asection * ptr, unsigned int val)
.{
. ptr->alignment_power = val;
. return TRUE;
.}
.
.{* These sections are global, and are managed by BFD. The application
. and target back end are not permitted to change the values in
. these sections. *}
.extern asection _bfd_std_section[4];
.
.#define BFD_ABS_SECTION_NAME "*ABS*"
.#define BFD_UND_SECTION_NAME "*UND*"
.#define BFD_COM_SECTION_NAME "*COM*"
.#define BFD_IND_SECTION_NAME "*IND*"
.
.{* Pointer to the common section. *}
.#define bfd_com_section_ptr (&_bfd_std_section[0])
.{* Pointer to the undefined section. *}
.#define bfd_und_section_ptr (&_bfd_std_section[1])
.{* Pointer to the absolute section. *}
.#define bfd_abs_section_ptr (&_bfd_std_section[2])
.{* Pointer to the indirect section. *}
.#define bfd_ind_section_ptr (&_bfd_std_section[3])
.
.#define bfd_is_und_section(sec) ((sec) == bfd_und_section_ptr)
.#define bfd_is_abs_section(sec) ((sec) == bfd_abs_section_ptr)
.#define bfd_is_ind_section(sec) ((sec) == bfd_ind_section_ptr)
.
.#define bfd_is_const_section(SEC) \
. ( ((SEC) == bfd_abs_section_ptr) \
. || ((SEC) == bfd_und_section_ptr) \
. || ((SEC) == bfd_com_section_ptr) \
. || ((SEC) == bfd_ind_section_ptr))
.
.{* Macros to handle insertion and deletion of a bfd's sections. These
. only handle the list pointers, ie. do not adjust section_count,
. target_index etc. *}
.#define bfd_section_list_remove(ABFD, S) \
. do \
. { \
. asection *_s = S; \
. asection *_next = _s->next; \
. asection *_prev = _s->prev; \
. if (_prev) \
. _prev->next = _next; \
. else \
. (ABFD)->sections = _next; \
. if (_next) \
. _next->prev = _prev; \
. else \
. (ABFD)->section_last = _prev; \
. } \
. while (0)
.#define bfd_section_list_append(ABFD, S) \
. do \
. { \
. asection *_s = S; \
. bfd *_abfd = ABFD; \
. _s->next = NULL; \
. if (_abfd->section_last) \
. { \
. _s->prev = _abfd->section_last; \
. _abfd->section_last->next = _s; \
. } \
. else \
. { \
. _s->prev = NULL; \
. _abfd->sections = _s; \
. } \
. _abfd->section_last = _s; \
. } \
. while (0)
.#define bfd_section_list_prepend(ABFD, S) \
. do \
. { \
. asection *_s = S; \
. bfd *_abfd = ABFD; \
. _s->prev = NULL; \
. if (_abfd->sections) \
. { \
. _s->next = _abfd->sections; \
. _abfd->sections->prev = _s; \
. } \
. else \
. { \
. _s->next = NULL; \
. _abfd->section_last = _s; \
. } \
. _abfd->sections = _s; \
. } \
. while (0)
.#define bfd_section_list_insert_after(ABFD, A, S) \
. do \
. { \
. asection *_a = A; \
. asection *_s = S; \
. asection *_next = _a->next; \
. _s->next = _next; \
. _s->prev = _a; \
. _a->next = _s; \
. if (_next) \
. _next->prev = _s; \
. else \
. (ABFD)->section_last = _s; \
. } \
. while (0)
.#define bfd_section_list_insert_before(ABFD, B, S) \
. do \
. { \
. asection *_b = B; \
. asection *_s = S; \
. asection *_prev = _b->prev; \
. _s->prev = _prev; \
. _s->next = _b; \
. _b->prev = _s; \
. if (_prev) \
. _prev->next = _s; \
. else \
. (ABFD)->sections = _s; \
. } \
. while (0)
.#define bfd_section_removed_from_list(ABFD, S) \
. ((S)->next == NULL ? (ABFD)->section_last != (S) : (S)->next->prev != (S))
.
