Commit Graph

90 Commits

Author SHA1 Message Date
Nick Alcock
8e6635bd14 libctf: support platforms with separate libintl
We were not using the right configure machinery to spot libintl on
platforms where it was required, leading to the spurious failure of
various configure tests (e.g. for things like ELF support in BFD).

libctf/
	* aclocal.m4: Add config/gettext-sister.m4: Shuffle into
	alphabetical order.
	* configure.ac: Add ZW_GNU_GETTEXT_SISTER_DIR.
	* config.h.in: Regenerated.
	* Makefile.in: Likewise.
	* configure: Likewise.
2020-06-26 15:56:39 +01:00
Nick Alcock
c1401ecc29 libctf: add some missing #includes.
Causes warnings on (at least) recent FreeBSD.

libctf/
	* ctf-create.c: Include <unistd.h>.
	* ctf-open-bfd.c: Likewise.
2020-06-26 15:56:39 +01:00
Nick Alcock
e755667f94 libctf, elfcpp, gold: do not assume that <byteswap.h> contains bswap_*
At least one C library (uclibc-ng) defines some of these only when
the compiler is GCC.  We might as well test for all three cases and
handle any of them being missing.

Very similar code exists in libctf and split between elfcpp and gold:
fix both.

(Also sync up elfcpp with a change made to libctf swap.h a few months
ago: since there is no out-of-line definition of the bswap replacements,
they should be declared static inline, not just inline, to prevent the
linker generating out-of-line references to them.)

	PR libctf/25120
libctf/
	* configure.ac: Check for bswap_16, bswap_32, and bswap_64 decls.
	* swap.h (bswap_16): Do not assume that presence of <byteswap.h>
	means this is declared.
	(bswap_32): Likewise.
	(bswap_64): Likewise.
	(bswap_identity_64): Remove, unused.
	* configure: Regenerated.
	* config.h.in: Likewise.
gold/
	* configure.ac: Check for bswap_16, bswap_32, and bswap_64 decls.
	* configure: Regenerated.
	* config.h.in: Likewise.
elfcpp/
	* elfcpp_swap.h (bswap_16): Do not assume that presence of
	<byteswap.h> means this is declared.  Make static inline, matching
	recent change to libctf, since there is no non-inline definition
	of these functions.
	(bswap_32): Likewise.
	(bswap_64): Likewise.
2020-06-26 15:56:39 +01:00
Nick Alcock
866706584c libctf: work with compilers not supporting GNU C attributes
The obvious fallback __attribute__ stanza was missing.

Thanks to Harald van Dijk.

	PR 25120
libctf/
	* ctf-impl.h (_libctf_printflike_): Add non-GNU-C fallback.
	(_libctf_unlikely_): Likewise.
	(_libctf_unused): Likewise.
	(_libctf_malloc_): Likewise.
2020-06-26 15:56:39 +01:00
Nick Alcock
2e428e7440 libctf: avoid nonportable __thread in CTF archive handling
This keeps archive searching threadsafe using the new bsearch_r that was
just added to libiberty.

	PR25120
libctf/
	* ctf-archive.c (search_nametbl): No longer global: declare...
	(ctf_arc_open_by_name_internal): ... here. Use bsearch_r.
	(search_modent_by_name): Take and use ARG for the nametbl.
2020-06-26 15:56:39 +01:00
Nick Alcock
2f6ecaed66 libctf, binutils: support CTF archives like objdump
objdump and readelf have one major CTF-related behavioural difference:
objdump can read .ctf sections that contain CTF archives and extract and
dump their members, while readelf cannot.  Since the linker often emits
CTF archives, this means that readelf intermittently and (from the
user's perspective) randomly fails to read CTF in files that ld emits,
with a confusing error message wrongly claiming that the CTF content is
corrupt.  This is purely because the archive-opening code in libctf was
needlessly tangled up with the BFD code, so readelf couldn't use it.

Here, we disentangle it, moving ctf_new_archive_internal from
ctf-open-bfd.c into ctf-archive.c and merging it with the helper
function in ctf-archive.c it was already using.  We add a new public API
function ctf_arc_bufopen, that looks very like ctf_bufopen but returns
an archive given suitable section data rather than a ctf_file_t: the
archive is a ctf_archive_t, so it can be called on raw CTF dictionaries
(with no archive present) and will return a single-member synthetic
"archive".

There is a tiny lifetime tweak here: before now, the archive code could
assume that the symbol section in the ctf_archive_internal wrapper
structure was always owned by BFD if it was present and should always be
freed: now, the caller can pass one in via ctf_arc_bufopen, wihch has
the usual lifetime rules for such sections (caller frees): so we add an
extra field to track whether this is an internal call from ctf-open-bfd,
in which case we still free the symbol section.

include/
	* ctf-api.h (ctf_arc_bufopen): New.
libctf/
	* ctf-impl.h (ctf_new_archive_internal): Declare.
	(ctf_arc_bufopen): Remove.
	(ctf_archive_internal) <ctfi_free_symsect>: New.
	* ctf-archive.c (ctf_arc_close): Use it.
	(ctf_arc_bufopen): Fuse into...
	(ctf_new_archive_internal): ... this, moved across from...
	* ctf-open-bfd.c: ... here.
	(ctf_bfdopen_ctfsect): Use ctf_arc_bufopen.
	* libctf.ver: Add it.
binutils/
	* readelf.c (dump_section_as_ctf): Support .ctf archives using
	ctf_arc_bufopen.  Automatically load the .ctf member of such
	archives as the parent of all other members, unless specifically
	overridden via --ctf-parent.  Split out dumping code into...
	(dump_ctf_archive_member): ... here, as in objdump, and call
	it once per archive member.
	(dump_ctf_indent_lines): Code style fix.
2020-06-26 15:56:39 +01:00
Nick Alcock
8ffcdf1823 libctf: create: forwards are always in the namespace of their referent
The C namespace a forward is located in is always the same as the
namespace of the corresponding complete type: 'struct foo' is in the
struct namespace and does not collide with, say, 'union foo'.

libctf allowed for this in many places, but inconsistently: in
particular, forward *addition* never allowed for this, and was interning
forwards in the default namespace, which is always wrong, since you can
only forward structs, unions and enums, all of which are in their own
namespaces in C.

Forward removal needs corresponding adjustment to remove the names form
the right namespace, as does ctf_rollback.

libctf/
	* ctf-create.c (ctf_add_forward): Intern in the right namespace.
	(ctf_dtd_delete): Remove correspondingly.
	(ctf_rollback): Likewise.
2020-06-26 15:56:39 +01:00
Nick Alcock
d04a47ac53 libctf: create: ctf_add_type should hand back already-added non-SoUs
When we add a type from a dictionary and then try to add it again, we
should hand it back unchanged unless it is a structure, union or enum
with a different number of members.  That's what the comment says we do.

Instead, we hand it back unchanged *only* if it is a structure, union or
enum with the same number of members: non-structs, unions and enums are
unconditionally added.  This causes extreme type bloating and (in
conjunction with the bug fixed by the next commit) can easily lead to
the same type being mistakenly added to a dictionary more than once
(which, for forwards, was not banned and led to dictionary corruption).

libctf/
	* ctf-create.c (ctf_add_type_internal): Hand back existing types
	unchanged.
2020-06-26 15:56:39 +01:00
Nick Alcock
6bbf9da892 libctf: create: don't add forwards if the type added already exists
This is what ctf_add_forward is documented to do, but it's not what it
actually does: the code is quite happy to add forwards that duplicate
existing structs, etc.

This is obviously wrong and breaks both the nondeduplicating linker
and the upcoming deduplicator, as well as allowing ordinary callers of
ctf_add_type to corrupt the dictionary by just adding the same root-
visible forward more than once.

libctf/
	* ctf-create.c (ctf_add_forward): Don't add forwards to
	types that already exist.
2020-06-26 15:56:39 +01:00
Nick Alcock
fe4c2d5563 libctf: create: non-root-visible types should not appear in name tables
We were accidentally interning newly-added and newly-opened
non-root-visible types into name tables, and removing names from name
tables when such types were removed.  This is very wrong: the whole
point of non-root-visible types is they do not go in name tables and
cannot be looked up by name.  This bug made non-root-visible types
basically identical to root-visible types, right back to the earliest
days of libctf in the Solaris era.

libctf/
	* ctf-open.c (init_types): Only intern root-visible types.
	* ctf-create.c (ctf_dtd_insert): Likewise.
	(ctf_dtd_delete): Only remove root-visible types.
	(ctf_rollback): Likewise.
	(ctf_add_generic): Adjust.
	(ctf_add_struct_sized): Adjust comment.
	(ctf_add_union_sized): Likewise.
	(ctf_add_enum): Likewise.
	* ctf-impl.h (ctf_dtd_insert): Adjust prototype.
2020-06-26 15:56:39 +01:00
John Baldwin
119789424b libctf: Mark bswap_identity_64 inline function as static.
This is similar to cbbbc402e0 and fixes
a link error with duplicately defined symbols on FreeBSD.

libctf/ChangeLog:

	* swap.h (bswap_identity_64): Make static.
2020-03-11 17:48:49 +10:30
Nick Clifton
ae77468624 Add markers for 2.34 branch to the NEWS files and ChangeLogs. 2020-01-18 13:50:25 +00:00
Joel Brobecker
eb9a7e353f Fix libctf ChangeLog date in most recent entry. 2020-01-05 09:53:14 +04:00
Eli Zaretskii
3a657c600b libctf: Add configure check for asprintf (for MinGW)
This commit fixes a compilation warning when compiling libctf
on MinGW:

    libctf/ctf-dump.c:118:8: warning: implicit declaration of function
    'asprintf'; did you mean 'vasprintf'? [-Wimplicit-function-declaration]

	 if (asprintf (&bit, " %lx: [slice 0x%x:0x%x]",
	     ^~~~~~~~
	     vasprintf

MinGW doesn't provide that function, so we depend on the one provided
by libiberty. However, the declaration is guarded by HAVE_DECL_ASPRINTF,
which we do not have in libctf's config.h.

libctf/ChangeLog:

