gcc/libiberty/simple-object-mach-o.c
Richard Biener 1ea85365b4 re PR go/78628 (GO fails to build a translation unit decl)
2017-08-21  Richard Biener  <rguenther@suse.de>

	include/
	* simple-object.h (simple_object_copy_lto_debug_sections): New
	function.

	libiberty/
	* simple-object-common.h (struct simple_object_functions): Add
	copy_lto_debug_sections hook.
	* simple-object.c: Include fcntl.h.
	(handle_lto_debug_sections): New helper function.
	(simple_object_copy_lto_debug_sections): New function copying
	early LTO debug sections to regular debug sections in a new file.
	(simple_object_start_write): Handle NULL segment_name.
	* simple-object-coff.c (simple_object_coff_functions): Adjust
	for not implemented copy_lto_debug_sections hook.
	* simple-object-mach-o.c (simple_object_mach_o_functions): Likewise.
	* simple-object-xcoff.c (simple_object_xcoff_functions): Likewise.
	* simple-object-elf.c (SHT_NULL, SHT_SYMTAB, SHT_RELA, SHT_REL,
	SHT_GROUP): Add various sectopn header types.
	(SHF_EXCLUDE): Add flag.
	(Elf32_External_Sym, Elf64_External_Sym): Add symbol struct.
	(ELF_ST_BIND, ELF_ST_TYPE, ELF_ST_INFO): Add accessors.
	(STT_OBJECT, STT_FUNC, STT_TLS, STT_GNU_IFUNC): Add Symbol types.
	(STV_DEFAULT): Add symbol visibility.
	(SHN_COMMON): Add special section index name.
	(struct simple_object_elf_write): New.
	(simple_object_elf_start_write): Adjust for new private data.
	(simple_object_elf_write_shdr): Pass in values for all fields
	we write.
	(simple_object_elf_write_to_file): Adjust.  Copy from recorded
	section headers if requested.
	(simple_object_elf_release_write): Release private data.
	(simple_object_elf_copy_lto_debug_sections): Copy and rename sections
	as denoted by PFN and all their dependences, symbols and relocations
	to the empty destination file.
	(simple_object_elf_functions): Adjust for copy_lto_debug_sections hook.

        gcc/
        * debug.h (struct gcc_debug_hooks): Add die_ref_for_decl and
        register_external_die hooks.
        (debug_false_tree_charstarstar_uhwistar): Declare.
        (debug_nothing_tree_charstar_uhwi): Likewise.
        * debug.c (do_nothing_debug_hooks): Adjust.
        (debug_false_tree_charstarstar_uhwistar): New do nothing.
        (debug_nothing_tree_charstar_uhwi): Likewise.
        * dbxout.c (dbx_debug_hooks): Adjust.
        (xcoff_debug_hooks): Likewise.
        * sdbout.c (sdb_debug_hooks): Likewise.
        * vmsdbgout.c (vmsdbg_debug_hooks): Likewise.
        * dwarf2out.c (macinfo_label_base): New global.
	(dwarf2out_register_external_die): New function for the
	register_external_die hook.
        (dwarf2out_die_ref_for_decl): Likewise for die_ref_for_decl.
        (dwarf2_debug_hooks): Use them.
        (dwarf2_lineno_debug_hooks): Adjust.
        (struct die_struct): Add with_offset flag.
        (DEBUG_LTO_DWO_INFO_SECTION, DEBUG_LTO_INFO_SECTION,
        DEBUG_LTO_DWO_ABBREV_SECTION, DEBUG_LTO_ABBREV_SECTION,
        DEBUG_LTO_DWO_MACINFO_SECTION, DEBUG_LTO_MACINFO_SECTION,
        DEBUG_LTO_DWO_MACRO_SECTION, DEBUG_LTO_MACRO_SECTION,
        DEBUG_LTO_LINE_SECTION, DEBUG_LTO_DWO_STR_OFFSETS_SECTION,
        DEBUG_LTO_STR_DWO_SECTION, DEBUG_STR_LTO_SECTION): New macros
        defining section names for the early LTO debug variants.
	(reset_indirect_string): New helper.
        (add_AT_external_die_ref): Helper for dwarf2out_register_external_die.
        (print_dw_val): Add support for offsetted symbol references.
	(get_ultimate_context): Split out from is_cxx.
	(is_cxx): Use get_ultimate_context.
	(is_fortran): Add decl overload.
        (compute_comp_unit_symbol): Split out worker from
	compute_section_prefix.
        (compute_section_prefix): Call compute_comp_unit_symbol and
	set comdat_type_p here.
        (output_die): Skip DIE symbol output for the LTO added one.
        Handle DIE symbol references with offset.
        (output_comp_unit): Guard section name mangling properly.
        For LTO debug sections emit a symbol at the section beginning
        which we use to refer to its DIEs.
        (add_abstract_origin_attribute): For DIEs registered via
        dwarf2out_register_external_die directly refer to the early
        DIE rather than indirectly through the shadow one we created.
	Remove obsolete call to dwarf2out_abstract_function for
	non-function/block origins.
        (gen_array_type_die): When generating early LTO debug do
        not emit DW_AT_string_length.
        (gen_formal_parameter_die): Do not re-create DIEs for PARM_DECLs
        late when in LTO.  As suggested place a gcc_unreachable for
	the DECL_ABSTRACT_P case.
        (gen_subprogram_die): Avoid another specification DIE
        for early built declarations/definitions for the late LTO case.
        (gen_variable_die): Add type references for late duplicated VLA dies
        when in late LTO.
        (gen_inlined_subroutine_die): Do not call dwarf2out_abstract_function,
        we have the abstract instance already.
        (process_scope_var): Adjust decl DIE contexts in LTO which
        first puts them in limbo.
        (gen_decl_die): Do not generate type DIEs late apart from
        types for VLAs or for decls we do not yet have a DIE.  Do not
	call dwarf2out_abstract_function late.
        (dwarf2out_early_global_decl): Make sure to create DIEs
        for abstract instances of a decl first.
        (dwarf2out_late_global_decl): Adjust comment.
        (output_macinfo_op): With multiple macro sections use
	macinfo_label_base to distinguish labels.
        (output_macinfo): Likewise.  Update macinfo_label_base.
	Pass in the line info label.
	(note_variable_value_in_expr): When generating LTO resolve
	all variable values here by generating DIEs as needed.
        (init_sections_and_labels): Add early LTO debug flag parameter
        and generate different sections and names if set.  Add generation
        counter for the labels so we can have multiple of them.
        (reset_dies): Helper to allow DIEs to be output multiple times.
        (dwarf2out_finish): When outputting DIEs to the fat part of an
	LTO object first reset DIEs.
        (dwarf2out_early_finish): Output early DIEs when generating LTO.