.#define BFD_FAKE_SECTION(SEC, FLAGS, SYM, NAME, IDX) \
. {* name, id, index, next, prev, flags, user_set_vma, *} \
. { NAME, IDX, 0, NULL, NULL, FLAGS, 0, \
. \
. {* linker_mark, linker_has_input, gc_mark, decompress_status, *} \
. 0, 0, 1, 0, \
. \
. {* segment_mark, sec_info_type, use_rela_p, *} \
. 0, 0, 0, \
. \
. {* sec_flg0, sec_flg1, sec_flg2, sec_flg3, sec_flg4, sec_flg5, *} \
. 0, 0, 0, 0, 0, 0, \
. \
. {* vma, lma, size, rawsize, compressed_size, relax, relax_count, *} \
. 0, 0, 0, 0, 0, 0, 0, \
. \
. {* output_offset, output_section, alignment_power, *} \
. 0, &SEC, 0, \
. \
. {* relocation, orelocation, reloc_count, filepos, rel_filepos, *} \
. NULL, NULL, 0, 0, 0, \
. \
. {* line_filepos, userdata, contents, lineno, lineno_count, *} \
. 0, NULL, NULL, NULL, 0, \
. \
. {* entsize, kept_section, moving_line_filepos, *} \
. 0, NULL, 0, \
. \
. {* target_index, used_by_bfd, constructor_chain, owner, *} \
. 0, NULL, NULL, NULL, \
. \
. {* symbol, symbol_ptr_ptr, *} \
. (struct bfd_symbol *) SYM, &SEC.symbol, \
. \
. {* map_head, map_tail *} \
. { NULL }, { NULL } \
. }
.
*/
/* We use a macro to initialize the static asymbol structures because
traditional C does not permit us to initialize a union member while
gcc warns if we don't initialize it. */
/* the_bfd, name, value, attr, section [, udata] */
#ifdef __STDC__
#define GLOBAL_SYM_INIT(NAME, SECTION) \
{ 0, NAME, 0, BSF_SECTION_SYM, SECTION, { 0 }}
#else
#define GLOBAL_SYM_INIT(NAME, SECTION) \
{ 0, NAME, 0, BSF_SECTION_SYM, SECTION }
#endif
/* These symbols are global, not specific to any BFD. Therefore, anything
that tries to change them is broken, and should be repaired. */
static const asymbol global_syms[] =
{
GLOBAL_SYM_INIT (BFD_COM_SECTION_NAME, bfd_com_section_ptr),
GLOBAL_SYM_INIT (BFD_UND_SECTION_NAME, bfd_und_section_ptr),
GLOBAL_SYM_INIT (BFD_ABS_SECTION_NAME, bfd_abs_section_ptr),
GLOBAL_SYM_INIT (BFD_IND_SECTION_NAME, bfd_ind_section_ptr)
};
#define STD_SECTION(NAME, IDX, FLAGS) \
BFD_FAKE_SECTION(_bfd_std_section[IDX], FLAGS, &global_syms[IDX], NAME, IDX)
asection _bfd_std_section[] = {
STD_SECTION (BFD_COM_SECTION_NAME, 0, SEC_IS_COMMON),
STD_SECTION (BFD_UND_SECTION_NAME, 1, 0),
STD_SECTION (BFD_ABS_SECTION_NAME, 2, 0),
STD_SECTION (BFD_IND_SECTION_NAME, 3, 0)
};
#undef STD_SECTION
/* Initialize an entry in the section hash table. */
struct bfd_hash_entry *
bfd_section_hash_newfunc (struct bfd_hash_entry *entry,
struct bfd_hash_table *table,
const char *string)
{
/* Allocate the structure if it has not already been allocated by a
subclass. */
if (entry == NULL)
{
entry = (struct bfd_hash_entry *)
bfd_hash_allocate (table, sizeof (struct section_hash_entry));
if (entry == NULL)
return entry;
}
/* Call the allocation method of the superclass. */
entry = bfd_hash_newfunc (entry, table, string);
if (entry != NULL)
memset (&((struct section_hash_entry *) entry)->section, 0,
sizeof (asection));
return entry;
}
#define section_hash_lookup(table, string, create, copy) \
((struct section_hash_entry *) \
bfd_hash_lookup ((table), (string), (create), (copy)))
/* Create a symbol whose only job is to point to this section. This
is useful for things like relocs which are relative to the base
of a section. */
bfd_boolean
_bfd_generic_new_section_hook (bfd *abfd, asection *newsect)
{
newsect->symbol = bfd_make_empty_symbol (abfd);
if (newsect->symbol == NULL)
return FALSE;
newsect->symbol->name = newsect->name;
newsect->symbol->value = 0;
newsect->symbol->section = newsect;
newsect->symbol->flags = BSF_SECTION_SYM;
newsect->symbol_ptr_ptr = &newsect->symbol;
return TRUE;
}
/* Initializes a new section. NEWSECT->NAME is already set. */
static asection *
bfd_section_init (bfd *abfd, asection *newsect)
{
static int section_id = 0x10; /* id 0 to 3 used by STD_SECTION. */
newsect->id = section_id;
newsect->index = abfd->section_count;
newsect->owner = abfd;
if (! BFD_SEND (abfd, _new_section_hook, (abfd, newsect)))
return NULL;
section_id++;
abfd->section_count++;
bfd_section_list_append (abfd, newsect);
return newsect;
}
/*
DOCDD
INODE
section prototypes, , typedef asection, Sections
SUBSECTION
Section prototypes
These are the functions exported by the section handling part of BFD.