	PR binutils/25155:
	* configure.ac: Add AC_CHECK_DECLS([asprintf]).
	* configure, config.h.in: Regenerate.
2020-01-05 09:50:27 +04:00
Alan Modra
b14ce8bfe1 Re: Update year range in copyright notice of binutils files
Add the ChangeLog entry.
2020-01-01 18:55:18 +10:30
Alan Modra
b3adc24a07 Update year range in copyright notice of binutils files 2020-01-01 18:42:54 +10:30
Simon Marchi
cbbbc402e0 libctf: mark swap.h inline functions as static
When building binutils with mingw-w64, I get the following errors:

    make[4]: Entering directory '/home/simark/build/binutils-gdb-mingw/binutils'
    /bin/sh ./libtool  --tag=CC   --mode=link ccache x86_64-w64-mingw32-gcc -W -Wall -Wstrict-prototypes -Wmissing-prototypes -Wshadow -Wstack-usage=262144 -Wno-format -Werror -I/home/simark/src/binutils-gdb/binutils/../zlib -g3 -O0 -D__USE_MINGW_ACCESS  -Wl,--stack,12582912 -o objdump.exe objdump.o dwarf.o prdbg.o rddbg.o debug.o stabs.o rdcoff.o bucomm.o version.o filemode.o elfcomm.o  ../opcodes/libopcodes.la ../libctf/libctf.la ../bfd/libbfd.la ../libiberty/libiberty.a -lintl
    libtool: link: ccache x86_64-w64-mingw32-gcc -W -Wall -Wstrict-prototypes -Wmissing-prototypes -Wshadow -Wstack-usage=262144 -Wno-format -Werror -I/home/simark/src/binutils-gdb/binutils/../zlib -g3 -O0 -D__USE_MINGW_ACCESS -Wl,--stack -Wl,12582912 -o .libs/objdump.exe objdump.o dwarf.o prdbg.o rddbg.o debug.o stabs.o rdcoff.o bucomm.o version.o filemode.o elfcomm.o  ../opcodes/.libs/libopcodes.a ../libctf/.libs/libctf.a -L/home/simark/build/binutils-gdb-mingw/zlib ../bfd/.libs/libbfd.a -lz ../libiberty/libiberty.a -lintl
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: ../libctf/.libs/libctf.a(ctf-open.o): in function `flip_header':
    /home/simark/src/binutils-gdb/libctf/ctf-open.c:964: undefined reference to `bswap_16'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:967: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:968: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:969: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:970: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:971: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: ../libctf/.libs/libctf.a(ctf-open.o):/home/simark/src/binutils-gdb/libctf/ctf-open.c:972: more undefined references to `bswap_32' follow
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: ../libctf/.libs/libctf.a(ctf-open.o): in function `flip_types':
    /home/simark/src/binutils-gdb/libctf/ctf-open.c:1112: undefined reference to `bswap_16'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:1113: undefined reference to `bswap_16'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:1132: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:1133: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:1134: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:1135: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: /home/simark/src/binutils-gdb/libctf/ctf-open.c:1144: undefined reference to `bswap_32'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: ../libctf/.libs/libctf.a(ctf-open.o):/home/simark/src/binutils-gdb/libctf/ctf-open.c:1145: more undefined references to `bswap_32' follow
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: ../libctf/.libs/libctf.a(ctf-open.o): in function `ctf_bufopen_internal':
    /home/simark/src/binutils-gdb/libctf/ctf-open.c:1342: undefined reference to `bswap_16'
    /usr/lib/gcc/x86_64-w64-mingw32/9.2.0/../../../../x86_64-w64-mingw32/bin/ld: ../libctf/.libs/libctf.a(ctf-open-bfd.o): in function `ctf_fdopen':
    /home/simark/src/binutils-gdb/libctf/ctf-open-bfd.c:268: undefined reference to `bswap_16'

Apparently [1], if we have a function with `inline` but not `static`,
there should be a compilation unit defining the symbol too.
Alternatively, making those functions `static` fixes that.

[1] https://stackoverflow.com/questions/16245521/c99-inline-function-in-c-file/16254679#16254679

libctf/ChangeLog:

	* swap.h (bswap_16, bswap_32, bswap_64): Make static.

Change-Id: I8fd12aedf6c90f9b7418af948e5e0bae0c32eead
2019-10-16 11:12:23 -04:00
Nick Alcock
fa56cdcd24 libctf: fix tabdamage
A little tabdamage predating the linker patch series has crept in.

New in v5.

libctf/
	* ctf-open.c (ctf_bufopen_internal): Fix tabdamage.
	* ctf-types.c (ctf_type_lname): Likewise.
2019-10-03 17:04:56 +01:00
Nick Alcock
ad613f1d06 libctf: fix refcount leak in ctf_import
Calling ctf_import (fp, NULL) to cancel out a pre-existing import leaked
the refcnt increment on the parent, so it could never be freed.

New in v4.

libctf/
	* ctf-open.c (ctf_import): Do not leak a ctf_file_t ref on every
	ctf_import after the first for a given file.
2019-10-03 17:04:56 +01:00
Nick Alcock
9323dd869d libctf: make ctf_dump not crash on OOM
ctf_dump calls ctf_str_append extensively but never checks to see if it
returns NULL (on OOM).  If it ever does, we truncate the string we are
appending to and leak it!

Instead, create a variant of ctf_str_append that returns the *original
string* on OOM, and use it in ctf-dump.  It is far better to omit a tiny
piece of a dump on OOM than to omit a bigger piece, and it is also
better to do this in what is after all purely debugging code than it is
to uglify ctf-dump.c with huge numbers of checks for the out-of-memory
case.  Slightly truncated debugging output is better than no debugging
output at all and an out-of-memory message.

New in v4.

libctf/
	* ctf-impl.h (ctf_str_append_noerr): Declare.
	* ctf-util.c (ctf_str_append_noerr): Define in terms of
	ctf_str_append.
	* ctf-dump.c (str_append): New, call it.
	(ctf_dump_format_type): Use str_append, not ctf_str_append.
	(ctf_dump_label): Likewise.
	(ctf_dump_objts): Likewise.
	(ctf_dump_funcs): Likewise.
	(ctf_dump_var): Likewise.
	(ctf_dump_member): Likewise.
	(ctf_dump_type): Likewise.
	(ctf_dump): Likewise.
2019-10-03 17:04:56 +01:00
Nick Alcock
de07e349be libctf: remove ctf_malloc, ctf_free and ctf_strdup
These just get in the way of auditing for erroneous usage of strdup and
add a huge irregular surface of "ctf_malloc or malloc? ctf_free or free?
ctf_strdup or strdup?"

ctf_malloc and ctf_free usage has not reliably matched up for many
years, if ever, making the whole game pointless.

Go back to malloc, free, and strdup like everyone else: while we're at
it, fix a bunch of places where we weren't properly checking for OOM.
This changes the interface of ctf_cuname_set and ctf_parent_name_set,
which could strdup but could not return errors (like ENOMEM).

New in v4.

include/
	* ctf-api.h (ctf_cuname_set): Can now fail, returning int.
	(ctf_parent_name_set): Likewise.
libctf/
	* ctf-impl.h (ctf_alloc): Remove.
	(ctf_free): Likewise.
	(ctf_strdup): Likewise.
	* ctf-subr.c (ctf_alloc): Remove.
	(ctf_free): Likewise.
	* ctf-util.c (ctf_strdup): Remove.

	* ctf-create.c (ctf_serialize): Use malloc, not ctf_alloc; free, not
	ctf_free; strdup, not ctf_strdup.
	(ctf_dtd_delete): Likewise.
	(ctf_dvd_delete): Likewise.
	(ctf_add_generic): Likewise.
	(ctf_add_function): Likewise.
	(ctf_add_enumerator): Likewise.
	(ctf_add_member_offset): Likewise.
	(ctf_add_variable): Likewise.
	(membadd): Likewise.
	(ctf_compress_write): Likewise.
	(ctf_write_mem): Likewise.
	* ctf-decl.c (ctf_decl_push): Likewise.
	(ctf_decl_fini): Likewise.
	(ctf_decl_sprintf): Likewise.  Check for OOM.
	* ctf-dump.c (ctf_dump_append): Use malloc, not ctf_alloc; free, not
	ctf_free; strdup, not ctf_strdup.
	(ctf_dump_free): Likewise.
	(ctf_dump): Likewise.
	* ctf-open.c (upgrade_types_v1): Likewise.
	(init_types): Likewise.
	(ctf_file_close): Likewise.
	(ctf_bufopen_internal): Likewise.  Check for OOM.
	(ctf_parent_name_set): Likewise: report the OOM to the caller.
	(ctf_cuname_set): Likewise.
	(ctf_import): Likewise.
	* ctf-string.c (ctf_str_purge_atom_refs): Use malloc, not ctf_alloc;
	free, not ctf_free; strdup, not ctf_strdup.
	(ctf_str_free_atom): Likewise.
	(ctf_str_create_atoms): Likewise.
	(ctf_str_add_ref_internal): Likewise.
	(ctf_str_remove_ref): Likewise.
	(ctf_str_write_strtab): Likewise.
2019-10-03 17:04:56 +01:00
Nick Alcock
9c1a2295e8 libctf: get the encoding of non-ints/fps in the dynamic space right
If you call ctf_type_encoding() on a slice, you are meant to get the
encoding of the slice with the format of the underlying type.  If
you call it on a non-int, non-fp, non-slice, you're meant to get the
error ECTF_INTNOTFP.

None of this was implemented for types in the dynamic space (which, now,
is *all* types in writable containers).  Instead, we were always
returning the encoding as if it were a float, which for all other types
consulted the wrong part of a discriminated union and returned garbage.
(Curiously, existing users were more disturbed by the lack of an error
in the non-int/fp/slice case than they were about getting garbage back.)

libctf/
	* ctf-types.c (ctf_type_encoding): Fix the dynamic case to
	work right for non-int/fps.
2019-10-03 17:04:56 +01:00
Nick Alcock
1a6ab13e71 libctf: allow ctf_type_lname of a null pointer.
The code was meant to handle this, but accidentally dereferenced the
null pointer before checking it for nullity.

v5: fix tabdamage.

libctf/
	* ctf-types.c (ctf_type_name): Don't strlen a potentially-
	null pointer.
2019-10-03 17:04:56 +01:00
Nick Alcock
99dc3ebdff libctf: properly handle ctf_add_type of forwards and self-reffing structs
The code to handle structures (and unions) that refer to themselves in
ctf_add_type is extremely dodgy.  It works by looking through the list
of not-yet-committed types for a structure with the same name as the
structure in question and assuming, if it finds it, that this must be a
reference to the same type.  This is a linear search that gets ever
slower as the dictionary grows, requiring you to call ctf_update at
intervals to keep performance tolerable: but if you do that, you run
into the problem that if a forward declared before the ctf_update is
changed to a structure afterwards, ctf_update explodes.

The last commit fixed most of this: this commit can use it, adding a new
ctf_add_processing hash that tracks source type IDs that are currently
being processed and uses it to avoid infinite recursion rather than the
dynamic type list: we split ctf_add_type into a ctf_add_type_internal,
so that ctf_add_type itself can become a wrapper that empties out this
being-processed hash once the entire recursive type addition is over.
Structure additions themselves avoid adding their dependent types
quite so much by checking the type mapping and avoiding re-adding types
we already know we have added.