	(modified_type_die): Check for decl_ultimate_origin being self
	before recursing.
	(gen_type_die_with_usage): Likewise.
	(gen_typedef_die): Allow decl_ultimate_origin being self.
        (set_decl_abstract_flags): Remove.
        (set_block_abstract_flags): Likewise.
        (dwarf2out_abstract_function): Treat the early generated DIEs
        as the abstract copy and only add DW_AT_inline and
        DW_AT_artificial here and call set_decl_origin_self.
	If the DIE has an abstract origin don't do anything.
	* tree.c (free_lang_data): Build a dummy TRANSLATION_UNIT_DECL
	if we have none yet (Go fails to build one, PR78628).
	(variably_modified_type_p): Prevent endless recursion for Ada
	cyclic pointer types.
        * lto-streamer-in.c: Include debug.h.
        (dref_queue): New global.
        (lto_read_tree_1): Stream in DIE references.
        (lto_input_tree): Register DIE references.
	(input_function): Stream DECL_DEBUG_ARGS.
        * lto-streamer-out.c: Include debug.h.
        (lto_write_tree_1): Output DIE references.
        (DFS::DFS_write_tree_body): Follow DECL_ABSTRACT_ORIGIN.
	Force a TRANSLATION_UNIT_DECL DECL_CONTEXT for file-scope decls.
	(output_function): Stream DECL_DEBUG_ARGS.
        * tree-streamer-in.c (lto_input_ts_decl_common_tree_pointers):
        Stream DECL_ABSTRACT_ORIGIN.
        * tree-streamer-out.c (write_ts_decl_common_tree_pointers): Likewise.
	(write_ts_decl_minimal_tree_pointers): Force a TRANSLATION_UNIT_DECL
	DECL_CONTEXT for file-scope decls.
        * lto-streamer.h (struct dref_entry): Declare.
        (dref_queue): Likewise.
	* cfgexpand.c (pass_expand::execute): Do not call the
	outlining_inline_function hook here.
        * lto-wrapper.c (debug_obj): New global.
        (tool_cleanup): Unlink it if required.
        (debug_objcopy): New function.
        (run_gcc): Handle early debug sections in the IL files by
        extracting them to separate files, partially linkin them and
        feeding the result back as result to the linker.

        * config/darwin.h (DEBUG_LTO_INFO_SECTION, DEBUG_LTO_ABBREV_SECTION,
        DEBUG_LTO_MACINFO_SECTION, DEBUG_LTO_LINE_SECTION,
        DEBUG_STR_LTO_SECTION, DEBUG_LTO_MACRO_SECTION): Put early debug
        sections into a separate segment.
        * config/darwin.c (darwin_asm_named_section): Handle __GNU_DWARF_LTO
        segments.
        (darwin_asm_dwarf_section): Likewise.
        (darwin_asm_output_dwarf_offset): Likewise.

	* config/i386/i386.c (make_resolver_func): Set DECL_IGNORED_P.

        lto/
        * lto.c (unify_scc): Truncate DIE reference queue for dropped SCCs.
        (lto_read_decls): Process TRANSLATION_UNIT_DECLs.  Remove
        TYPE_DECL debug processing, register DIE references from
        prevailing SCCs with the debug machinery.
        (lto_section_with_id): Handle LTO debug sections.

	libstdc++/
	* testsuite/libstdc++-prettyprinters/prettyprinters.exp: Run all
	tests with -flto as well if supported.

        testsuite/
	* c-c++-common/asan/global-overflow-1.c: Adjust diagnostic location
	regex to handle the LTO case.
	* c-c++-common/asan/heap-overflow-1.c: Likewise.
	* c-c++-common/asan/misalign-1.c: Likewise.
	* c-c++-common/asan/misalign-2.c: Likewise.
	* c-c++-common/asan/null-deref-1.c: Likewise.
	* c-c++-common/asan/stack-overflow-1.c: Likewise.
	* c-c++-common/asan/strncpy-overflow-1.c: Likewise.
	* c-c++-common/asan/use-after-free-1.c: Likewise.
	* c-c++-common/asan/alloca_big_alignment.c: Likewise.
	* c-c++-common/asan/alloca_detect_custom_size.c: Likewise.
	* c-c++-common/asan/alloca_overflow_partial.c: Likewise.
	* c-c++-common/asan/alloca_overflow_right.c: Likewise.
	* c-c++-common/asan/alloca_underflow_left.c: Likewise.
	* g++.dg/asan/large-func-test-1.C: Likewise.
	* gfortran.dg/save_6.f90: Add -flto -g variant of save_5.f90.

From-SVN: r251220
2017-08-21 10:29:00 +00:00

1380 lines
40 KiB
C

/* simple-object-mach-o.c -- routines to manipulate Mach-O object files.
Copyright (C) 2010-2017 Free Software Foundation, Inc.
Written by Ian Lance Taylor, Google.
