lld/docs/ELF/warn_backrefs.rst - llvm-project - Git at Google

 --warn-backrefs
 ===============

 ``--warn-backrefs`` gives a warning when an undefined symbol reference is
 resolved by a definition in an archive to the left of it on the command line.

 A linker such as GNU ld makes a single pass over the input files from left to
 right maintaining the set of undefined symbol references from the files loaded
 so far. When encountering an archive or an object file surrounded by
 ``--start-lib`` and ``--end-lib`` that archive will be searched for resolving
 symbol definitions; this may result in input files being loaded, updating the
 set of undefined symbol references. When all resolving definitions have been
 loaded from the archive, the linker moves on the next file and will not return
 to it.  This means that if an input file to the right of a archive cannot have
 an undefined symbol resolved by a archive to the left of it. For example:

     ld def.a ref.o

 will result in an ``undefined reference`` error. If there are no cyclic
 references, the archives can be ordered in such a way that there are no
 backward references. If there are cyclic references then the ``--start-group``
 and ``--end-group`` options can be used, or the same archive can be placed on
 the command line twice.

 LLD remembers the symbol table of archives that it has previously seen, so if
 there is a reference from an input file to the right of an archive, LLD will
 still search that archive for resolving any undefined references. This means
 that an archive only needs to be included once on the command line and the
 ``--start-group`` and ``--end-group`` options are redundant.

 A consequence of the differing archive searching semantics is that the same
 linker command line can result in different outcomes. A link may succeed with
 LLD that will fail with GNU ld, or even worse both links succeed but they have
 selected different objects from different archives that both define the same
 symbols.

 The ``warn-backrefs`` option provides information that helps identify cases
 where LLD and GNU ld archive selection may differ.

     | % ld.lld --warn-backrefs ... -lB -lA
     | ld.lld: warning: backward reference detected: system in A.a(a.o) refers to B.a(b.o)

     | % ld.lld --warn-backrefs ... --start-lib B/b.o --end-lib --start-lib A/a.o --end-lib
     | ld.lld: warning: backward reference detected: system in A/a.o refers to B/b.o

     # To suppress the warning, you can specify --warn-backrefs-exclude=<glob> to match B/b.o or B.a(b.o)

 The ``--warn-backrefs`` option can also provide a check to enforce a
 topological order of archives, which can be useful to detect layering
 violations (albeit unable to catch all cases). There are two cases where GNU ld
 will result in an ``undefined reference`` error:

 * If adding the dependency does not form a cycle: conceptually ``A`` is higher
   level library while ``B`` is at a lower level. When you are developing an
   application ``P`` which depends on ``A``, but does not directly depend on
   ``B``, your link may fail surprisingly with ``undefined symbol:
   symbol_defined_in_B`` if the used/linked part of ``A`` happens to need some
   components of ``B``. It is inappropriate for ``P`` to add a dependency on
   ``B`` since ``P`` does not use ``B`` directly.
 * If adding the dependency forms a cycle, e.g. ``B->C->A ~> B``. ``A``
   is supposed to be at the lowest level while ``B`` is supposed to be at the
   highest level. When you are developing ``C_test`` testing ``C``, your link may
   fail surprisingly with ``undefined symbol`` if there is somehow a dependency on
   some components of ``B``. You could fix the issue by adding the missing
   dependency (``B``), however, then every test (``A_test``, ``B_test``,
   ``C_test``) will link against every library. This breaks the motivation
   of splitting ``B``, ``C`` and ``A`` into separate libraries and makes binaries
   unnecessarily large. Moreover, the layering violation makes lower-level
   libraries (e.g. ``A``) vulnerable to changes to higher-level libraries (e.g.
   ``B``, ``C``).

 Resolution:

 * Add a dependency from ``A`` to ``B``.
 * The reference may be unintended and can be removed.
 * The dependency may be intentionally omitted because there are multiple
   libraries like ``B``.  Consider linking ``B`` with object semantics by
   surrounding it with ``--whole-archive`` and ``--no-whole-archive``.
 * In the case of circular dependency, sometimes merging the libraries are the best.

 There are two cases like a library sandwich where GNU ld will select a
 different object.

 * ``A.a B A2.so``: ``A.a`` may be used as an interceptor (e.g. it provides some
   optimized libc functions and ``A2`` is libc).  ``B`` does not need to know
   about ``A.a``, and ``A.a`` may be pulled into the link by other part of the
   program. For linker portability, consider ``--whole-archive`` and
   ``--no-whole-archive``.

 * ``A.a B A2.a``: similar to the above case but ``--warn-backrefs`` does not
   flag the problem, because ``A2.a`` may be a replicate of ``A.a``, which is
   redundant but benign. In some cases ``A.a`` and ``B`` should be surrounded by
   a pair of ``--start-group`` and ``--end-group``. This is especially common
   among system libraries (e.g.  ``-lc __isnanl references -lm``, ``-lc
   _IO_funlockfile references -lpthread``, ``-lc __gcc_personality_v0 references
   -lgcc_eh``, and ``-lpthread _Unwind_GetCFA references -lunwind``).