We also add support for adding forwards to dictionaries that already
contain the thing they are a forward to: we just silently return the
original type.

v4: return existing struct/union/enum types properly, rather than using
    an uninitialized variable: shrinks sizes of CTF sections back down
    to roughly where they were in v1/v2 of this patch series.
v5: fix tabdamage.

libctf/
	* ctf-impl.h (ctf_file_t) <ctf_add_processing>: New.
	* ctf-open.c (ctf_file_close): Free it.
	* ctf-create.c (ctf_serialize): Adjust.
	(membcmp): When reporting a conflict due to an error, report the
	error.
	(ctf_add_type): Turn into a ctf_add_processing wrapper.  Rename to...
	(ctf_add_type_internal): ... this.  Hand back types we are already
	in the middle of adding immediately.  Hand back structs/unions with
	the same number of members immediately.  Do not walk the dynamic
	list.  Call ctf_add_type_internal, not ctf_add_type.  Handle
	forwards promoted to other types and the inverse case identically.
	Add structs to the mapping as soon as we intern them, before they
	gain any members.
2019-10-03 17:04:56 +01:00
Nick Alcock
676c3ecbad libctf: avoid the need to ever use ctf_update
The method of operation of libctf when the dictionary is writable has
before now been that types that are added land in the dynamic type
section, which is a linked list and hash of IDs -> dynamic type
definitions (and, recently a hash of names): the DTDs are a bit of CTF
representing the ctf_type_t and ad hoc C structures representing the
vlen.  Historically, libctf was unable to do anything with these types,
not even look them up by ID, let alone by name: if you wanted to do that
say if you were adding a type that depended on one you just added) you
called ctf_update, which serializes all the DTDs into a CTF file and
reopens it, copying its guts over the fp it's called with.  The
ctf_updated types are then frozen in amber and unchangeable: all lookups
will return the types in the static portion in preference to the dynamic
portion, and we will refuse to re-add things that already exist in the
static portion (and, of late, in the dynamic portion too).  The libctf
machinery remembers the boundary between static and dynamic types and
looks in the right portion for each type.  Lots of things still don't
quite work with dynamic types (e.g. getting their size), but enough
works to do a bunch of additions and then a ctf_update, most of the
time.

Except it doesn't, because ctf_add_type finds it necessary to walk the
full dynamic type definition list looking for types with matching names,
so it gets slower and slower with every type you add: fixing this
requires calling ctf_update periodically for no other reason than to
avoid massively slowing things down.

This is all clunky and very slow but kind of works, until you consider
that it is in fact possible and indeed necessary to modify one sort of
type after it has been added: forwards.  These are necessarily promoted
to structs, unions or enums, and when they do so *their type ID does not
change*.  So all of a sudden we are changing types that already exist in
the static portion.  ctf_update gets massively confused by this and
allocates space enough for the forward (with no members), but then emits
the new dynamic type (with all the members) into it.  You get an
assertion failure after that, if you're lucky, or a coredump.

So this commit rejigs things a bit and arranges to exclusively use the
dynamic type definitions in writable dictionaries, and the static type
definitions in readable dictionaries: we don't at any time have a mixture
of static and dynamic types, and you don't need to call ctf_update to
make things "appear".  The ctf_dtbyname hash I introduced a few months
ago, which maps things like "struct foo" to DTDs, is removed, replaced
instead by a change of type of the four dictionaries which track names.
Rather than just being (unresizable) ctf_hash_t's populated only at
ctf_bufopen time, they are now a ctf_names_t structure, which is a pair
of ctf_hash_t and ctf_dynhash_t, with the ctf_hash_t portion being used
in readonly dictionaries, and the ctf_dynhash_t being used in writable
ones.  The decision as to which to use is centralized in the new
functions ctf_lookup_by_rawname (which takes a type kind) and
ctf_lookup_by_rawhash, which it calls (which takes a ctf_names_t *.)

This change lets us switch from using static to dynamic name hashes on
the fly across the entirety of libctf without complexifying anything: in
fact, because we now centralize the knowledge about how to map from type
kind to name hash, it actually simplifies things and lets us throw out
quite a lot of now-unnecessary complexity, from ctf_dtnyname (replaced
by the dynamic half of the name tables), through to ctf_dtnextid (now
that a dictionary's static portion is never referenced if the dictionary
is writable, we can just use ctf_typemax to indicate the maximum type:
dynamic or non-dynamic does not matter, and we no longer need to track
the boundary between the types).  You can now ctf_rollback() as far as
you like, even past a ctf_update or for that matter a full writeout; all
the iteration functions work just as well on writable as on read-only
dictionaries; ctf_add_type no longer needs expensive duplicated code to
run over the dynamic types hunting for ones it might be interested in;
and the linker no longer needs a hack to call ctf_update so that calling
ctf_add_type is not impossibly expensive.

There is still a bit more complexity: some new code paths in ctf-types.c
need to know how to extract information from dynamic types.  This
complexity will go away again in a few months when libctf acquires a
proper intermediate representation.

You can still call ctf_update if you like (it's public API, after all),
but its only effect now is to set the point to which ctf_discard rolls
back.

Obviously *something* still needs to serialize the CTF file before
writeout, and this job is done by ctf_serialize, which does everything
ctf_update used to except set the counter used by ctf_discard.  It is
automatically called by the various functions that do CTF writeout:
nobody else ever needs to call it.

With this in place, forwards that are promoted to non-forwards no longer
crash the link, even if it happens tens of thousands of types later.

v5: fix tabdamage.

libctf/
	* ctf-impl.h (ctf_names_t): New.
	(ctf_lookup_t) <ctf_hash>: Now a ctf_names_t, not a ctf_hash_t.
	(ctf_file_t) <ctf_structs>: Likewise.
	<ctf_unions>: Likewise.
	<ctf_enums>: Likewise.
	<ctf_names>: Likewise.
	<ctf_lookups>: Improve comment.
	<ctf_ptrtab_len>: New.
	<ctf_prov_strtab>: New.
	<ctf_str_prov_offset>: New.
	<ctf_dtbyname>: Remove, redundant to the names hashes.
	<ctf_dtnextid>: Remove, redundant to ctf_typemax.
	(ctf_dtdef_t) <dtd_name>: Remove.
	<dtd_data>: Note that the ctt_name is now populated.
	(ctf_str_atom_t) <csa_offset>: This is now the strtab
	offset for internal strings too.
	<csa_external_offset>: New, the external strtab offset.
	(CTF_INDEX_TO_TYPEPTR): Handle the LCTF_RDWR case.
	(ctf_name_table): New declaration.
	(ctf_lookup_by_rawname): Likewise.
	(ctf_lookup_by_rawhash): Likewise.
	(ctf_set_ctl_hashes): Likewise.
	(ctf_serialize): Likewise.
	(ctf_dtd_insert): Adjust.
	(ctf_simple_open_internal): Likewise.
	(ctf_bufopen_internal): Likewise.
	(ctf_list_empty_p): Likewise.
	(ctf_str_remove_ref): Likewise.
	(ctf_str_add): Returns uint32_t now.
	(ctf_str_add_ref): Likewise.
	(ctf_str_add_external): Now returns a boolean (int).
	* ctf-string.c (ctf_strraw_explicit): Check the ctf_prov_strtab
	for strings in the appropriate range.
	(ctf_str_create_atoms): Create the ctf_prov_strtab.  Detect OOM
	when adding the null string to the new strtab.
	(ctf_str_free_atoms): Destroy the ctf_prov_strtab.
	(ctf_str_add_ref_internal): Add make_provisional argument.  If
	make_provisional, populate the offset and fill in the
	ctf_prov_strtab accordingly.
	(ctf_str_add): Return the offset, not the string.
	(ctf_str_add_ref): Likewise.
	(ctf_str_add_external): Return a success integer.
	(ctf_str_remove_ref): New, remove a single ref.
	(ctf_str_count_strtab): Do not count the initial null string's
	length or the existence or length of any unreferenced internal
	atoms.
	(ctf_str_populate_sorttab): Skip atoms with no refs.
	(ctf_str_write_strtab): Populate the nullstr earlier.  Add one
	to the cts_len for the null string, since it is no longer done
	in ctf_str_count_strtab.  Adjust for csa_external_offset rename.
	Populate the csa_offset for both internal and external cases.
	Flush the ctf_prov_strtab afterwards, and reset the
	ctf_str_prov_offset.
	* ctf-create.c (ctf_grow_ptrtab): New.
	(ctf_create): Call it.	Initialize new fields rather than old
	ones.  Tell ctf_bufopen_internal that this is a writable dictionary.
	Set the ctl hashes and data model.
	(ctf_update): Rename to...
	(ctf_serialize): ... this.  Leave a compatibility function behind.
	Tell ctf_simple_open_internal that this is a writable dictionary.
	Pass the new fields along from the old dictionary.  Drop
	ctf_dtnextid and ctf_dtbyname.	Use ctf_strraw, not dtd_name.
	Do not zero out the DTD's ctt_name.
	(ctf_prefixed_name): Rename to...
	(ctf_name_table): ... this.  No longer return a prefixed name: return
	the applicable name table instead.
	(ctf_dtd_insert): Use it, and use the right name table.	 Pass in the
	kind we're adding.  Migrate away from dtd_name.
	(ctf_dtd_delete): Adjust similarly.  Remove the ref to the
	deleted ctt_name.
	(ctf_dtd_lookup_type_by_name): Remove.
	(ctf_dynamic_type): Always return NULL on read-only dictionaries.
	No longer check ctf_dtnextid: check ctf_typemax instead.
	(ctf_snapshot): No longer use ctf_dtnextid: use ctf_typemax instead.
	(ctf_rollback): Likewise.  No longer fail with ECTF_OVERROLLBACK. Use
	ctf_name_table and the right name table, and migrate away from
	dtd_name as in ctf_dtd_delete.
	(ctf_add_generic): Pass in the kind explicitly and pass it to
	ctf_dtd_insert. Use ctf_typemax, not ctf_dtnextid.  Migrate away
	from dtd_name to using ctf_str_add_ref to populate the ctt_name.
	Grow the ptrtab if needed.
	(ctf_add_encoded): Pass in the kind.
	(ctf_add_slice): Likewise.
	(ctf_add_array): Likewise.
	(ctf_add_function): Likewise.
	(ctf_add_typedef): Likewise.
	(ctf_add_reftype): Likewise. Initialize the ctf_ptrtab, checking
	ctt_name rather than dtd_name.
	(ctf_add_struct_sized): Pass in the kind.  Use
	ctf_lookup_by_rawname, not ctf_hash_lookup_type /
	ctf_dtd_lookup_type_by_name.
	(ctf_add_union_sized): Likewise.
	(ctf_add_enum): Likewise.
	(ctf_add_enum_encoded): Likewise.
	(ctf_add_forward): Likewise.
	(ctf_add_type): Likewise.
	(ctf_compress_write): Call ctf_serialize: adjust for ctf_size not
	being initialized until after the call.
	(ctf_write_mem): Likewise.
	(ctf_write): Likewise.
	* ctf-archive.c (arc_write_one_ctf): Likewise.
	* ctf-lookup.c (ctf_lookup_by_name): Use ctf_lookuup_by_rawhash, not
	ctf_hash_lookup_type.
	(ctf_lookup_by_id): No longer check the readonly types if the
	dictionary is writable.
	* ctf-open.c (init_types): Assert that this dictionary is not
	writable.  Adjust to use the new name hashes, ctf_name_table,
	and ctf_ptrtab_len.  GNU style fix for the final ptrtab scan.
	(ctf_bufopen_internal): New 'writable' parameter.  Flip on LCTF_RDWR
	if set.	 Drop out early when dictionary is writable.  Split the
	ctf_lookups initialization into...
	(ctf_set_cth_hashes): ... this new function.
	(ctf_simple_open_internal): Adjust.  New 'writable' parameter.
	(ctf_simple_open): Adjust accordingly.
	(ctf_bufopen): Likewise.
	(ctf_file_close): Destroy the appropriate name hashes.	No longer
	destroy ctf_dtbyname, which is gone.
	(ctf_getdatasect): Remove spurious "extern".
	* ctf-types.c (ctf_lookup_by_rawname): New, look up types in the
	specified name table, given a kind.
	(ctf_lookup_by_rawhash): Likewise, given a ctf_names_t *.
	(ctf_member_iter): Add support for iterating over the
	dynamic type list.
	(ctf_enum_iter): Likewise.
	(ctf_variable_iter): Likewise.
	(ctf_type_rvisit): Likewise.
	(ctf_member_info): Add support for types in the dynamic type list.
	(ctf_enum_name): Likewise.
	(ctf_enum_value): Likewise.
	(ctf_func_type_info): Likewise.
	(ctf_func_type_args): Likewise.
	* ctf-link.c (ctf_accumulate_archive_names): No longer call
	ctf_update.
	(ctf_link_write): Likewise.
	(ctf_link_intern_extern_string): Adjust for new
	ctf_str_add_external return value.
	(ctf_link_add_strtab): Likewise.
	* ctf-util.c (ctf_list_empty_p): New.
2019-10-03 17:04:56 +01:00
Nick Alcock
791915db42 libctf: handle nonrepresentable types at link time
GCC can emit references to type 0 to indicate that this type is one that
is not representable in the version of CTF it emits (for instance,
version 3 cannot encode vector types).  Type 0 is already used in the
function section to indicate padding inserted to skip functions we do
not want to encode the type of, so using zero in this way is a good
extension of the format: but libctf reports such types as ECTF_BADID,
which is indistinguishable from file corruption via links to truly
nonexistent types with IDs like 0xDEADBEEF etc, which we really do want
to stop for.