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 2, 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, 51 Franklin Street - Fifth Floor,
Boston, MA 02110-1301, USA. */
#include "config.h"
#include "libiberty.h"
#include "simple-object.h"
#include <stddef.h>
#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#endif
#ifdef HAVE_STDINT_H
#include <stdint.h>
#endif
#ifdef HAVE_STRING_H
#include <string.h>
#endif
#ifdef HAVE_INTTYPES_H
#include <inttypes.h>
#endif
#include "simple-object-common.h"
/* Mach-O structures and constants. */
/* Mach-O header (32-bit version). */
struct mach_o_header_32
{
unsigned char magic[4]; /* Magic number. */
unsigned char cputype[4]; /* CPU that this object is for. */
unsigned char cpusubtype[4]; /* CPU subtype. */
unsigned char filetype[4]; /* Type of file. */
unsigned char ncmds[4]; /* Number of load commands. */
unsigned char sizeofcmds[4]; /* Total size of load commands. */
unsigned char flags[4]; /* Flags for special featues. */
};
/* Mach-O header (64-bit version). */
struct mach_o_header_64
{
unsigned char magic[4]; /* Magic number. */
unsigned char cputype[4]; /* CPU that this object is for. */
unsigned char cpusubtype[4]; /* CPU subtype. */
unsigned char filetype[4]; /* Type of file. */
unsigned char ncmds[4]; /* Number of load commands. */
unsigned char sizeofcmds[4]; /* Total size of load commands. */
unsigned char flags[4]; /* Flags for special featues. */
unsigned char reserved[4]; /* Reserved. Duh. */
};
/* For magic field in header. */
#define MACH_O_MH_MAGIC 0xfeedface
#define MACH_O_MH_MAGIC_64 0xfeedfacf
/* For filetype field in header. */
#define MACH_O_MH_OBJECT 0x01
/* A Mach-O file is a list of load commands. This is the header of a
load command. */
struct mach_o_load_command
{
unsigned char cmd[4]; /* The type of load command. */
unsigned char cmdsize[4]; /* Size in bytes of entire command. */
};
/* For cmd field in load command. */
#define MACH_O_LC_SEGMENT 0x01
#define MACH_O_LC_SEGMENT_64 0x19
/* LC_SEGMENT load command. */
struct mach_o_segment_command_32
{
unsigned char cmd[4]; /* The type of load command (LC_SEGMENT). */
unsigned char cmdsize[4]; /* Size in bytes of entire command. */
unsigned char segname[16]; /* Name of this segment. */
unsigned char vmaddr[4]; /* Virtual memory address of this segment. */
unsigned char vmsize[4]; /* Size there, in bytes. */
unsigned char fileoff[4]; /* Offset in bytes of the data to be mapped. */
unsigned char filesize[4]; /* Size in bytes on disk. */
unsigned char maxprot[4]; /* Maximum permitted vmem protection. */
unsigned char initprot[4]; /* Initial vmem protection. */
unsigned char nsects[4]; /* Number of sections in this segment. */
unsigned char flags[4]; /* Flags that affect the loading. */
};
/* LC_SEGMENT_64 load command. */
struct mach_o_segment_command_64
{
unsigned char cmd[4]; /* The type of load command (LC_SEGMENT_64). */
unsigned char cmdsize[4]; /* Size in bytes of entire command. */
unsigned char segname[16]; /* Name of this segment. */
unsigned char vmaddr[8]; /* Virtual memory address of this segment. */
unsigned char vmsize[8]; /* Size there, in bytes. */
unsigned char fileoff[8]; /* Offset in bytes of the data to be mapped. */
unsigned char filesize[8]; /* Size in bytes on disk. */
unsigned char maxprot[4]; /* Maximum permitted vmem protection. */
unsigned char initprot[4]; /* Initial vmem protection. */
unsigned char nsects[4]; /* Number of sections in this segment. */
unsigned char flags[4]; /* Flags that affect the loading. */
};
/* 32-bit section header. */
struct mach_o_section_32
{
unsigned char sectname[16]; /* Section name. */
unsigned char segname[16]; /* Segment that the section belongs to. */
unsigned char addr[4]; /* Address of this section in memory. */
unsigned char size[4]; /* Size in bytes of this section. */
unsigned char offset[4]; /* File offset of this section. */
unsigned char align[4]; /* log2 of this section's alignment. */
unsigned char reloff[4]; /* File offset of this section's relocs. */
unsigned char nreloc[4]; /* Number of relocs for this section. */
unsigned char flags[4]; /* Section flags/attributes. */
unsigned char reserved1[4];
unsigned char reserved2[4];
};
/* 64-bit section header. */
struct mach_o_section_64
{
unsigned char sectname[16]; /* Section name. */
unsigned char segname[16]; /* Segment that the section belongs to. */
unsigned char addr[8]; /* Address of this section in memory. */
unsigned char size[8]; /* Size in bytes of this section. */
unsigned char offset[4]; /* File offset of this section. */
unsigned char align[4]; /* log2 of this section's alignment. */
unsigned char reloff[4]; /* File offset of this section's relocs. */
unsigned char nreloc[4]; /* Number of relocs for this section. */
unsigned char flags[4]; /* Section flags/attributes. */
unsigned char reserved1[4];
unsigned char reserved2[4];
unsigned char reserved3[4];
};
/* Flags for Mach-O sections. */
#define MACH_O_S_ATTR_DEBUG 0x02000000
/* The length of a segment or section name. */
#define MACH_O_NAME_LEN (16)
/* A GNU specific extension for long section names. */
#define GNU_SECTION_NAMES "__section_names"
/* A GNU-specific extension to wrap multiple sections using three
mach-o sections within a given segment. The section '__wrapper_sects'
is subdivided according to the index '__wrapper_index' and each sub
sect is named according to the names supplied in '__wrapper_names'. */
#define GNU_WRAPPER_SECTS "__wrapper_sects"
#define GNU_WRAPPER_INDEX "__wrapper_index"
#define GNU_WRAPPER_NAMES "__wrapper_names"
/* Private data for an simple_object_read. */
struct simple_object_mach_o_read
{
/* User specified segment name. */
char *segment_name;
/* Magic number. */
unsigned int magic;
/* Whether this file is big-endian. */
int is_big_endian;
/* CPU type from header. */
unsigned int cputype;
/* CPU subtype from header. */
unsigned int cpusubtype;
/* Number of commands, from header. */
unsigned int ncmds;
/* Flags from header. */
unsigned int flags;
/* Reserved field from header, only used on 64-bit. */
unsigned int reserved;
};
/* Private data for an simple_object_attributes. */
struct simple_object_mach_o_attributes
{
/* Magic number. */
unsigned int magic;
/* Whether this file is big-endian. */
int is_big_endian;
/* CPU type from header. */
unsigned int cputype;
/* CPU subtype from header. */
unsigned int cpusubtype;
/* Flags from header. */
unsigned int flags;
/* Reserved field from header, only used on 64-bit. */
unsigned int reserved;
};
/* See if we have a Mach-O MH_OBJECT file:
A standard MH_OBJECT (from as) will have three load commands:
0 - LC_SEGMENT/LC_SEGMENT64
1 - LC_SYMTAB
2 - LC_DYSYMTAB
The LC_SEGMENT/LC_SEGMENT64 will introduce a single anonymous segment
containing all the sections.