*/
/*
FUNCTION
bfd_section_list_clear
SYNOPSIS
void bfd_section_list_clear (bfd *);
DESCRIPTION
Clears the section list, and also resets the section count and
hash table entries.
*/
void
bfd_section_list_clear (bfd *abfd)
{
abfd->sections = NULL;
abfd->section_last = NULL;
abfd->section_count = 0;
memset (abfd->section_htab.table, 0,
abfd->section_htab.size * sizeof (struct bfd_hash_entry *));
abfd->section_htab.count = 0;
}
/*
FUNCTION
bfd_get_section_by_name
SYNOPSIS
asection *bfd_get_section_by_name (bfd *abfd, const char *name);
DESCRIPTION
Return the most recently created section attached to @var{abfd}
named @var{name}. Return NULL if no such section exists.
*/
asection *
bfd_get_section_by_name (bfd *abfd, const char *name)
{
struct section_hash_entry *sh;
sh = section_hash_lookup (&abfd->section_htab, name, FALSE, FALSE);
if (sh != NULL)
return &sh->section;
return NULL;
}
/*
FUNCTION
bfd_get_next_section_by_name
SYNOPSIS
asection *bfd_get_next_section_by_name (asection *sec);
DESCRIPTION
Given @var{sec} is a section returned by @code{bfd_get_section_by_name},
return the next most recently created section attached to the same
BFD with the same name. Return NULL if no such section exists.
*/
asection *
bfd_get_next_section_by_name (asection *sec)
{
struct section_hash_entry *sh;
const char *name;
unsigned long hash;
sh = ((struct section_hash_entry *)
((char *) sec - offsetof (struct section_hash_entry, section)));
hash = sh->root.hash;
name = sec->name;
for (sh = (struct section_hash_entry *) sh->root.next;
sh != NULL;
sh = (struct section_hash_entry *) sh->root.next)
if (sh->root.hash == hash
&& strcmp (sh->root.string, name) == 0)
return &sh->section;
return NULL;
}
/*
FUNCTION
bfd_get_linker_section
SYNOPSIS
asection *bfd_get_linker_section (bfd *abfd, const char *name);
DESCRIPTION
Return the linker created section attached to @var{abfd}
named @var{name}. Return NULL if no such section exists.
*/
asection *
bfd_get_linker_section (bfd *abfd, const char *name)
{
asection *sec = bfd_get_section_by_name (abfd, name);
while (sec != NULL && (sec->flags & SEC_LINKER_CREATED) == 0)
sec = bfd_get_next_section_by_name (sec);
return sec;
}
/*
FUNCTION
bfd_get_section_by_name_if
SYNOPSIS
asection *bfd_get_section_by_name_if
(bfd *abfd,
const char *name,
bfd_boolean (*func) (bfd *abfd, asection *sect, void *obj),
void *obj);
DESCRIPTION
Call the provided function @var{func} for each section
attached to the BFD @var{abfd} whose name matches @var{name},
passing @var{obj} as an argument. The function will be called
as if by
| func (abfd, the_section, obj);
It returns the first section for which @var{func} returns true,
otherwise <<NULL>>.