In particular, this stops all traversals of types dead at this point,
preventing us from even dumping CTF files containing unrepresentable
types to see what's going on!

So add a new error, ECTF_NONREPRESENTABLE, which is returned by
recursive type resolution when a reference to a zero type is found.  (No
zero type is ever emitted into the CTF file by GCC, only references to
one).  We can't do much with types that are ultimately nonrepresentable,
but we can do enough to keep functioning.

Adjust ctf_add_type to ensure that top-level types of type zero and
structure and union members of ultimate type zero are simply skipped
without reporting an error, so we can copy structures and unions that
contain nonrepresentable members (skipping them and leaving a hole where
they would be, so no consumers downstream of the linker need to worry
about this): adjust the dumper so that we dump members of
nonrepresentable types in a simple form that indicates
nonrepresentability rather than terminating the dump, and do not falsely
assume all errors to be -ENOMEM: adjust the linker so that types that
fail to get added are simply skipped, so that both nonrepresentable
types and outright errors do not terminate the type addition, which
could skip many valid types and cause further errors when variables of
those types are added.

In future, when we gain the ability to call back to the linker to report
link-time type resolution errors, we should report failures to add all
but nonrepresentable types.  But we can't do that yet.

v5: Fix tabdamage.

include/
	* ctf-api.h (ECTF_NONREPRESENTABLE): New.
libctf/
	* ctf-types.c (ctf_type_resolve): Return ECTF_NONREPRESENTABLE on
	type zero.
	* ctf-create.c (ctf_add_type): Detect and skip nonrepresentable
	members and types.
	(ctf_add_variable): Likewise for variables pointing to them.
	* ctf-link.c (ctf_link_one_type): Do not warn for nonrepresentable
	type link failure, but do warn for others.
	* ctf-dump.c (ctf_dump_format_type): Likewise.  Do not assume all
	errors to be ENOMEM.
	(ctf_dump_member): Likewise.
	(ctf_dump_type): Likewise.
	(ctf_dump_header_strfield): Do not assume all errors to be ENOMEM.
	(ctf_dump_header_sectfield): Do not assume all errors to be ENOMEM.
	(ctf_dump_header): Likewise.
	(ctf_dump_label): likewise.
	(ctf_dump_objts): likewise.
	(ctf_dump_funcs): likewise.
	(ctf_dump_var): likewise.
	(ctf_dump_str): Likewise.
2019-10-03 17:04:56 +01:00
Nick Alcock
87279e3cef libctf: installable libctf as a shared library
This lets other programs read and write CTF-format data.

Two versioned shared libraries are created: libctf.so and
libctf-nobfd.so.  They contain identical content except that
libctf-nobfd.so contains no references to libbfd and does not implement
ctf_open, ctf_fdopen, ctf_bfdopen or ctf_bfdopen_ctfsect, so it can be
used by programs that cannot use BFD, like readelf.

The soname major version is presently .0 until the linker API
stabilizes, when it will flip to .1 and hopefully never change again.

New in v3.
v4: libtoolize and turn into a pair of shared libraries.  Drop
    --enable-install-ctf: now controlled by --enable-shared and
    --enable-install-libbfd, like everything else.
v5: Add ../bfd to ACLOCAL_AMFLAGS and AC_CONFIG_MACRO_DIR.  Fix tabdamage.

	* Makefile.def (host_modules): libctf is no longer no_install.
	* Makefile.in: Regenerated.
libctf/
	* configure.ac (AC_DISABLE_SHARED): New, like opcodes/.
	(LT_INIT): Likewise.
	(AM_INSTALL_LIBBFD): Likewise.
	(dlopen): Note why this is necessary in a comment.
	(SHARED_LIBADD): Initialize for possibly-PIC libiberty: derived from
	opcodes/.
	(SHARED_LDFLAGS): Likewise.
	(BFD_LIBADD): Likewise, for libbfd.
	(BFD_DEPENDENCIES): Likewise.
	(VERSION_FLAGS): Initialize, using a version script if ld supports
	one, or libtool -export-symbols-regex otherwise.
	(AC_CONFIG_MACRO_DIR): Add ../BFD.
	* Makefile.am (ACLOCAL_AMFLAGS): Likewise.
	(INCDIR): New.
	(AM_CPPFLAGS): Use $(srcdir), not $(top_srcdir).
	(noinst_LIBRARIES): Replace with...
	[INSTALL_LIBBFD] (lib_LTLIBRARIES): This, or...
	[!INSTALL_LIBBFD] (noinst_LTLIBRARIES): ... this, mentioning new
	libctf-nobfd.la as well.
	[INSTALL_LIBCTF] (include_HEADERS): Add the CTF headers.
	[!INSTALL_LIBCTF] (include_HEADERS): New, empty.
	(libctf_a_SOURCES): Rename to...
	(libctf_nobfd_la_SOURCES): ... this, all of libctf other than
	ctf-open-bfd.c.
	(libctf_la_SOURCES): Now derived from libctf_nobfd_la_SOURCES,
	with ctf-open-bfd.c added.
	(libctf_nobfd_la_LIBADD): New, using @SHARED_LIBADD@.
	(libctf_la_LIBADD): New, using @BFD_LIBADD@ as well.
	(libctf_la_DEPENDENCIES): New, using @BFD_DEPENDENCIES@.
	* Makefile.am [INSTALL_LIBCTF]: Use it.
	* aclocal.m4: Add ../bfd/acinclude.m4, ../config/acx.m4, and the
	libtool macros.
	* libctf.ver: New, everything is version LIBCTF_1.0 currently (even
	the unstable components).
	* Makefile.in: Regenerated.
	* config.h.in: Likewise.
	* configure: Likewise.
binutils/
	* Makefile.am (LIBCTF): Mention the .la file.
	(LIBCTF_NOBFD): New.
	(readelf_DEPENDENCIES): Use it.
	(readelf_LDADD): Likewise.
	* Makefile.in: Regenerated.
ld/
	* configure.ac (TESTCTFLIB): Set to the .so or .a, like TESTBFDLIB.
	* Makefile.am (TESTCTFLIB): Use it.
	(LIBCTF): Use the .la file.
	(check-DEJAGNU): Use it.
	* Makefile.in: Regenerated.
	* configure: Likewise.
include/
	* ctf-api.h: Note the instability of the ctf_link interfaces.
2019-10-03 17:04:56 +01:00
Nick Alcock
f046147d59 libctf: actually close bfds we have opened
When we do a ctf_fdopen, we open things via bfd_fdopenr and set up a
hook to close the bfd again... but then we never actually call that hook
from anywhere, so we eventually leak every bfd we open.

Fix this by calling the hook (if set) in ctf_arc_close.

New in v3.

libctf/
	* ctf-archive.c (ctf_arc_close): Call ctfi_bfd_close if set.
	* ctf-open-bfd.c (ctf_bfdclose): Fix comment.
2019-10-03 17:04:55 +01:00
Nick Alcock
edc8bbe90b libctf: bfd-open: mark the bfd as cacheable
Without this, the FD is only closed when the CTF file is, leading to
running out of fds on (e.g.) very large links.

New in v3.

libctf/
	* ctf-open-bfd.c (ctf_fdopen): Call bfd_set_cacheable.
2019-10-03 17:04:55 +01:00
Nick Alcock
7e97445a5a libctf: get rid of a disruptive public include of <sys/param.h>
This hoary old header defines things like MAX that users of libctf might
perfectly reasonably define themselves.

The CTF headers do not need it: move it into libctf/ctf-impl.h instead.

include/
	* ctf-api.h (includes): No longer include <sys/param.h>.
libctf/
	* ctf-impl.h (includes): Include <sys/param.h> here.
2019-10-03 17:04:55 +01:00
Nick Alcock
5ae6af75b5 libctf: eschew C99 for loop initial declarations
We shouldn't use these, since binutils doesn't require a C99-capable
compiler yet.