Files written by simple-object will have only the segment command
(no symbol tables). */
static void *
simple_object_mach_o_match (
unsigned char header[SIMPLE_OBJECT_MATCH_HEADER_LEN],
int descriptor,
off_t offset,
const char *segment_name,
const char **errmsg,
int *err)
{
unsigned int magic;
int is_big_endian;
unsigned int (*fetch_32) (const unsigned char *);
unsigned int filetype;
struct simple_object_mach_o_read *omr;
unsigned char buf[sizeof (struct mach_o_header_64)];
unsigned char *b;
magic = simple_object_fetch_big_32 (header);
if (magic == MACH_O_MH_MAGIC || magic == MACH_O_MH_MAGIC_64)
is_big_endian = 1;
else
{
magic = simple_object_fetch_little_32 (header);
if (magic == MACH_O_MH_MAGIC || magic == MACH_O_MH_MAGIC_64)
is_big_endian = 0;
else
{
*errmsg = NULL;
*err = 0;
return NULL;
}
}
#ifndef UNSIGNED_64BIT_TYPE
if (magic == MACH_O_MH_MAGIC_64)
{
*errmsg = "64-bit Mach-O objects not supported";
*err = 0;
return NULL;
}
#endif
/* We require the user to provide a segment name. This is
unfortunate but I don't see any good choices here. */
if (segment_name == NULL)
{
*errmsg = "Mach-O file found but no segment name specified";
*err = 0;
return NULL;
}
if (strlen (segment_name) > MACH_O_NAME_LEN)
{
*errmsg = "Mach-O segment name too long";
*err = 0;
return NULL;
}
/* The 32-bit and 64-bit headers are similar enough that we can use
the same code. */
fetch_32 = (is_big_endian
? simple_object_fetch_big_32
: simple_object_fetch_little_32);
if (!simple_object_internal_read (descriptor, offset, buf,
(magic == MACH_O_MH_MAGIC
? sizeof (struct mach_o_header_32)
: sizeof (struct mach_o_header_64)),
errmsg, err))
return NULL;
b = &buf[0];
filetype = (*fetch_32) (b + offsetof (struct mach_o_header_32, filetype));
if (filetype != MACH_O_MH_OBJECT)
{
*errmsg = "Mach-O file is not object file";
*err = 0;
return NULL;
}
omr = XNEW (struct simple_object_mach_o_read);
omr->segment_name = xstrdup (segment_name);
omr->magic = magic;
omr->is_big_endian = is_big_endian;
omr->cputype = (*fetch_32) (b + offsetof (struct mach_o_header_32, cputype));
omr->cpusubtype = (*fetch_32) (b
+ offsetof (struct mach_o_header_32,
cpusubtype));
omr->ncmds = (*fetch_32) (b + offsetof (struct mach_o_header_32, ncmds));
omr->flags = (*fetch_32) (b + offsetof (struct mach_o_header_32, flags));
if (magic == MACH_O_MH_MAGIC)
omr->reserved = 0;
else
omr->reserved = (*fetch_32) (b
+ offsetof (struct mach_o_header_64,
reserved));
return (void *) omr;
}
/* Get the file offset and size from a section header. */
static void
simple_object_mach_o_section_info (int is_big_endian, int is_32,
const unsigned char *sechdr, off_t *offset,
size_t *size)
{
unsigned int (*fetch_32) (const unsigned char *);
ulong_type (*fetch_64) (const unsigned char *);
fetch_32 = (is_big_endian
? simple_object_fetch_big_32
: simple_object_fetch_little_32);
fetch_64 = NULL;
#ifdef UNSIGNED_64BIT_TYPE
fetch_64 = (is_big_endian
? simple_object_fetch_big_64
: simple_object_fetch_little_64);
#endif
if (is_32)
{
*offset = fetch_32 (sechdr
+ offsetof (struct mach_o_section_32, offset));
*size = fetch_32 (sechdr
+ offsetof (struct mach_o_section_32, size));
}
else
{
*offset = fetch_32 (sechdr
+ offsetof (struct mach_o_section_64, offset));
*size = fetch_64 (sechdr
+ offsetof (struct mach_o_section_64, size));
}
}
/* Handle a segment in a Mach-O Object file.
This will callback to the function pfn for each "section found" the meaning
of which depends on gnu extensions to mach-o:
If we find mach-o sections (with the segment name as specified) which also
contain: a 'sects' wrapper, an index, and a name table, we expand this into
as many sections as are specified in the index. In this case, there will
be a callback for each of these.
We will also allow an extension that permits long names (more than 16
characters) to be used with mach-o. In this case, the section name has
a specific format embedding an index into a name table, and the file must
contain such name table.
Return 1 if we should continue, 0 if the caller should return. */
#define SOMO_SECTS_PRESENT 0x01
#define SOMO_INDEX_PRESENT 0x02
#define SOMO_NAMES_PRESENT 0x04
#define SOMO_LONGN_PRESENT 0x08
#define SOMO_WRAPPING (SOMO_SECTS_PRESENT | SOMO_INDEX_PRESENT \
| SOMO_NAMES_PRESENT)
static int
simple_object_mach_o_segment (simple_object_read *sobj, off_t offset,
const unsigned char *segbuf,
int (*pfn) (void *, const char *, off_t offset,
off_t length),
void *data,
const char **errmsg, int *err)
{
struct simple_object_mach_o_read *omr =
(struct simple_object_mach_o_read *) sobj->data;
unsigned int (*fetch_32) (const unsigned char *);
int is_32;
size_t seghdrsize;
size_t sechdrsize;
size_t segname_offset;
size_t sectname_offset;
unsigned int nsects;
unsigned char *secdata;
unsigned int i;
unsigned int gnu_sections_found;
unsigned int strtab_index;
unsigned int index_index;
unsigned int nametab_index;
unsigned int sections_index;
char *strtab;
char *nametab;
unsigned char *index;
size_t strtab_size;
size_t nametab_size;
size_t index_size;
unsigned int n_wrapped_sects;
size_t wrapper_sect_size;
off_t wrapper_sect_offset = 0;
fetch_32 = (omr->is_big_endian
? simple_object_fetch_big_32
: simple_object_fetch_little_32);
is_32 = omr->magic == MACH_O_MH_MAGIC;
if (is_32)
{
seghdrsize = sizeof (struct mach_o_segment_command_32);
sechdrsize = sizeof (struct mach_o_section_32);
segname_offset = offsetof (struct mach_o_section_32, segname);
sectname_offset = offsetof (struct mach_o_section_32, sectname);