*/
asection *
bfd_get_section_by_name_if (bfd *abfd, const char *name,
bfd_boolean (*operation) (bfd *,
asection *,
void *),
void *user_storage)
{
struct section_hash_entry *sh;
unsigned long hash;
sh = section_hash_lookup (&abfd->section_htab, name, FALSE, FALSE);
if (sh == NULL)
return NULL;
hash = sh->root.hash;
do
{
if ((*operation) (abfd, &sh->section, user_storage))
return &sh->section;
sh = (struct section_hash_entry *) sh->root.next;
}
while (sh != NULL && sh->root.hash == hash
&& strcmp (sh->root.string, name) == 0);
return NULL;
}
/*
FUNCTION
bfd_get_unique_section_name
SYNOPSIS
char *bfd_get_unique_section_name
(bfd *abfd, const char *templat, int *count);
DESCRIPTION
Invent a section name that is unique in @var{abfd} by tacking
a dot and a digit suffix onto the original @var{templat}. If
@var{count} is non-NULL, then it specifies the first number
tried as a suffix to generate a unique name. The value
pointed to by @var{count} will be incremented in this case.
*/
char *
bfd_get_unique_section_name (bfd *abfd, const char *templat, int *count)
{
int num;
unsigned int len;
char *sname;
len = strlen (templat);
sname = (char *) bfd_malloc (len + 8);
if (sname == NULL)
return NULL;
memcpy (sname, templat, len);
num = 1;
if (count != NULL)
num = *count;
do
{
/* If we have a million sections, something is badly wrong. */
if (num > 999999)
abort ();
sprintf (sname + len, ".%d", num++);
}
while (section_hash_lookup (&abfd->section_htab, sname, FALSE, FALSE));
if (count != NULL)
*count = num;
return sname;
}
/*
FUNCTION
bfd_make_section_old_way
SYNOPSIS
asection *bfd_make_section_old_way (bfd *abfd, const char *name);
DESCRIPTION
Create a new empty section called @var{name}
and attach it to the end of the chain of sections for the
BFD @var{abfd}. An attempt to create a section with a name which
is already in use returns its pointer without changing the
section chain.
It has the funny name since this is the way it used to be
before it was rewritten....
Possible errors are:
o <<bfd_error_invalid_operation>> -
If output has already started for this BFD.
o <<bfd_error_no_memory>> -
If memory allocation fails.
*/
asection *
bfd_make_section_old_way (bfd *abfd, const char *name)
{
asection *newsect;
if (abfd->output_has_begun)
{
bfd_set_error (bfd_error_invalid_operation);
return NULL;
}
if (strcmp (name, BFD_ABS_SECTION_NAME) == 0)
newsect = bfd_abs_section_ptr;
else if (strcmp (name, BFD_COM_SECTION_NAME) == 0)
newsect = bfd_com_section_ptr;
else if (strcmp (name, BFD_UND_SECTION_NAME) == 0)
newsect = bfd_und_section_ptr;
else if (strcmp (name, BFD_IND_SECTION_NAME) == 0)
newsect = bfd_ind_section_ptr;
else
{
struct section_hash_entry *sh;
sh = section_hash_lookup (&abfd->section_htab, name, TRUE, FALSE);
if (sh == NULL)
return NULL;
newsect = &sh->section;
if (newsect->name != NULL)
{
/* Section already exists. */
return newsect;
}
newsect->name = name;
return bfd_section_init (abfd, newsect);
}
/* Call new_section_hook when "creating" the standard abs, com, und
and ind sections to tack on format specific section data.
Also, create a proper section symbol. */
if (! BFD_SEND (abfd, _new_section_hook, (abfd, newsect)))
return NULL;
return newsect;
}
/*
FUNCTION
bfd_make_section_anyway_with_flags
SYNOPSIS
asection *bfd_make_section_anyway_with_flags
(bfd *abfd, const char *name, flagword flags);
DESCRIPTION
Create a new empty section called @var{name} and attach it to the end of
the chain of sections for @var{abfd}. Create a new section even if there
is already a section with that name. Also set the attributes of the
new section to the value @var{flags}.
Return <<NULL>> and set <<bfd_error>> on error; possible errors are:
o <<bfd_error_invalid_operation>> - If output has already started for @var{abfd}.
o <<bfd_error_no_memory>> - If memory allocation fails.