New in v3.
v5: fix tabdamage.

libctf/
	* ctf-open.c (flip_lbls): Eschew for-loop initial declarations.
	(flip_objts): Likewise.
	(flip_vars): Likewise.
	(flip_types): Likewise.
2019-10-03 17:04:55 +01:00
Nick Alcock
1820745a0a libctf: don't leak hash keys or values on value replacement
When a ctf_dynhash_insert() finds a slot already existing, it should
call the key and value free functions on the existing key and value and
move the passed-in key into place, so that the lifetime rules for hash
keys are always the same no matter whether the key existed or not but
neither are the keys or values leaked.

New in v3.
v5: fix tabdamage.

libctf/
	* ctf-hash.c (ctf_hashtab_insert): Pass in the key and value
	freeing functions: if set, free the key and value if the slot
	already exists.  Always reassign the key.
	(ctf_dynhash_insert): Adjust call appropriately.
	(ctf_hash_insert_type): Likewise.
2019-10-03 17:04:55 +01:00
Nick Alcock
5de9eada3b libctf: teach ctf_add_type how forwards work
This machinery has been broken for as long as Solaris has existed.
Forwards are meant to encode "struct foo;", "enum foo;" or "union
foo;".  Obviously these all exist in distinct namespaces, so forwards
store the type kind they forward to in their ctt_type member
(which makes conceptual sense if you squint at it).  The addition
machinery uses this to promote forwards to the appropriate type as
needed.

Unfortunately ctf_add_type does not: it checks the global namespace
(which is always wrong), and so fails with a spurious conflict if you
have, say, a typedef and then a forward comes along with the same name,
even if it's a forward to something like a struct.  (This was observed
with <libio.h>, which has "struct _IO_FILE;" and also
"typedef struct _IO_FILE _IO_FILE").  We should look at the recorded
type kind and look in the appropriate namespace.   We should also,
when creating the forward in the new container, use that type kind,
rather than just defaulting to CTF_K_STRUCT and hoping that what
eventually comes along is a struct.

This bug is as old as the first implementation of ctf_add_type in
Solaris.  But we also want a new feature for the linker, closely-related
and touching the same code so we add it here: not only do we want a
forward followed by a struct/union/enum to promote the forward, but
we want want a struct/union/enum followed by a forward to act as a NOP
and return the existing type, because when we're adding many files
in succession to a target link, there will often be already-promoted
forwards (in the shape of a struct/union/enum) that want to unify
with duplicate forwards coming from other object files.

v5: fix tabdamage.

libctf/
	* ctf-create.c (ctf_add_type): Look up and use the forwarded-to
	type kind.  Allow forwards to unify with pre-existing structs/
	unions/enums.
2019-10-03 17:04:55 +01:00
Nick Alcock
49ea9b450b libctf: add CU-mapping machinery
Once the deduplicator is capable of actually detecting conflicting types
with the same name (i.e., not yet) we will place such conflicting types,
and types that depend on them, into CTF dictionaries that are the child
of the main dictionary we usually emit: currently, this will lead to the
.ctf section becoming a CTF archive rather than a single dictionary,
with the default-named archive member (_CTF_SECTION, or NULL) being the
main shared dictionary with most of the types in it.

By default, the sections are named after the compilation unit they come
from (complete path and all), with the cuname field in the CTF header
providing further evidence of the name without requiring the caller to
engage in tiresome parsing.  But some callers may not wish the mapping
from input CU to output sub-dictionary to be purely CU-based.

The machinery here allows this to be freely changed, in two ways:

 - callers can call ctf_link_add_cu_mapping to specify that a single
   input compilation unit should have its types placed in some other CU
   if they conflict: the CU will always be created, even if empty, so
   the consuming program can depend on its existence.  You can map
   multiple input CUs to one output CU to force all their types to be
   merged together: if some of *those* types conflict, the behaviour is
   currently unspecified (the new deduplicator will specify it).

 - callers can call ctf_link_set_memb_name_changer to provide a function
   which is passed every CTF sub-dictionary name in turn (including
   _CTF_SECTION) and can return a new name, or NULL if no change is
   desired.  The mapping from input to output names should not map two
   input names to the same output name: if this happens, the two are not
   merged but will result in an archive with two members with the same
   name (technically valid, but it's hard to access the second
   same-named member: you have to do an iteration over archive members).

This is used by the kernel's ctfarchive machinery (not yet upstream) to
encode CTF under member names like {module name}.ctf rather than
.ctf.CU, but it is anticipated that other large projects may wish to
have their own storage for CTF outside of .ctf sections and may wish to
have new naming schemes that suit their special-purpose consumers.

New in v3.
v4: check for strdup failure.
v5: fix tabdamage.

include/
	* ctf-api.h (ctf_link_add_cu_mapping): New.
	(ctf_link_memb_name_changer_f): New.
	(ctf_link_set_memb_name_changer): New.

libctf/
	* ctf-impl.h (ctf_file_t) <ctf_link_cu_mappping>: New.
	<ctf_link_memb_name_changer>: Likewise.
	<ctf_link_memb_name_changer_arg>: Likewise.
	* ctf-create.c (ctf_update): Update accordingly.
	* ctf-open.c (ctf_file_close): Likewise.
	* ctf-link.c (ctf_create_per_cu): Apply the cu mapping.
	(ctf_link_add_cu_mapping): New.
	(ctf_link_set_memb_name_changer): Likewise.
	(ctf_change_parent_name): New.
	(ctf_name_list_accum_cb_arg_t) <dynames>: New, storage for names
	allocated by the caller's ctf_link_memb_name_changer.
	<ndynames>: Likewise.
	(ctf_accumulate_archive_names): Call the ctf_link_memb_name_changer.
	(ctf_link_write): Likewise (for _CTF_SECTION only): also call
	ctf_change_parent_name.  Free any resulting names.
2019-10-03 17:04:55 +01:00
Nick Alcock
eabb7154df libctf: add linking of the variable section
The compiler describes the name and type of all file-scope variables in
this section.  Merging it at link time requires using the type mapping
added in the previous commit to determine the appropriate type for the
variable in the output, given its type in the input: we check the shared
container first, and if the type doesn't exist there, it must be a
conflicted type in the per-CU child, and the variable should go there
too.  We also put the variable in the per-CU child if a variable with
the same name but a different type already exists in the parent: we
ignore any such conflict in the child because CTF cannot represent such
things, nor can they happen unless a third-party linking program has
overridden the mapping of CU to CTF archive member name (using machinery
added in a later commit).

v3: rewritten using an algorithm that actually works in the case of
    conflicting names.  Some code motion from the next commit.  Set
    the per-CU parent name.
v4: check for strdup failure.
v5: fix tabdamage.

include/
	* ctf-api.h (ECTF_INTERNAL): New.

libctf/
	* ctf-link.c (ctf_create_per_cu): New, refactored out of...
	(ctf_link_one_type): ... here, with parent-name setting added.
	(check_variable): New.
	(ctf_link_one_variable): Likewise.
	(ctf_link_one_input_archive_member): Call it.
	* ctf-error.c (_ctf_errlist): Updated with new errors.
2019-10-03 17:04:55 +01:00
Nick Alcock
886453cbbc libctf: map from old to corresponding newly-added types in ctf_add_type
This lets you call ctf_type_mapping (dest_fp, src_fp, src_type_id)
and get told what type ID the corresponding type has in the target
ctf_file_t.  This works even if it was added by a recursive call, and
because it is stored in the target ctf_file_t it works even if we
had to add one type to multiple ctf_file_t's as part of conflicting
type handling.

We empty out this mapping after every archive is linked: because it maps
input to output fps, and we only visit each input fp once, its contents
are rendered entirely useless every time the source fp changes.

v3: add several missing mapping additions.  Add ctf_dynhash_empty, and
    empty after every input archive.
v5: fix tabdamage.

libctf/
	* ctf-impl.h (ctf_file_t): New field ctf_link_type_mapping.
	(struct ctf_link_type_mapping_key): New.
	(ctf_hash_type_mapping_key): Likewise.
	(ctf_hash_eq_type_mapping_key): Likewise.
	(ctf_add_type_mapping): Likewise.
	(ctf_type_mapping): Likewise.
	(ctf_dynhash_empty): Likewise.
	* ctf-open.c (ctf_file_close): Update accordingly.
	* ctf-create.c (ctf_update): Likewise.
	(ctf_add_type): Populate the mapping.
	* ctf-hash.c (ctf_hash_type_mapping_key): Hash a type mapping key.
	(ctf_hash_eq_type_mapping_key): Check the key for equality.
	(ctf_dynhash_insert): Fix comment typo.
	(ctf_dynhash_empty): New.
	* ctf-link.c (ctf_add_type_mapping): New.
	(ctf_type_mapping): Likewise.
	(empty_link_type_mapping): New.
	(ctf_link_one_input_archive): Call it.
2019-10-03 17:04:55 +01:00
Nick Alcock
72c83edd92 libctf: add the ctf_link machinery
This is the start of work on the core of the linking mechanism for CTF
sections.  This commit handles the type and string sections.

The linker calls these functions in sequence:

ctf_link_add_ctf: to add each CTF section in the input in turn to a
  newly-created ctf_file_t (which will appear in the output, and which
  itself will become the shared parent that contains types that all
  TUs have in common (in all link modes) and all types that do not
  have conflicting definitions between types (by default).  Input files
  that are themselves products of ld -r are supported, though this is
  not heavily tested yet.

ctf_link: called once all input files are added to merge the types in
  all the input containers into the output container, eliminating
  duplicates.

ctf_link_add_strtab: called once the ELF string table is finalized and
  all its offsets are known, this calls a callback provided by the
  linker which returns the string content and offset of every string in
  the ELF strtab in turn: all these strings which appear in the input
  CTF strtab are eliminated from it in favour of the ELF strtab:
  equally, any strings that only appear in the input strtab will
  reappear in the internal CTF strtab of the output.

ctf_link_shuffle_syms (not yet implemented): called once the ELF symtab
  is finalized, this calls a callback provided by the linker which
  returns information on every symbol in turn as a ctf_link_sym_t.  This
  is then used to shuffle the function info and data object sections in
  the CTF section into symbol table order, eliminating the index
  sections which map those sections to symbol names before that point.
  Currently just returns ECTF_NOTYET.

ctf_link_write: Returns a buffer containing either a serialized
  ctf_file_t (if there are no types with conflicting definitions in the
  object files in the link) or a ctf_archive_t containing a large
  ctf_file_t (the common types) and a bunch of small ones named after
  individual CUs in which conflicting types are found (containing the
  conflicting types, and all types that reference them).  A threshold
  size above which compression takes place is passed as one parameter.
  (Currently, only gzip compression is supported, but I hope to add lzma
  as well.)

Lifetime rules for this are simple: don't close the input CTF files
until you've called ctf_link for the last time.  We do not assume
that symbols or strings passed in by the callback outlast the
call to ctf_link_add_strtab or ctf_link_shuffle_syms.