nsects = (*fetch_32) (segbuf
+ offsetof (struct mach_o_segment_command_32,
nsects));
}
else
{
seghdrsize = sizeof (struct mach_o_segment_command_64);
sechdrsize = sizeof (struct mach_o_section_64);
segname_offset = offsetof (struct mach_o_section_64, segname);
sectname_offset = offsetof (struct mach_o_section_64, sectname);
nsects = (*fetch_32) (segbuf
+ offsetof (struct mach_o_segment_command_64,
nsects));
}
/* Fetch the section headers from the segment command. */
secdata = XNEWVEC (unsigned char, nsects * sechdrsize);
if (!simple_object_internal_read (sobj->descriptor, offset + seghdrsize,
secdata, nsects * sechdrsize, errmsg, err))
{
XDELETEVEC (secdata);
return 0;
}
/* Scan for special sections that signal GNU extensions to the format. */
gnu_sections_found = 0;
index_index = nsects;
sections_index = nsects;
strtab_index = nsects;
nametab_index = nsects;
for (i = 0; i < nsects; ++i)
{
size_t nameoff;
nameoff = i * sechdrsize + segname_offset;
if (strcmp ((char *) secdata + nameoff, omr->segment_name) != 0)
continue;
nameoff = i * sechdrsize + sectname_offset;
if (strcmp ((char *) secdata + nameoff, GNU_WRAPPER_NAMES) == 0)
{
nametab_index = i;
gnu_sections_found |= SOMO_NAMES_PRESENT;
}
else if (strcmp ((char *) secdata + nameoff, GNU_WRAPPER_INDEX) == 0)
{
index_index = i;
gnu_sections_found |= SOMO_INDEX_PRESENT;
}
else if (strcmp ((char *) secdata + nameoff, GNU_WRAPPER_SECTS) == 0)
{
sections_index = i;
gnu_sections_found |= SOMO_SECTS_PRESENT;
}
else if (strcmp ((char *) secdata + nameoff, GNU_SECTION_NAMES) == 0)
{
strtab_index = i;
gnu_sections_found |= SOMO_LONGN_PRESENT;
}
}
/* If any of the special wrapper section components is present, then
they all should be. */
if ((gnu_sections_found & SOMO_WRAPPING) != 0)
{
off_t nametab_offset;
off_t index_offset;
if ((gnu_sections_found & SOMO_WRAPPING) != SOMO_WRAPPING)
{
*errmsg = "GNU Mach-o section wrapper: required section missing";
*err = 0; /* No useful errno. */
XDELETEVEC (secdata);
return 0;
}
/* Fetch the name table. */
simple_object_mach_o_section_info (omr->is_big_endian, is_32,
secdata + nametab_index * sechdrsize,
&nametab_offset, &nametab_size);
nametab = XNEWVEC (char, nametab_size);
if (!simple_object_internal_read (sobj->descriptor,
sobj->offset + nametab_offset,
(unsigned char *) nametab, nametab_size,
errmsg, err))
{
XDELETEVEC (nametab);
XDELETEVEC (secdata);
return 0;
}
/* Fetch the index. */
simple_object_mach_o_section_info (omr->is_big_endian, is_32,
secdata + index_index * sechdrsize,
&index_offset, &index_size);
index = XNEWVEC (unsigned char, index_size);
if (!simple_object_internal_read (sobj->descriptor,
sobj->offset + index_offset,
index, index_size,
errmsg, err))
{
XDELETEVEC (index);
XDELETEVEC (nametab);
XDELETEVEC (secdata);
return 0;
}
/* The index contains 4 unsigned ints per sub-section:
sub-section offset/length, sub-section name/length.
We fix this for both 32 and 64 bit mach-o for now, since
other fields limit the maximum size of an object to 4G. */
n_wrapped_sects = index_size / 16;
/* Get the parameters for the wrapper too. */
simple_object_mach_o_section_info (omr->is_big_endian, is_32,
secdata + sections_index * sechdrsize,
&wrapper_sect_offset,
&wrapper_sect_size);
}
else
{
index = NULL;
index_size = 0;
nametab = NULL;
nametab_size = 0;
n_wrapped_sects = 0;
}
/* If we have a long names section, fetch it. */
if ((gnu_sections_found & SOMO_LONGN_PRESENT) != 0)
{
off_t strtab_offset;
simple_object_mach_o_section_info (omr->is_big_endian, is_32,
secdata + strtab_index * sechdrsize,
&strtab_offset, &strtab_size);
strtab = XNEWVEC (char, strtab_size);
if (!simple_object_internal_read (sobj->descriptor,
sobj->offset + strtab_offset,
(unsigned char *) strtab, strtab_size,
errmsg, err))
{
XDELETEVEC (strtab);
XDELETEVEC (index);
XDELETEVEC (nametab);
XDELETEVEC (secdata);
return 0;
}
}
else
{
strtab = NULL;
strtab_size = 0;
strtab_index = nsects;
}
/* Process the sections. */
for (i = 0; i < nsects; ++i)
{
const unsigned char *sechdr;
char namebuf[MACH_O_NAME_LEN * 2 + 2];
char *name;
off_t secoffset;
size_t secsize;
int l;
sechdr = secdata + i * sechdrsize;
/* We've already processed the long section names. */
if ((gnu_sections_found & SOMO_LONGN_PRESENT) != 0
&& i == strtab_index)
continue;
/* We only act on the segment named. */
if (strcmp ((char *) sechdr + segname_offset, omr->segment_name) != 0)
continue;
/* Process sections associated with the wrapper. */
if ((gnu_sections_found & SOMO_WRAPPING) != 0)
{
if (i == nametab_index || i == index_index)
continue;
if (i == sections_index)
{
unsigned int j;
for (j = 0; j < n_wrapped_sects; ++j)
{
unsigned int subsect_offset, subsect_length, name_offset;
subsect_offset = (*fetch_32) (index + 16 * j);
subsect_length = (*fetch_32) (index + 16 * j + 4);
name_offset = (*fetch_32) (index + 16 * j + 8);
/* We don't need the name_length yet. */
secoffset = wrapper_sect_offset + subsect_offset;
secsize = subsect_length;
name = nametab + name_offset;
if (!(*pfn) (data, name, secoffset, secsize))
{
*errmsg = NULL;
*err = 0;
XDELETEVEC (index);
XDELETEVEC (nametab);
XDELETEVEC (strtab);
XDELETEVEC (secdata);
return 0;
}
}
continue;
}
}
if ((gnu_sections_found & SOMO_LONGN_PRESENT) != 0)
{
memcpy (namebuf, sechdr + sectname_offset, MACH_O_NAME_LEN);
namebuf[MACH_O_NAME_LEN] = '\0';
name = &namebuf[0];
if (strtab != NULL && name[0] == '_' && name[1] == '_')
{
unsigned long stringoffset;
if (sscanf (name + 2, "%08lX", &stringoffset) == 1)
{
if (stringoffset >= strtab_size)