*/
sec_ptr
bfd_make_section_anyway_with_flags (bfd *abfd, const char *name,
flagword flags)
{
struct section_hash_entry *sh;
asection *newsect;
if (abfd->output_has_begun)
{
bfd_set_error (bfd_error_invalid_operation);
return NULL;
}
sh = section_hash_lookup (&abfd->section_htab, name, TRUE, FALSE);
if (sh == NULL)
return NULL;
newsect = &sh->section;
if (newsect->name != NULL)
{
/* We are making a section of the same name. Put it in the
section hash table. Even though we can't find it directly by a
hash lookup, we'll be able to find the section by traversing
sh->root.next quicker than looking at all the bfd sections. */
struct section_hash_entry *new_sh;
new_sh = (struct section_hash_entry *)
bfd_section_hash_newfunc (NULL, &abfd->section_htab, name);
if (new_sh == NULL)
return NULL;
new_sh->root = sh->root;
sh->root.next = &new_sh->root;
newsect = &new_sh->section;
}
newsect->flags = flags;
newsect->name = name;
return bfd_section_init (abfd, newsect);
}
/*
FUNCTION
bfd_make_section_anyway
SYNOPSIS
asection *bfd_make_section_anyway (bfd *abfd, const char *name);
DESCRIPTION
Create a new empty section called @var{name} and attach it to the end of
the chain of sections for @var{abfd}. Create a new section even if there
is already a section with that name.
Return <<NULL>> and set <<bfd_error>> on error; possible errors are:
o <<bfd_error_invalid_operation>> - If output has already started for @var{abfd}.
o <<bfd_error_no_memory>> - If memory allocation fails.
*/
sec_ptr
bfd_make_section_anyway (bfd *abfd, const char *name)
{
return bfd_make_section_anyway_with_flags (abfd, name, 0);
}
/*
FUNCTION
bfd_make_section_with_flags
SYNOPSIS
asection *bfd_make_section_with_flags
(bfd *, const char *name, flagword flags);
DESCRIPTION
Like <<bfd_make_section_anyway>>, but return <<NULL>> (without calling
bfd_set_error ()) without changing the section chain if there is already a
section named @var{name}. Also set the attributes of the new section to
the value @var{flags}. If there is an error, return <<NULL>> and set
<<bfd_error>>.
*/
asection *
bfd_make_section_with_flags (bfd *abfd, const char *name,
flagword flags)
{
struct section_hash_entry *sh;
asection *newsect;
if (abfd->output_has_begun)
{
bfd_set_error (bfd_error_invalid_operation);
return NULL;
}
if (strcmp (name, BFD_ABS_SECTION_NAME) == 0
|| strcmp (name, BFD_COM_SECTION_NAME) == 0
|| strcmp (name, BFD_UND_SECTION_NAME) == 0
|| strcmp (name, BFD_IND_SECTION_NAME) == 0)
return NULL;
sh = section_hash_lookup (&abfd->section_htab, name, TRUE, FALSE);
if (sh == NULL)
return NULL;
newsect = &sh->section;
if (newsect->name != NULL)
{
/* Section already exists. */
return NULL;
}
newsect->name = name;
newsect->flags = flags;
return bfd_section_init (abfd, newsect);
}
/*
FUNCTION
bfd_make_section
SYNOPSIS
asection *bfd_make_section (bfd *, const char *name);
DESCRIPTION
Like <<bfd_make_section_anyway>>, but return <<NULL>> (without calling
bfd_set_error ()) without changing the section chain if there is already a
section named @var{name}. If there is an error, return <<NULL>> and set
<<bfd_error>>.
*/
asection *
bfd_make_section (bfd *abfd, const char *name)
{
return bfd_make_section_with_flags (abfd, name, 0);
}
/*
FUNCTION
bfd_set_section_flags
SYNOPSIS
bfd_boolean bfd_set_section_flags
(bfd *abfd, asection *sec, flagword flags);
DESCRIPTION
Set the attributes of the section @var{sec} in the BFD
@var{abfd} to the value @var{flags}. Return <<TRUE>> on success,
<<FALSE>> on error. Possible error returns are:
o <<bfd_error_invalid_operation>> -
The section cannot have one or more of the attributes
requested. For example, a .bss section in <<a.out>> may not
have the <<SEC_HAS_CONTENTS>> field set.
*/
bfd_boolean
bfd_set_section_flags (bfd *abfd ATTRIBUTE_UNUSED,
sec_ptr section,
flagword flags)
{
section->flags = flags;
return TRUE;
}
/*
FUNCTION
bfd_rename_section
SYNOPSIS
void bfd_rename_section
(bfd *abfd, asection *sec, const char *newname);
DESCRIPTION
Rename section @var{sec} in @var{abfd} to @var{newname}.