Right now, the duplicate elimination mechanism is the one already
present as part of the ctf_add_type function, and is not particularly
good: it misses numerous actual duplicates, and the conflicting-types
detection hardly ever reports that types conflict, even when they do
(one of them just tends to get silently dropped): it is also very slow.
This will all be fixed in the next few weeks, but the fix hardly touches
any of this code, and the linker does work without it, just not as
well as it otherwise might.  (And when no CTF section is present,
there is no effect on performance, of course.  So only people using
a trunk GCC with not-yet-committed patches will even notice.  By the
time it gets upstream, things should be better.)

v3: Fix error handling.
v4: check for strdup failure.
v5: fix tabdamage.

include/
	* ctf-api.h (struct ctf_link_sym): New, a symbol in flight to the
	libctf linking machinery.
	(CTF_LINK_SHARE_UNCONFLICTED): New.
	(CTF_LINK_SHARE_DUPLICATED): New.
	(ECTF_LINKADDEDLATE): New, replacing ECTF_UNUSED.
	(ECTF_NOTYET): New, a 'not yet implemented' message.
	(ctf_link_add_ctf): New, add an input file's CTF to the link.
	(ctf_link): New, merge the type and string sections.
	(ctf_link_strtab_string_f): New, callback for feeding strtab info.
	(ctf_link_iter_symbol_f): New, callback for feeding symtab info.
	(ctf_link_add_strtab): New, tell the CTF linker about the ELF
	strtab's strings.
	(ctf_link_shuffle_syms): New, ask the CTF linker to shuffle its
	symbols into symtab order.
	(ctf_link_write): New, ask the CTF linker to write the CTF out.

libctf/
	* ctf-link.c: New file, linking of the string and type sections.
	* Makefile.am (libctf_a_SOURCES): Add it.
	* Makefile.in: Regenerate.

	* ctf-impl.h (ctf_file_t): New fields ctf_link_inputs,
	ctf_link_outputs.
	* ctf-create.c (ctf_update): Update accordingly.
	* ctf-open.c (ctf_file_close): Likewise.
	* ctf-error.c (_ctf_errlist): Updated with new errors.
2019-10-03 17:04:55 +01:00
Nick Alcock
d18f9f1629 libctf: dump: check the right error values when dumping functions
We weren't correctly detecting when there were no functions to dump in
the function info table, because we were checking for ECTF_NOTYPEDAT,
which means there are no *data objects* to dump.

Adjust accordingly.

libctf/
	* ctf-dump.c (ctf_dump_funcs): Check the right error value.
2019-10-03 17:04:55 +01:00
Nick Alcock
b4f0e09cd1 libctf: dump: support non-root type dumping
Use the recently-added ctf_type_iter_all function to iterate over
non-root types, too, indicating them via {....} surrounding the type
description in the dump.

libctf/
	* ctf-dump.c (ctf_dump): Use ctf_type_iter_all to dump types, not
	ctf_type_iter.
	(ctf_dump_type): Pass down the flag from ctf_type_iter_all.
	(ctf_dump_format_type): Add non-root-type { } notation.
	Add root flag to prototype.
	(ctf_dump_label): Adjust accordingly.
	(ctf_dump_objts): Likewise.
	(ctf_dump_var): Likewise.
2019-10-03 17:04:55 +01:00
Nick Alcock
3dde2c915e libctf: fix double-free on ctf_compress_write error path
We were freeing the compressed data buffer twice if compression failed.

v4: Fix commit message.
v5: fix tabdamage.

libctf/
	* ctf-create.c (ctf_compress_write): Fix double-free.
2019-10-03 17:04:55 +01:00
Nick Alcock
5537f9b9a3 libctf: write CTF files to memory, and CTF archives to fds
Before now, we've been able to write CTF files to gzFile descriptors or
fds, and CTF archives to named files only.

Make this a bit less irregular by allowing CTF archives to be written
to fds with the new function ctf_arc_write_fd: also allow CTF
files to be written to a new memory buffer via ctf_write_mem.

(It would be nice to complete things by adding a new function to write
CTF archives to memory, but this is too difficult to do given the short
time the linker is expected to be writing them out: we will transition
to a better format in format v4, though we will always support reading
CTF archives that are stored in .ctf sections.)

include/
	* ctf-api.h (ctf_arc_write_fd): New.
	(ctf_write_mem): Likewise.
	(ctf_gzwrite): Spacing fix.

libctf/
	* ctf-archive.c (ctf_arc_write): Split off, and reimplement in terms
	of...
	(ctf_arc_write_fd): ... this new function.
	* ctf-create.c (ctf_write_mem): New.
2019-10-03 17:04:55 +01:00
Nick Alcock
d851ecd373 libctf: support getting strings from the ELF strtab
The CTF file format has always supported "external strtabs", which
internally are strtab offsets with their MSB on: such refs
get their strings from the strtab passed in at CTF file open time:
this is usually intended to be the ELF strtab, and that's what this
implementation is meant to support, though in theory the external
strtab could come from anywhere.

This commit adds support for these external strings in the ctf-string.c
strtab tracking layer.  It's quite easy: we just add a field csa_offset
to the atoms table that tracks all strings: this field tracks the offset
of the string in the ELF strtab (with its MSB already on, courtesy of a
new macro CTF_SET_STID), and adds a new function that sets the
csa_offset to the specified offset (plus MSB).  Then we just need to
avoid writing out strings to the internal strtab if they have csa_offset
set, and note that the internal strtab is shorter than it might
otherwise be.

(We could in theory save a little more time here by eschewing sorting
such strings, since we never actually write the strings out anywhere,
but that would mean storing them separately and it's just not worth the
complexity cost until profiling shows it's worth doing.)

We also have to go through a bit of extra effort at variable-sorting
time.  This was previously using direct references to the internal
strtab: it couldn't use ctf_strptr or ctf_strraw because the new strtab
is not yet ready to put in its usual field (in a ctf_file_t that hasn't
even been allocated yet at this stage): but now we're using the external
strtab, this will no longer do because it'll be looking things up in the
wrong strtab, with disastrous results.  Instead, pass the new internal
strtab in to a new ctf_strraw_explicit function which is just like
ctf_strraw except you can specify a ne winternal strtab to use.

But even now that it is using a new internal strtab, this is not quite
enough: it can't look up strings in the external strtab because ld
hasn't written it out yet, and when it does will write it straight to
disk.  Instead, when we write the internal strtab, note all the offset
-> string mappings that we have noted belong in the *external* strtab to
a new "synthetic external strtab" dynhash, ctf_syn_ext_strtab, and look
in there at ctf_strraw time if it is set.  This uses minimal extra
memory (because only strings in the external strtab that we actually use
are stored, and even those come straight out of the atoms table), but
let both variable sorting and name interning when ctf_bufopen is next
called work fine.  (This also means that we don't need to filter out
spurious ECTF_STRTAB warnings from ctf_bufopen but can pass them back to
the caller, once we wrap ctf_bufopen so that we have a new internal
variant of ctf_bufopen etc that we can pass the synthetic external
strtab to. That error has been filtered out since the days of Solaris
libctf, which didn't try to handle the problem of getting external
strtabs right at construction time at all.)

v3: add the synthetic strtab and all associated machinery.
v5: fix tabdamage.

include/
	* ctf.h (CTF_SET_STID): New.

libctf/
	* ctf-impl.h (ctf_str_atom_t) <csa_offset>: New field.
	(ctf_file_t) <ctf_syn_ext_strtab>: Likewise.
	(ctf_str_add_ref): Name the last arg.
	(ctf_str_add_external) New.
	(ctf_str_add_strraw_explicit): Likewise.
	(ctf_simple_open_internal): Likewise.
	(ctf_bufopen_internal): Likewise.

	* ctf-string.c (ctf_strraw_explicit): Split from...
	(ctf_strraw): ... here, with new support for ctf_syn_ext_strtab.
	(ctf_str_add_ref_internal): Return the atom, not the
	string.
	(ctf_str_add): Adjust accordingly.
	(ctf_str_add_ref): Likewise.  Move up in the file.
	(ctf_str_add_external): New: update the csa_offset.
	(ctf_str_count_strtab): Only account for strings with no csa_offset
	in the internal strtab length.
	(ctf_str_write_strtab): If the csa_offset is set, update the
	string's refs without writing the string out, and update the
	ctf_syn_ext_strtab.  Make OOM handling less ugly.
	* ctf-create.c (struct ctf_sort_var_arg_cb): New.
	(ctf_update): Handle failure to populate the strtab.  Pass in the
	new ctf_sort_var arg.  Adjust for ctf_syn_ext_strtab addition.
	Call ctf_simple_open_internal, not ctf_simple_open.
	(ctf_sort_var): Call ctf_strraw_explicit rather than looking up
	strings by hand.
	* ctf-hash.c (ctf_hash_insert_type): Likewise (but using
	ctf_strraw).  Adjust to diagnose ECTF_STRTAB nonetheless.
	* ctf-open.c (init_types): No longer filter out ECTF_STRTAB.
	(ctf_file_close): Destroy the ctf_syn_ext_strtab.
	(ctf_simple_open): Rename to, and reimplement as a wrapper around...
	(ctf_simple_open_internal): ... this new function, which calls
	ctf_bufopen_internal.
	(ctf_bufopen): Rename to, and reimplement as a wrapper around...
	(ctf_bufopen_internal): ... this new function, which sets
	ctf_syn_ext_strtab.
2019-10-03 17:04:55 +01:00
Nick Alcock
0ac6231298 libctf: Add iteration over non-root types
The existing function ctf_type_iter lets you iterate over root-visible
types (types you can look up by name).  There is no way to iterate over
non-root-visible types, which is troublesome because both the linker
and dumper want to do that.

So add a new function that can do it: the callback it takes accepts
an extra parameter which indicates whether the type is root-visible
or not.

include/
	* ctf-api.h (ctf_type_all_f): New.
	(ctf_type_iter_all): New.

libctf/
	* ctf_types.c (ctf_type_iter_all): New.
2019-10-03 17:04:55 +01:00
Nick Alcock
2db912ba1a libctf: add the object index and function index sections
No code handles these yet, but our latest GCC patches are generating
them, so we have to be ready for them or erroneously conclude that we
have file corruption.