{
*errmsg = "section name offset out of range";
*err = 0;
XDELETEVEC (index);
XDELETEVEC (nametab);
XDELETEVEC (strtab);
XDELETEVEC (secdata);
return 0;
}
name = strtab + stringoffset;
}
}
}
else
{
/* Otherwise, make a name like __segment,__section as per the
convention in mach-o asm. */
name = &namebuf[0];
memcpy (namebuf, (char *) sechdr + segname_offset, MACH_O_NAME_LEN);
namebuf[MACH_O_NAME_LEN] = '\0';
l = strlen (namebuf);
namebuf[l] = ',';
memcpy (namebuf + l + 1, (char *) sechdr + sectname_offset,
MACH_O_NAME_LEN);
namebuf[l + 1 + MACH_O_NAME_LEN] = '\0';
}
simple_object_mach_o_section_info (omr->is_big_endian, is_32, sechdr,
&secoffset, &secsize);
if (!(*pfn) (data, name, secoffset, secsize))
{
*errmsg = NULL;
*err = 0;
XDELETEVEC (index);
XDELETEVEC (nametab);
XDELETEVEC (strtab);
XDELETEVEC (secdata);
return 0;
}
}
XDELETEVEC (index);
XDELETEVEC (nametab);
XDELETEVEC (strtab);
XDELETEVEC (secdata);
return 1;
}
/* Find all sections in a Mach-O file. */
static const char *
simple_object_mach_o_find_sections (simple_object_read *sobj,
int (*pfn) (void *, const char *,
off_t offset, off_t length),
void *data,
int *err)
{
struct simple_object_mach_o_read *omr =
(struct simple_object_mach_o_read *) sobj->data;
off_t offset;
size_t seghdrsize;
unsigned int (*fetch_32) (const unsigned char *);
const char *errmsg;
unsigned int i;
if (omr->magic == MACH_O_MH_MAGIC)
{
offset = sizeof (struct mach_o_header_32);
seghdrsize = sizeof (struct mach_o_segment_command_32);
}
else
{
offset = sizeof (struct mach_o_header_64);
seghdrsize = sizeof (struct mach_o_segment_command_64);
}
fetch_32 = (omr->is_big_endian
? simple_object_fetch_big_32
: simple_object_fetch_little_32);
for (i = 0; i < omr->ncmds; ++i)
{
unsigned char loadbuf[sizeof (struct mach_o_load_command)];
unsigned int cmd;
unsigned int cmdsize;
if (!simple_object_internal_read (sobj->descriptor,
sobj->offset + offset,
loadbuf,
sizeof (struct mach_o_load_command),
&errmsg, err))
return errmsg;
cmd = (*fetch_32) (loadbuf + offsetof (struct mach_o_load_command, cmd));
cmdsize = (*fetch_32) (loadbuf
+ offsetof (struct mach_o_load_command, cmdsize));
if (cmd == MACH_O_LC_SEGMENT || cmd == MACH_O_LC_SEGMENT_64)
{
unsigned char segbuf[sizeof (struct mach_o_segment_command_64)];
int r;
if (!simple_object_internal_read (sobj->descriptor,
sobj->offset + offset,
segbuf, seghdrsize, &errmsg, err))
return errmsg;
r = simple_object_mach_o_segment (sobj, offset, segbuf, pfn,
data, &errmsg, err);
if (!r)
return errmsg;
}
offset += cmdsize;
}
return NULL;
}
/* Fetch the attributes for an simple_object_read. */
static void *
simple_object_mach_o_fetch_attributes (simple_object_read *sobj,
const char **errmsg ATTRIBUTE_UNUSED,
int *err ATTRIBUTE_UNUSED)
{
struct simple_object_mach_o_read *omr =
(struct simple_object_mach_o_read *) sobj->data;
struct simple_object_mach_o_attributes *ret;
ret = XNEW (struct simple_object_mach_o_attributes);
ret->magic = omr->magic;
ret->is_big_endian = omr->is_big_endian;
ret->cputype = omr->cputype;
ret->cpusubtype = omr->cpusubtype;
ret->flags = omr->flags;
ret->reserved = omr->reserved;
return ret;
}
/* Release the private data for an simple_object_read. */
static void
simple_object_mach_o_release_read (void *data)
{
struct simple_object_mach_o_read *omr =
(struct simple_object_mach_o_read *) data;
free (omr->segment_name);
XDELETE (omr);
}
/* Compare two attributes structures. */
static const char *
simple_object_mach_o_attributes_merge (void *todata, void *fromdata, int *err)
{
struct simple_object_mach_o_attributes *to =
(struct simple_object_mach_o_attributes *) todata;
struct simple_object_mach_o_attributes *from =
(struct simple_object_mach_o_attributes *) fromdata;
if (to->magic != from->magic
|| to->is_big_endian != from->is_big_endian
|| to->cputype != from->cputype)
{
*err = 0;
return "Mach-O object format mismatch";
}
return NULL;
}
/* Release the private data for an attributes structure. */
static void
simple_object_mach_o_release_attributes (void *data)
{
XDELETE (data);
}
/* Prepare to write out a file. */
static void *
simple_object_mach_o_start_write (void *attributes_data,
const char **errmsg ATTRIBUTE_UNUSED,
int *err ATTRIBUTE_UNUSED)
{
struct simple_object_mach_o_attributes *attrs =
(struct simple_object_mach_o_attributes *) attributes_data;
struct simple_object_mach_o_attributes *ret;
/* We're just going to record the attributes, but we need to make a
copy because the user may delete them. */
ret = XNEW (struct simple_object_mach_o_attributes);
*ret = *attrs;
return ret;
}
/* Write out the header of a Mach-O file. */
static int
simple_object_mach_o_write_header (simple_object_write *sobj, int descriptor,
size_t nsects, const char **errmsg,
int *err)
{
struct simple_object_mach_o_attributes *attrs =
(struct simple_object_mach_o_attributes *) sobj->data;
void (*set_32) (unsigned char *, unsigned int);
unsigned char hdrbuf[sizeof (struct mach_o_header_64)];
unsigned char *hdr;
size_t wrsize;
set_32 = (attrs->is_big_endian
? simple_object_set_big_32
: simple_object_set_little_32);
memset (hdrbuf, 0, sizeof hdrbuf);
/* The 32-bit and 64-bit headers start out the same. */
hdr = &hdrbuf[0];
set_32 (hdr + offsetof (struct mach_o_header_32, magic), attrs->magic);
set_32 (hdr + offsetof (struct mach_o_header_32, cputype), attrs->cputype);
set_32 (hdr + offsetof (struct mach_o_header_32, cpusubtype),
attrs->cpusubtype);
set_32 (hdr + offsetof (struct mach_o_header_32, filetype), MACH_O_MH_OBJECT);