   In C++, this is likely an ODR violation. We probably need a dedicated option
   for ODR detection.
	--warn-backrefs
	===============

	``--warn-backrefs`` gives a warning when an undefined symbol reference is
	resolved by a definition in an archive to the left of it on the command line.

	A linker such as GNU ld makes a single pass over the input files from left to
	right maintaining the set of undefined symbol references from the files loaded
	so far. When encountering an archive or an object file surrounded by
	``--start-lib`` and ``--end-lib`` that archive will be searched for resolving
	symbol definitions; this may result in input files being loaded, updating the
	set of undefined symbol references. When all resolving definitions have been
	loaded from the archive, the linker moves on the next file and will not return
	to it. This means that if an input file to the right of a archive cannot have
	an undefined symbol resolved by a archive to the left of it. For example:

	ld def.a ref.o

	will result in an ``undefined reference`` error. If there are no cyclic
	references, the archives can be ordered in such a way that there are no
	backward references. If there are cyclic references then the ``--start-group``
	and ``--end-group`` options can be used, or the same archive can be placed on
	the command line twice.

	LLD remembers the symbol table of archives that it has previously seen, so if
	there is a reference from an input file to the right of an archive, LLD will
	still search that archive for resolving any undefined references. This means
	that an archive only needs to be included once on the command line and the
	``--start-group`` and ``--end-group`` options are redundant.

	A consequence of the differing archive searching semantics is that the same
	linker command line can result in different outcomes. A link may succeed with
	LLD that will fail with GNU ld, or even worse both links succeed but they have
	selected different objects from different archives that both define the same
	symbols.

	The ``warn-backrefs`` option provides information that helps identify cases
	where LLD and GNU ld archive selection may differ.

	\| % ld.lld --warn-backrefs ... -lB -lA
	\| ld.lld: warning: backward reference detected: system in A.a(a.o) refers to B.a(b.o)

	\| % ld.lld --warn-backrefs ... --start-lib B/b.o --end-lib --start-lib A/a.o --end-lib
	\| ld.lld: warning: backward reference detected: system in A/a.o refers to B/b.o

	# To suppress the warning, you can specify --warn-backrefs-exclude=<glob> to match B/b.o or B.a(b.o)

	The ``--warn-backrefs`` option can also provide a check to enforce a
	topological order of archives, which can be useful to detect layering
	violations (albeit unable to catch all cases). There are two cases where GNU ld
	will result in an ``undefined reference`` error:

	* If adding the dependency does not form a cycle: conceptually ``A`` is higher
	level library while ``B`` is at a lower level. When you are developing an
	application ``P`` which depends on ``A``, but does not directly depend on
	``B``, your link may fail surprisingly with ``undefined symbol:
	symbol_defined_in_B`` if the used/linked part of ``A`` happens to need some
	components of ``B``. It is inappropriate for ``P`` to add a dependency on
	``B`` since ``P`` does not use ``B`` directly.
	* If adding the dependency forms a cycle, e.g. ``B->C->A ~> B``. ``A``
	is supposed to be at the lowest level while ``B`` is supposed to be at the
	highest level. When you are developing ``C_test`` testing ``C``, your link may
	fail surprisingly with ``undefined symbol`` if there is somehow a dependency on
	some components of ``B``. You could fix the issue by adding the missing
	dependency (``B``), however, then every test (``A_test``, ``B_test``,
	``C_test``) will link against every library. This breaks the motivation
	of splitting ``B``, ``C`` and ``A`` into separate libraries and makes binaries
	unnecessarily large. Moreover, the layering violation makes lower-level
	libraries (e.g. ``A``) vulnerable to changes to higher-level libraries (e.g.
	``B``, ``C``).

	Resolution:

	* Add a dependency from ``A`` to ``B``.
	* The reference may be unintended and can be removed.
	* The dependency may be intentionally omitted because there are multiple
	libraries like ``B``. Consider linking ``B`` with object semantics by
	surrounding it with ``--whole-archive`` and ``--no-whole-archive``.
	* In the case of circular dependency, sometimes merging the libraries are the best.

	There are two cases like a library sandwich where GNU ld will select a
	different object.

	* ``A.a B A2.so``: ``A.a`` may be used as an interceptor (e.g. it provides some
	optimized libc functions and ``A2`` is libc). ``B`` does not need to know
	about ``A.a``, and ``A.a`` may be pulled into the link by other part of the
	program. For linker portability, consider ``--whole-archive`` and
	``--no-whole-archive``.

	* ``A.a B A2.a``: similar to the above case but ``--warn-backrefs`` does not
	flag the problem, because ``A2.a`` may be a replicate of ``A.a``, which is
	redundant but benign. In some cases ``A.a`` and ``B`` should be surrounded by
	a pair of ``--start-group`` and ``--end-group``. This is especially common
	among system libraries (e.g. ``-lc __isnanl references -lm``, ``-lc
	_IO_funlockfile references -lpthread``, ``-lc __gcc_personality_v0 references
	-lgcc_eh``, and ``-lpthread _Unwind_GetCFA references -lunwind``).

	In C++, this is likely an ODR violation. We probably need a dedicated option
	for ODR detection.