(This simultaneously fixes a longstanding bug, concealed because nothing
was generating anything in the object or function info sections, where
the end of the section was being tested against the wrong thing: it
would have walked over the entire contents of the variable section and
treated them as part of the function info section.  This had to change
now anyway because the new sections have landed in between.)

include/
	* ctf.h: Add object index and function index sections.  Describe
	them. Improve the description of the variable section and clarify
	the constraints on backward-pointing type nodes.
	(ctf_header): Add cth_objtidxoff, cth_funcidxoff.

libctf/
	* ctf-open.c (init_symtab): Check for overflow against the right
	section.
	(upgrade_header): Set cth_objtidxoff, cth_funcidxoff to zero-length.
	(upgrade_types_v1): Note that these sections are not checked.
	(flip_header): Endian-swap the header fields.
	(flip_ctf): Endian-swap the sections.
	(flip_objts): Update comment.
	(ctf_bufopen): Check header offsets and alignment for validity.
2019-10-03 17:04:55 +01:00
Nick Alcock
6d5944fca6 libctf, bfd: fix ctf_bfdopen_ctfsect opening symbol and string sections
The code in ctf_bfdopen_ctfsect (which is the ultimate place where you
end up if you use ctf_open to open a CTF file and pull in the ELF string
and symbol tables) was written before it was possible to actually test
it, since the linker was not written.  Now it is, it turns out that the
previous code was completely nonfunctional: it assumed that you could
load the symbol table via bfd_section_from_elf_index (...,elf_onesymtab())
and the string table via bfd_section_from_elf_index on the sh_link.

Unfortunately BFD loads neither of these sections in the conventional
fashion it uses for most others: the symbol table is immediately
converted into internal form (which is useless for our purposes, since
we also have to work in the absence of BFD for readelf, etc) and the
string table is loaded specially via bfd_elf_get_str_section which is
private to bfd/elf.c.

So make this function public, export it in elf-bfd.h, and use it from
libctf, which does something similar to what bfd_elf_sym_name and
bfd_elf_string_from_elf_section do.  Similarly, load the symbol table
manually using bfd_elf_get_elf_syms and throw away the internal form
it generates for us (we never use it).

BFD allocates the strtab for us via bfd_alloc, so we can leave BFD to
deallocate it: we allocate the symbol table ourselves before calling
bfd_elf_get_elf_syms, so we still have to free it.

Also change the rules around what you are allowed to provide: It is
useful to provide a string section but no symbol table, because CTF
sections can legitimately have no function info or data object sections
while relying on the ELF strtab for some of their strings.  So allow
that combination.

v4: adjust to upstream changes.  ctf_bfdopen_ctfsect's first parameter
    is potentially unused again (if BFD is not in use for this link
    due to not supporting an ELF target).
v5: fix tabdamage.

bfd/
	* elf-bfd.h (bfd_elf_get_str_section): Add.
	* elf.c (bfd_elf_get_str_section): No longer static.

libctf/
	* ctf-open-bfd.c: Add <assert.h>.
	(ctf_bfdopen_ctfsect): Open string and symbol tables using
	techniques borrowed from bfd_elf_sym_name.
	(ctf_new_archive_internal): Improve comment.
	* ctf-archive.c (ctf_arc_close): Do not free the ctfi_strsect.
	* ctf-open.c (ctf_bufopen): Allow opening with a string section but
	no symbol section, but not vice versa.
2019-10-03 17:04:55 +01:00
Nick Alcock
9b32cba44d libctf, binutils: dump the CTF header
The CTF header has before now been thrown away too soon to be dumped
using the ctf_dump() machinery used by objdump and readelf: instead, a
kludge involving debugging-priority dumps of the header offsets on every
open was used.

Replace this with proper first-class dumping machinery just like
everything else in the CTF file, and have objdump and readelf use it.
(The dumper already had an enum value in ctf_sect_names_t for this
purpose, waiting to be used.)

v5: fix tabdamage.

libctf/
	* ctf-impl.h (ctf_file_t): New field ctf_openflags.
	* ctf-open.c (ctf_bufopen): Set it.  No longer dump header offsets.
	* ctf-dump.c (dump_header): New function, dump the CTF header.
	(ctf_dump): Call it.
	(ctf_dump_header_strfield): New function.
	(ctf_dump_header_sectfield): Likewise.

binutils/
	* objdump.c (dump_ctf_archive_member): Dump the CTF header.
	* readelf.c (dump_section_as_ctf): Likewise.
2019-10-03 17:04:55 +01:00
Nick Alcock
fd55eae84d libctf: allow the header to change between versions
libctf supports dynamic upgrading of the type table as file format
versions change, but before now has not supported changes to the CTF
header.  Doing this is complicated by the baroque storage method used:
the CTF header is kept prepended to the rest of the CTF data, just as
when read from the file, and written out from there, and is
endian-flipped in place.

This makes accessing it needlessly hard and makes it almost impossible
to make the header larger if we add fields.  The general storage
machinery around the malloced ctf pointer (the 'ctf_base') is also
overcomplicated: the pointer is sometimes malloced locally and sometimes
assigned from a parameter, so freeing it requires checking to see if
that parameter was used, needlessly coupling ctf_bufopen and
ctf_file_close together.

So split the header out into a new ctf_file_t.ctf_header, which is
written out explicitly: squeeze it out of the CTF buffer whenever we
reallocate it, and use ctf_file_t.ctf_buf to skip past the header when
we do not need to reallocate (when no upgrading or endian-flipping is
required).  We now track whether the CTF base can be freed explicitly
via a new ctf_dynbase pointer which is non-NULL only when freeing is
possible.

With all this done, we can upgrade the header on the fly and add new
fields as desired, via a new upgrade_header function in ctf-open.
As with other forms of upgrading, libctf upgrades older headers
automatically to the latest supported version at open time.

For a first use of this field, we add a new string field cth_cuname, and
a corresponding setter/getter pair ctf_cuname_set and ctf_cuname: this
is used by debuggers to determine whether a CTF section's types relate
to a single compilation unit, or to all compilation units in the
program.  (Types with ambiguous definitions in different CUs have only
one of these types placed in the top-level shared .ctf container: the
rest are placed in much smaller per-CU containers, which have the shared
container as their parent.  Since CTF must be useful in the absence of
DWARF, we store the names of the relevant CUs ourselves, so the debugger
can look them up.)

v5: fix tabdamage.

include/
	* ctf-api.h (ctf_cuname): New function.
	(ctf_cuname_set): Likewise.
	* ctf.h: Improve comment around upgrading, no longer
	implying that v2 is the target of upgrades (it is v3 now).
	(ctf_header_v2_t): New, old-format header for backward
	compatibility.
	(ctf_header_t): Add cth_cuname: this is the first of several
	header changes in format v3.
libctf/
	* ctf-impl.h (ctf_file_t): New fields ctf_header, ctf_dynbase,
	ctf_cuname, ctf_dyncuname: ctf_base and ctf_buf are no longer const.
	* ctf-open.c (ctf_set_base): Preserve the gap between ctf_buf and
	ctf_base: do not assume that it is always sizeof (ctf_header_t).
	Print out ctf_cuname: only print out ctf_parname if set.
	(ctf_free_base): Removed, ctf_base is no longer freed: free
	ctf_dynbase instead.
	(ctf_set_version): Fix spacing.
	(upgrade_header): New, in-place header upgrading.
	(upgrade_types): Rename to...
	(upgrade_types_v1): ... this.  Free ctf_dynbase, not ctf_base.  No
	longer track old and new headers separately.  No longer allow for
	header sizes explicitly: squeeze the headers out on upgrade (they
	are preserved in fp->ctf_header).  Set ctf_dynbase, ctf_base and
	ctf_buf explicitly.  Use ctf_free, not ctf_free_base.
	(upgrade_types): New, also handle ctf_parmax updating.
	(flip_header): Flip ctf_cuname.
	(flip_types): Flip BUF explicitly rather than deriving BUF from
	BASE.
	(ctf_bufopen): Store the header in fp->ctf_header.  Correct minimum
	required alignment of objtoff and funcoff.  No longer store it in
	the ctf_buf unless that buf is derived unmodified from the input.
	Set ctf_dynbase where ctf_base is dynamically allocated. Drop locals
	that duplicate fields in ctf_file: move allocation of ctf_file
	further up instead.  Call upgrade_header as needed.  Move
	version-specific ctf_parmax initialization into upgrade_types.  More
	concise error handling.
	(ctf_file_close): No longer test for null pointers before freeing.
	Free ctf_dyncuname, ctf_dynbase, and ctf_header.  Do not call
	ctf_free_base.
	(ctf_cuname): New.
	(ctf_cuname_set): New.
	* ctf-create.c (ctf_update): Populate ctf_cuname.
	(ctf_gzwrite): Write out the header explicitly.  Remove obsolescent
	comment.
	(ctf_write): Likewise.
	(ctf_compress_write): Get the header from ctf_header, not ctf_base.
	Fix the compression length: fp->ctf_size never counted the CTF
	header.  Simplify the compress call accordingly.
2019-10-03 17:04:55 +01:00
Nick Alcock
083114f8ba libctf, include: ChangeLog format fixes
Double-spaces before email addresses were consistently missing.
2019-10-03 17:04:55 +01:00
Hans-Peter Nilsson
a2230b5e62 libctf: make it compile for old glibc
With a glibc before 2.9 (such as 2.8), there's <endian.h> but no
htole64 or le64toh, so you get, compiling binutils for any target:

libtool: link: gcc -W -Wall -Wstrict-prototypes -Wmissing-prototypes \
-Wshadow -Werror -I/x/binutils/../zlib -g -O2 -o objdump \
objdump.o dwarf.o prdbg.o rddbg.o debug.o stabs.o rdcoff.o \
bucomm.o version.o filemode.o elfcomm.o  ../opcodes/.libs/libopcodes.a \
../libctf/libctf.a ../bfd/.libs/libbfd.a -L/x/obj/b/zlib -lz ../libiberty/libiberty.a -ldl
../libctf/libctf.a(ctf-archive.o): In function `ctf_archive_raw_iter_internal':
/x/src/libctf/ctf-archive.c:543: undefined reference to `le64toh'
/x/src/libctf/ctf-archive.c:550: undefined reference to `le64toh'
/x/src/libctf/ctf-archive.c:551: undefined reference to `le64toh'
/x/src/libctf/ctf-archive.c:551: undefined reference to `le64toh'
/x/src/libctf/ctf-archive.c:554: undefined reference to `le64toh'
../libctf/libctf.a(ctf-archive.o):/x/src/libctf/ctf-archive.c:545: more undefined references to `le64toh' follow
(etc)

Also, I see no bswap_identity_64 *anywhere* except in libctf/swap.h
(including current glibc) and I don't think calling an "identity"-
function is better than just plain "#define foo(x) (x)" anyway.
(Where does the idea of a bytestap.h bswap_identity_64 come from?)

Speaking of that, I should mention that I instrumented the condition
to observe that the WORDS_BIGENDIAN case passes too for a presumed
big-endian target and glibc-2.8: there is a bswap_64 present for that
version.  Curiously, no test-case regressed with that instrumentation.

For the record, constructing binary blobs using text source to run
tests on, can be done by linking to --oformat binary (with most ELF
targets), but I guess that's seen as unnecessary roundabout perhaps
checking in binary files in the test-suite would be ok these days.
[...]