set_32 (hdr + offsetof (struct mach_o_header_32, ncmds), 1);
set_32 (hdr + offsetof (struct mach_o_header_32, flags), attrs->flags);
if (attrs->magic == MACH_O_MH_MAGIC)
{
wrsize = sizeof (struct mach_o_header_32);
set_32 (hdr + offsetof (struct mach_o_header_32, sizeofcmds),
(sizeof (struct mach_o_segment_command_32)
+ nsects * sizeof (struct mach_o_section_32)));
}
else
{
set_32 (hdr + offsetof (struct mach_o_header_64, sizeofcmds),
(sizeof (struct mach_o_segment_command_64)
+ nsects * sizeof (struct mach_o_section_64)));
set_32 (hdr + offsetof (struct mach_o_header_64, reserved),
attrs->reserved);
wrsize = sizeof (struct mach_o_header_64);
}
return simple_object_internal_write (descriptor, 0, hdrbuf, wrsize,
errmsg, err);
}
/* Write a Mach-O section header. */
static int
simple_object_mach_o_write_section_header (simple_object_write *sobj,
int descriptor,
size_t sechdr_offset,
const char *name, const char *segn,
size_t secaddr, size_t secsize,
size_t offset, unsigned int align,
const char **errmsg, int *err)
{
struct simple_object_mach_o_attributes *attrs =
(struct simple_object_mach_o_attributes *) sobj->data;
void (*set_32) (unsigned char *, unsigned int);
unsigned char hdrbuf[sizeof (struct mach_o_section_64)];
unsigned char *hdr;
size_t sechdrsize;
set_32 = (attrs->is_big_endian
? simple_object_set_big_32
: simple_object_set_little_32);
memset (hdrbuf, 0, sizeof hdrbuf);
hdr = &hdrbuf[0];
if (attrs->magic == MACH_O_MH_MAGIC)
{
strncpy ((char *) hdr + offsetof (struct mach_o_section_32, sectname),
name, MACH_O_NAME_LEN);
strncpy ((char *) hdr + offsetof (struct mach_o_section_32, segname),
segn, MACH_O_NAME_LEN);
set_32 (hdr + offsetof (struct mach_o_section_32, addr), secaddr);
set_32 (hdr + offsetof (struct mach_o_section_32, size), secsize);
set_32 (hdr + offsetof (struct mach_o_section_32, offset), offset);
set_32 (hdr + offsetof (struct mach_o_section_32, align), align);
/* reloff left as zero. */
/* nreloc left as zero. */
set_32 (hdr + offsetof (struct mach_o_section_32, flags),
MACH_O_S_ATTR_DEBUG);
/* reserved1 left as zero. */
/* reserved2 left as zero. */
sechdrsize = sizeof (struct mach_o_section_32);
}
else
{
#ifdef UNSIGNED_64BIT_TYPE
void (*set_64) (unsigned char *, ulong_type);
set_64 = (attrs->is_big_endian
? simple_object_set_big_64
: simple_object_set_little_64);
strncpy ((char *) hdr + offsetof (struct mach_o_section_64, sectname),
name, MACH_O_NAME_LEN);
strncpy ((char *) hdr + offsetof (struct mach_o_section_64, segname),
segn, MACH_O_NAME_LEN);
set_64 (hdr + offsetof (struct mach_o_section_64, addr), secaddr);
set_64 (hdr + offsetof (struct mach_o_section_64, size), secsize);
set_32 (hdr + offsetof (struct mach_o_section_64, offset), offset);
set_32 (hdr + offsetof (struct mach_o_section_64, align), align);
/* reloff left as zero. */
/* nreloc left as zero. */
set_32 (hdr + offsetof (struct mach_o_section_64, flags),
MACH_O_S_ATTR_DEBUG);
/* reserved1 left as zero. */
/* reserved2 left as zero. */
/* reserved3 left as zero. */
#endif
sechdrsize = sizeof (struct mach_o_section_64);
}
return simple_object_internal_write (descriptor, sechdr_offset, hdr,
sechdrsize, errmsg, err);
}
/* Write out the single (anonymous) segment containing the sections of a Mach-O
Object file.
As a GNU extension to mach-o, when the caller specifies a segment name in
sobj->segment_name, all the sections passed will be output under a single
mach-o section header. The caller's sections are indexed within this
'wrapper' section by a table stored in a second mach-o section. Finally,
arbitrary length section names are permitted by the extension and these are
stored in a table in a third mach-o section.
Note that this is only likely to make any sense for the __GNU_LTO segment
at present.
If the wrapper extension is not in force, we assume that the section name
is in the form __SEGMENT_NAME,__section_name as per Mach-O asm. */
static int
simple_object_mach_o_write_segment (simple_object_write *sobj, int descriptor,
size_t *nsects, const char **errmsg,
int *err)
{
struct simple_object_mach_o_attributes *attrs =
(struct simple_object_mach_o_attributes *) sobj->data;
void (*set_32) (unsigned char *, unsigned int);
size_t hdrsize;
size_t seghdrsize;
size_t sechdrsize;
size_t cmdsize;
size_t offset;
size_t sechdr_offset;
size_t secaddr;
unsigned int name_offset;
simple_object_write_section *section;
unsigned char hdrbuf[sizeof (struct mach_o_segment_command_64)];
unsigned char *hdr;
size_t nsects_in;
unsigned int *index;
char *snames;
unsigned int sect;
set_32 = (attrs->is_big_endian
? simple_object_set_big_32
: simple_object_set_little_32);
/* Write out the sections first. */
if (attrs->magic == MACH_O_MH_MAGIC)
{
hdrsize = sizeof (struct mach_o_header_32);
seghdrsize = sizeof (struct mach_o_segment_command_32);
sechdrsize = sizeof (struct mach_o_section_32);
}
else
{
hdrsize = sizeof (struct mach_o_header_64);
seghdrsize = sizeof (struct mach_o_segment_command_64);
sechdrsize = sizeof (struct mach_o_section_64);
}
name_offset = 0;
*nsects = nsects_in = 0;
/* Count the number of sections we start with. */
for (section = sobj->sections; section != NULL; section = section->next)
nsects_in++;
if (sobj->segment_name != NULL)
{
/* We will only write 3 sections: wrapped data, index and names. */
*nsects = 3;
/* The index has four entries per wrapped section:
Section Offset, length, Name offset, length.
Where the offsets are based at the start of the wrapper and name
sections respectively.