*/
void
bfd_rename_section (bfd *abfd, sec_ptr sec, const char *newname)
{
struct section_hash_entry *sh;
sh = (struct section_hash_entry *)
((char *) sec - offsetof (struct section_hash_entry, section));
sh->section.name = newname;
bfd_hash_rename (&abfd->section_htab, newname, &sh->root);
}
/*
FUNCTION
bfd_map_over_sections
SYNOPSIS
void bfd_map_over_sections
(bfd *abfd,
void (*func) (bfd *abfd, asection *sect, void *obj),
void *obj);
DESCRIPTION
Call the provided function @var{func} for each section
attached to the BFD @var{abfd}, passing @var{obj} as an
argument. The function will be called as if by
| func (abfd, the_section, obj);
This is the preferred method for iterating over sections; an
alternative would be to use a loop:
| asection *p;
| for (p = abfd->sections; p != NULL; p = p->next)
| func (abfd, p, ...)
*/
void
bfd_map_over_sections (bfd *abfd,
void (*operation) (bfd *, asection *, void *),
void *user_storage)
{
asection *sect;
unsigned int i = 0;
for (sect = abfd->sections; sect != NULL; i++, sect = sect->next)
(*operation) (abfd, sect, user_storage);
if (i != abfd->section_count) /* Debugging */
abort ();
}
/*
FUNCTION
bfd_sections_find_if
SYNOPSIS
asection *bfd_sections_find_if
(bfd *abfd,
bfd_boolean (*operation) (bfd *abfd, asection *sect, void *obj),
void *obj);
DESCRIPTION
Call the provided function @var{operation} for each section
attached to the BFD @var{abfd}, passing @var{obj} as an
argument. The function will be called as if by
| operation (abfd, the_section, obj);
It returns the first section for which @var{operation} returns true.
*/
asection *
bfd_sections_find_if (bfd *abfd,
bfd_boolean (*operation) (bfd *, asection *, void *),
void *user_storage)
{
asection *sect;
for (sect = abfd->sections; sect != NULL; sect = sect->next)
if ((*operation) (abfd, sect, user_storage))
break;
return sect;
}
/*
FUNCTION
bfd_set_section_size
SYNOPSIS
bfd_boolean bfd_set_section_size
(bfd *abfd, asection *sec, bfd_size_type val);
DESCRIPTION
Set @var{sec} to the size @var{val}. If the operation is
ok, then <<TRUE>> is returned, else <<FALSE>>.
Possible error returns:
o <<bfd_error_invalid_operation>> -
Writing has started to the BFD, so setting the size is invalid.
*/
bfd_boolean
bfd_set_section_size (bfd *abfd, sec_ptr ptr, bfd_size_type val)
{
/* Once you've started writing to any section you cannot create or change
the size of any others. */
if (abfd->output_has_begun)
{
bfd_set_error (bfd_error_invalid_operation);
return FALSE;
}
ptr->size = val;
return TRUE;
}
/*
FUNCTION
bfd_set_section_contents
SYNOPSIS
bfd_boolean bfd_set_section_contents
(bfd *abfd, asection *section, const void *data,
file_ptr offset, bfd_size_type count);
DESCRIPTION
Sets the contents of the section @var{section} in BFD
@var{abfd} to the data starting in memory at @var{data}. The
data is written to the output section starting at offset
@var{offset} for @var{count} octets.
Normally <<TRUE>> is returned, else <<FALSE>>. Possible error
returns are:
o <<bfd_error_no_contents>> -
The output section does not have the <<SEC_HAS_CONTENTS>>
attribute, so nothing can be written to it.
o and some more too
This routine is front end to the back end function
<<_bfd_set_section_contents>>.
*/
bfd_boolean
bfd_set_section_contents (bfd *abfd,
sec_ptr section,
const void *location,
file_ptr offset,
bfd_size_type count)
{
bfd_size_type sz;
if (!(bfd_get_section_flags (abfd, section) & SEC_HAS_CONTENTS))
{
bfd_set_error (bfd_error_no_contents);
return FALSE;
}
sz = section->size;
if ((bfd_size_type) offset > sz
|| count > sz
|| offset + count > sz
|| count != (size_t) count)
{
bfd_set_error (bfd_error_bad_value);
return FALSE;
}
if (!bfd_write_p (abfd))
{
bfd_set_error (bfd_error_invalid_operation);
return FALSE;
}
/* Record a copy of the data in memory if desired. */
if (section->contents
&& location != section->contents + offset)
memcpy (section->contents + offset, location, (size_t) count);
if (BFD_SEND (abfd, _bfd_set_section_contents,
(abfd, section, location, offset, count)))
{
abfd->output_has_begun = TRUE;
return TRUE;
}
return FALSE;
}
/*
FUNCTION
bfd_get_section_contents
SYNOPSIS
bfd_boolean bfd_get_section_contents
(bfd *abfd, asection *section, void *location, file_ptr offset,
bfd_size_type count);
DESCRIPTION
Read data from @var{section} in BFD @var{abfd}
into memory starting at @var{location}. The data is read at an
offset of @var{offset} from the start of the input section,
and is read for @var{count} bytes.