[nca: trimmed commit log slightly, updated changelog]

v5: fix tabdamage.

libctf/
	* ctf-endian.h: Don't assume htole64 and le64toh are always
	present if HAVE_ENDIAN_H; also check if htole64 is defined.
	[!WORDS_BIGENDIAN] (htole64, le64toh): Define as identity,
	not bswap_identity_64.
2019-10-03 17:04:55 +01:00
Alan Modra
fd3619828e bfd_section_* macros
This large patch removes the unnecessary bfd parameter from various
bfd section macros and functions.  The bfd is hardly ever used and if
needed for the bfd_set_section_* or bfd_rename_section functions can
be found via section->owner except for the com, und, abs, and ind
std_section special sections.  Those sections shouldn't be modified
anyway.

The patch also removes various bfd_get_section_<field> macros,
replacing their use with bfd_section_<field>, and adds
bfd_set_section_lma.  I've also fixed a minor bug in gas where
compressed section renaming was done directly rather than calling
bfd_rename_section.  This would have broken bfd_get_section_by_name
and similar functions, but that hardly mattered at such a late stage
in gas processing.

bfd/
	* bfd-in.h (bfd_get_section_name, bfd_get_section_vma),
	(bfd_get_section_lma, bfd_get_section_alignment),
	(bfd_get_section_size, bfd_get_section_flags),
	(bfd_get_section_userdata): Delete.
	(bfd_section_name, bfd_section_size, bfd_section_vma),
	(bfd_section_lma, bfd_section_alignment): Lose bfd parameter.
	(bfd_section_flags, bfd_section_userdata): New.
	(bfd_is_com_section): Rename parameter.
	* section.c (bfd_set_section_userdata, bfd_set_section_vma),
	(bfd_set_section_alignment, bfd_set_section_flags, bfd_rename_section),
	(bfd_set_section_size): Delete bfd parameter, rename section parameter.
	(bfd_set_section_lma): New.
	* bfd-in2.h: Regenerate.
	* mach-o.c (bfd_mach_o_init_section_from_mach_o): Delete bfd param,
	update callers.
	* aoutx.h, * bfd.c, * coff-alpha.c, * coff-arm.c, * coff-mips.c,
	* coff64-rs6000.c, * coffcode.h, * coffgen.c, * cofflink.c,
	* compress.c, * ecoff.c, * elf-eh-frame.c, * elf-hppa.h,
	* elf-ifunc.c, * elf-m10200.c, * elf-m10300.c, * elf-properties.c,
	* elf-s390-common.c, * elf-vxworks.c, * elf.c, * elf32-arc.c,
	* elf32-arm.c, * elf32-avr.c, * elf32-bfin.c, * elf32-cr16.c,
	* elf32-cr16c.c, * elf32-cris.c, * elf32-crx.c, * elf32-csky.c,
	* elf32-d10v.c, * elf32-epiphany.c, * elf32-fr30.c, * elf32-frv.c,
	* elf32-ft32.c, * elf32-h8300.c, * elf32-hppa.c, * elf32-i386.c,
	* elf32-ip2k.c, * elf32-iq2000.c, * elf32-lm32.c, * elf32-m32c.c,
	* elf32-m32r.c, * elf32-m68hc1x.c, * elf32-m68k.c, * elf32-mcore.c,
	* elf32-mep.c, * elf32-metag.c, * elf32-microblaze.c,
	* elf32-moxie.c, * elf32-msp430.c, * elf32-mt.c, * elf32-nds32.c,
	* elf32-nios2.c, * elf32-or1k.c, * elf32-ppc.c, * elf32-pru.c,
	* elf32-rl78.c, * elf32-rx.c, * elf32-s390.c, * elf32-score.c,
	* elf32-score7.c, * elf32-sh.c, * elf32-spu.c, * elf32-tic6x.c,
	* elf32-tilepro.c, * elf32-v850.c, * elf32-vax.c, * elf32-visium.c,
	* elf32-xstormy16.c, * elf32-xtensa.c, * elf64-alpha.c,
	* elf64-bpf.c, * elf64-hppa.c, * elf64-ia64-vms.c, * elf64-mmix.c,
	* elf64-ppc.c, * elf64-s390.c, * elf64-sparc.c, * elf64-x86-64.c,
	* elflink.c, * elfnn-aarch64.c, * elfnn-ia64.c, * elfnn-riscv.c,
	* elfxx-aarch64.c, * elfxx-mips.c, * elfxx-sparc.c,
	* elfxx-tilegx.c, * elfxx-x86.c, * i386msdos.c, * linker.c,
	* mach-o.c, * mmo.c, * opncls.c, * pdp11.c, * pei-x86_64.c,
	* peicode.h, * reloc.c, * section.c, * syms.c, * vms-alpha.c,
	* xcofflink.c: Update throughout for bfd section macro and function
	changes.
binutils/
	* addr2line.c, * bucomm.c, * coffgrok.c, * dlltool.c, * nm.c,
	* objcopy.c, * objdump.c, * od-elf32_avr.c, * od-macho.c,
	* od-xcoff.c, * prdbg.c, * rdcoff.c, * rddbg.c, * rescoff.c,
	* resres.c, * size.c, * srconv.c, * strings.c, * windmc.c: Update
	throughout for bfd section macro and function changes.
gas/
	* as.c, * as.h, * dw2gencfi.c, * dwarf2dbg.c, * ecoff.c,
	* read.c, * stabs.c, * subsegs.c, * subsegs.h, * write.c,
	* config/obj-coff-seh.c, * config/obj-coff.c, * config/obj-ecoff.c,
	* config/obj-elf.c, * config/obj-macho.c, * config/obj-som.c,
	* config/tc-aarch64.c, * config/tc-alpha.c, * config/tc-arc.c,
	* config/tc-arm.c, * config/tc-avr.c, * config/tc-bfin.c,
	* config/tc-bpf.c, * config/tc-d10v.c, * config/tc-d30v.c,
	* config/tc-epiphany.c, * config/tc-fr30.c, * config/tc-frv.c,
	* config/tc-h8300.c, * config/tc-hppa.c, * config/tc-i386.c,
	* config/tc-ia64.c, * config/tc-ip2k.c, * config/tc-iq2000.c,
	* config/tc-lm32.c, * config/tc-m32c.c, * config/tc-m32r.c,
	* config/tc-m68hc11.c, * config/tc-mep.c, * config/tc-microblaze.c,
	* config/tc-mips.c, * config/tc-mmix.c, * config/tc-mn10200.c,
	* config/tc-mn10300.c, * config/tc-msp430.c, * config/tc-mt.c,
	* config/tc-nds32.c, * config/tc-or1k.c, * config/tc-ppc.c,
	* config/tc-pru.c, * config/tc-rl78.c, * config/tc-rx.c,
	* config/tc-s12z.c, * config/tc-s390.c, * config/tc-score.c,
	* config/tc-score7.c, * config/tc-sh.c, * config/tc-sparc.c,
	* config/tc-spu.c, * config/tc-tic4x.c, * config/tc-tic54x.c,
	* config/tc-tic6x.c, * config/tc-tilegx.c, * config/tc-tilepro.c,
	* config/tc-v850.c, * config/tc-visium.c, * config/tc-wasm32.c,
	* config/tc-xc16x.c, * config/tc-xgate.c, * config/tc-xstormy16.c,
	* config/tc-xtensa.c, * config/tc-z8k.c: Update throughout for
	bfd section macro and function changes.
	* write.c (compress_debug): Use bfd_rename_section.
gdb/
	* aarch64-linux-tdep.c, * arm-tdep.c, * auto-load.c,
	* coff-pe-read.c, * coffread.c, * corelow.c, * dbxread.c,
	* dicos-tdep.c, * dwarf2-frame.c, * dwarf2read.c, * elfread.c,
	* exec.c, * fbsd-tdep.c, * gcore.c, * gdb_bfd.c, * gdb_bfd.h,
	* hppa-tdep.c, * i386-cygwin-tdep.c, * i386-fbsd-tdep.c,
	* i386-linux-tdep.c, * jit.c, * linux-tdep.c, * machoread.c,
	* maint.c, * mdebugread.c, * minidebug.c, * mips-linux-tdep.c,
	* mips-sde-tdep.c, * mips-tdep.c, * mipsread.c, * nto-tdep.c,
	* objfiles.c, * objfiles.h, * osabi.c, * ppc-linux-tdep.c,
	* ppc64-tdep.c, * record-btrace.c, * record-full.c, * remote.c,
	* rs6000-aix-tdep.c, * rs6000-tdep.c, * s390-linux-tdep.c,
	* s390-tdep.c, * solib-aix.c, * solib-dsbt.c, * solib-frv.c,
	* solib-spu.c, * solib-svr4.c, * solib-target.c,
	* spu-linux-nat.c, * spu-tdep.c, * symfile-mem.c, * symfile.c,
	* symmisc.c, * symtab.c, * target.c, * windows-nat.c,
	* xcoffread.c, * cli/cli-dump.c, * compile/compile-object-load.c,
	* mi/mi-interp.c: Update throughout for bfd section macro and
	function changes.
	* gcore (gcore_create_callback): Use bfd_set_section_lma.
	* spu-tdep.c (spu_overlay_new_objfile): Likewise.
gprof/
	* corefile.c, * symtab.c: Update throughout for bfd section
	macro and function changes.
ld/
	* ldcref.c, * ldctor.c, * ldelf.c, * ldlang.c, * pe-dll.c,
	* emultempl/aarch64elf.em, * emultempl/aix.em,
	* emultempl/armcoff.em, * emultempl/armelf.em,
	* emultempl/cr16elf.em, * emultempl/cskyelf.em,
	* emultempl/m68hc1xelf.em, * emultempl/m68kelf.em,
	* emultempl/mipself.em, * emultempl/mmix-elfnmmo.em,
	* emultempl/mmo.em, * emultempl/msp430.em,
	* emultempl/nios2elf.em, * emultempl/pe.em, * emultempl/pep.em,
	* emultempl/ppc64elf.em, * emultempl/xtensaelf.em: Update
	throughout for bfd section macro and function changes.
libctf/
	* ctf-open-bfd.c: Update throughout for bfd section macro changes.
opcodes/
	* arc-ext.c: Update throughout for bfd section macro changes.
sim/
	* common/sim-load.c, * common/sim-utils.c, * cris/sim-if.c,
	* erc32/func.c, * lm32/sim-if.c, * m32c/load.c, * m32c/trace.c,
	* m68hc11/interp.c, * ppc/hw_htab.c, * ppc/hw_init.c,
	* rl78/load.c, * rl78/trace.c, * rx/gdb-if.c, * rx/load.c,
	* rx/trace.c: Update throughout for bfd section macro changes.
2019-09-19 09:40:13 +09:30