The values are stored as 32 bit int for both 32 and 64 bit mach-o
since the size of a mach-o MH_OBJECT cannot exceed 4G owing to
other constraints. */
index = XNEWVEC (unsigned int, nsects_in * 4);
/* We now need to figure out the size of the names section. This just
stores the names as null-terminated c strings, packed without any
alignment padding. */
for (section = sobj->sections, sect = 0; section != NULL;
section = section->next, sect++)
{
index[sect*4+2] = name_offset;
index[sect*4+3] = strlen (section->name) + 1;
name_offset += strlen (section->name) + 1;
}
snames = XNEWVEC (char, name_offset);
}
else
{
*nsects = nsects_in;
index = NULL;
snames = NULL;
}
sechdr_offset = hdrsize + seghdrsize;
cmdsize = seghdrsize + *nsects * sechdrsize;
offset = hdrsize + cmdsize;
secaddr = 0;
for (section = sobj->sections, sect = 0;
section != NULL; section = section->next, sect++)
{
size_t mask;
size_t new_offset;
size_t secsize;
struct simple_object_write_section_buffer *buffer;
mask = (1U << section->align) - 1;
new_offset = offset + mask;
new_offset &= ~ mask;
while (new_offset > offset)
{
unsigned char zeroes[16];
size_t write;
memset (zeroes, 0, sizeof zeroes);
write = new_offset - offset;
if (write > sizeof zeroes)
write = sizeof zeroes;
if (!simple_object_internal_write (descriptor, offset, zeroes, write,
errmsg, err))
return 0;
offset += write;
}
secsize = 0;
for (buffer = section->buffers; buffer != NULL; buffer = buffer->next)
{
if (!simple_object_internal_write (descriptor, offset + secsize,
((const unsigned char *)
buffer->buffer),
buffer->size, errmsg, err))
return 0;
secsize += buffer->size;
}
if (sobj->segment_name != NULL)
{
index[sect*4+0] = (unsigned int) offset;
index[sect*4+1] = secsize;
/* Stash the section name in our table. */
memcpy (snames + index[sect * 4 + 2], section->name,
index[sect * 4 + 3]);
}
else
{
char namebuf[MACH_O_NAME_LEN + 1];
char segnbuf[MACH_O_NAME_LEN + 1];
char *comma;
/* Try to extract segment,section from the input name. */
memset (namebuf, 0, sizeof namebuf);
memset (segnbuf, 0, sizeof segnbuf);
comma = strchr (section->name, ',');
if (comma != NULL)
{
int len = comma - section->name;
len = len > MACH_O_NAME_LEN ? MACH_O_NAME_LEN : len;
strncpy (namebuf, section->name, len);
strncpy (segnbuf, comma + 1, MACH_O_NAME_LEN);
}
else /* just try to copy the name, leave segment blank. */
strncpy (namebuf, section->name, MACH_O_NAME_LEN);
if (!simple_object_mach_o_write_section_header (sobj, descriptor,
sechdr_offset,
namebuf, segnbuf,
secaddr, secsize,
offset,
section->align,
errmsg, err))
return 0;
sechdr_offset += sechdrsize;
}
offset += secsize;
secaddr += secsize;
}
if (sobj->segment_name != NULL)
{
size_t secsize;
unsigned int i;
/* Write the section header for the wrapper. */
/* Account for any initial aligment - which becomes the alignment for this
created section. */
secsize = (offset - index[0]);
if (!simple_object_mach_o_write_section_header (sobj, descriptor,
sechdr_offset,
GNU_WRAPPER_SECTS,
sobj->segment_name,
0 /*secaddr*/,
secsize, index[0],
sobj->sections->align,
errmsg, err))
return 0;
/* Subtract the wrapper section start from the begining of each sub
section. */
for (i = 1; i < nsects_in; ++i)
index[4 * i] -= index[0];
index[0] = 0;
sechdr_offset += sechdrsize;
/* Write out the section names.
... the header ...
name_offset contains the length of the section. It is not aligned. */
if (!simple_object_mach_o_write_section_header (sobj, descriptor,
sechdr_offset,
GNU_WRAPPER_NAMES,
sobj->segment_name,
0 /*secaddr*/,
name_offset,
offset,
0, errmsg, err))
return 0;
/* ... and the content.. */
if (!simple_object_internal_write (descriptor, offset,
(const unsigned char *) snames,
name_offset, errmsg, err))
return 0;
sechdr_offset += sechdrsize;
secaddr += name_offset;
offset += name_offset;
/* Now do the index, we'll align this to 4 bytes although the read code
will handle unaligned. */
offset += 3;
offset &= ~0x03;
if (!simple_object_mach_o_write_section_header (sobj, descriptor,
sechdr_offset,
GNU_WRAPPER_INDEX,
sobj->segment_name,
0 /*secaddr*/,
nsects_in * 16,
offset,
2, errmsg, err))
return 0;
/* ... and the content.. */
if (!simple_object_internal_write (descriptor, offset,
(const unsigned char *) index,
nsects_in*16, errmsg, err))
return 0;
XDELETEVEC (index);
XDELETEVEC (snames);
}
/* Write out the segment header. */
memset (hdrbuf, 0, sizeof hdrbuf);
hdr = &hdrbuf[0];
if (attrs->magic == MACH_O_MH_MAGIC)
{
set_32 (hdr + offsetof (struct mach_o_segment_command_32, cmd),
MACH_O_LC_SEGMENT);
set_32 (hdr + offsetof (struct mach_o_segment_command_32, cmdsize),
cmdsize);
/* MH_OBJECTS have a single, anonymous, segment - so the segment name
is left empty. */
/* vmaddr left as zero. */
/* vmsize left as zero. */
set_32 (hdr + offsetof (struct mach_o_segment_command_32, fileoff),
hdrsize + cmdsize);
set_32 (hdr + offsetof (struct mach_o_segment_command_32, filesize),
offset - (hdrsize + cmdsize));
/* maxprot left as zero. */
/* initprot left as zero. */
set_32 (hdr + offsetof (struct mach_o_segment_command_32, nsects),
*nsects);
/* flags left as zero. */
}
else
{
#ifdef UNSIGNED_64BIT_TYPE
void (*set_64) (unsigned char *, ulong_type);
set_64 = (attrs->is_big_endian
? simple_object_set_big_64
: simple_object_set_little_64);
set_32 (hdr + offsetof (struct mach_o_segment_command_64, cmd),
MACH_O_LC_SEGMENT);
set_32 (hdr + offsetof (struct mach_o_segment_command_64, cmdsize),
cmdsize);
/* MH_OBJECTS have a single, anonymous, segment - so the segment name
is left empty. */
/* vmaddr left as zero. */
/* vmsize left as zero. */
set_64 (hdr + offsetof (struct mach_o_segment_command_64, fileoff),
hdrsize + cmdsize);
set_64 (hdr + offsetof (struct mach_o_segment_command_64, filesize),
offset - (hdrsize + cmdsize));
/* maxprot left as zero. */
/* initprot left as zero. */
set_32 (hdr + offsetof (struct mach_o_segment_command_64, nsects),
*nsects);
/* flags left as zero. */
#endif
}
return simple_object_internal_write (descriptor, hdrsize, hdr, seghdrsize,
errmsg, err);
}
/* Write out a complete Mach-O file. */
static const char *
simple_object_mach_o_write_to_file (simple_object_write *sobj, int descriptor,
int *err)
{
size_t nsects = 0;
const char *errmsg;
if (!simple_object_mach_o_write_segment (sobj, descriptor, &nsects,
&errmsg, err))
return errmsg;
if (!simple_object_mach_o_write_header (sobj, descriptor, nsects,
&errmsg, err))
return errmsg;
return NULL;
}
/* Release the private data for an simple_object_write structure. */
static void
simple_object_mach_o_release_write (void *data)
{
XDELETE (data);
}
/* The Mach-O functions. */
const struct simple_object_functions simple_object_mach_o_functions =
{
simple_object_mach_o_match,
simple_object_mach_o_find_sections,
simple_object_mach_o_fetch_attributes,
simple_object_mach_o_release_read,
simple_object_mach_o_attributes_merge,
simple_object_mach_o_release_attributes,
simple_object_mach_o_start_write,
simple_object_mach_o_write_to_file,
simple_object_mach_o_release_write,
NULL
};