If the contents of a constructor with the <<SEC_CONSTRUCTOR>>
flag set are requested or if the section does not have the
<<SEC_HAS_CONTENTS>> flag set, then the @var{location} is filled
with zeroes. If no errors occur, <<TRUE>> is returned, else
<<FALSE>>.
*/
bfd_boolean
bfd_get_section_contents (bfd *abfd,
sec_ptr section,
void *location,
file_ptr offset,
bfd_size_type count)
{
bfd_size_type sz;
if (section->flags & SEC_CONSTRUCTOR)
{
memset (location, 0, (size_t) count);
return TRUE;
}
if (abfd->direction != write_direction && section->rawsize != 0)
sz = section->rawsize;
else
sz = section->size;
if ((bfd_size_type) offset > sz
|| count > sz
|| offset + count > sz
|| count != (size_t) count)
{
bfd_set_error (bfd_error_bad_value);
return FALSE;
}
if (count == 0)
/* Don't bother. */
return TRUE;
if ((section->flags & SEC_HAS_CONTENTS) == 0)
{
memset (location, 0, (size_t) count);
return TRUE;
}
if ((section->flags & SEC_IN_MEMORY) != 0)
{
if (section->contents == NULL)
{
/* This can happen because of errors earlier on in the linking process.
We do not want to seg-fault here, so clear the flag and return an
error code. */
section->flags &= ~ SEC_IN_MEMORY;
bfd_set_error (bfd_error_invalid_operation);
return FALSE;
}
memmove (location, section->contents + offset, (size_t) count);
return TRUE;
}
return BFD_SEND (abfd, _bfd_get_section_contents,
(abfd, section, location, offset, count));
}
/*
FUNCTION
bfd_malloc_and_get_section
SYNOPSIS
bfd_boolean bfd_malloc_and_get_section
(bfd *abfd, asection *section, bfd_byte **buf);
DESCRIPTION
Read all data from @var{section} in BFD @var{abfd}
into a buffer, *@var{buf}, malloc'd by this function.
*/
bfd_boolean
bfd_malloc_and_get_section (bfd *abfd, sec_ptr sec, bfd_byte **buf)
{
*buf = NULL;
return bfd_get_full_section_contents (abfd, sec, buf);
}
/*
FUNCTION
bfd_copy_private_section_data
SYNOPSIS
bfd_boolean bfd_copy_private_section_data
(bfd *ibfd, asection *isec, bfd *obfd, asection *osec);
DESCRIPTION
Copy private section information from @var{isec} in the BFD
@var{ibfd} to the section @var{osec} in the BFD @var{obfd}.
Return <<TRUE>> on success, <<FALSE>> on error. Possible error
returns are:
o <<bfd_error_no_memory>> -
Not enough memory exists to create private data for @var{osec}.
.#define bfd_copy_private_section_data(ibfd, isection, obfd, osection) \
. BFD_SEND (obfd, _bfd_copy_private_section_data, \
. (ibfd, isection, obfd, osection))
*/
/*
FUNCTION
bfd_generic_is_group_section
SYNOPSIS
bfd_boolean bfd_generic_is_group_section (bfd *, const asection *sec);
DESCRIPTION
Returns TRUE if @var{sec} is a member of a group.
*/
bfd_boolean
bfd_generic_is_group_section (bfd *abfd ATTRIBUTE_UNUSED,
const asection *sec ATTRIBUTE_UNUSED)
{
return FALSE;
}
/*
FUNCTION
bfd_generic_discard_group
SYNOPSIS
bfd_boolean bfd_generic_discard_group (bfd *abfd, asection *group);
DESCRIPTION
Remove all members of @var{group} from the output.
*/
bfd_boolean
bfd_generic_discard_group (bfd *abfd ATTRIBUTE_UNUSED,
asection *group ATTRIBUTE_UNUSED)
{
return TRUE;
}
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