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The example given in asm-annotations.rst to describe the constraints that a function should meet in order to be annotated with a SYM_FUNC_* macro is x86-specific, and not necessarily applicable to architectures using branch-and-link style calling conventions such as arm64. Tweak the example text to call out the x86-specific text. Cc: Mark Brown <broonie@kernel.org> Cc: Jiri Slaby <jslaby@suse.com> Signed-off-by: Will Deacon <will@kernel.org> Link: https://lore.kernel.org/r/20200115184305.1187-1-will@kernel.org Signed-off-by: Jonathan Corbet <corbet@lwn.net>
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9.2 KiB
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218 lines
9.2 KiB
ReStructuredText
Assembler Annotations
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=====================
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Copyright (c) 2017-2019 Jiri Slaby
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This document describes the new macros for annotation of data and code in
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assembly. In particular, it contains information about ``SYM_FUNC_START``,
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``SYM_FUNC_END``, ``SYM_CODE_START``, and similar.
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Rationale
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---------
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Some code like entries, trampolines, or boot code needs to be written in
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assembly. The same as in C, such code is grouped into functions and
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accompanied with data. Standard assemblers do not force users into precisely
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marking these pieces as code, data, or even specifying their length.
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Nevertheless, assemblers provide developers with such annotations to aid
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debuggers throughout assembly. On top of that, developers also want to mark
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some functions as *global* in order to be visible outside of their translation
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units.
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Over time, the Linux kernel has adopted macros from various projects (like
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``binutils``) to facilitate such annotations. So for historic reasons,
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developers have been using ``ENTRY``, ``END``, ``ENDPROC``, and other
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annotations in assembly. Due to the lack of their documentation, the macros
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are used in rather wrong contexts at some locations. Clearly, ``ENTRY`` was
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intended to denote the beginning of global symbols (be it data or code).
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``END`` used to mark the end of data or end of special functions with
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*non-standard* calling convention. In contrast, ``ENDPROC`` should annotate
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only ends of *standard* functions.
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When these macros are used correctly, they help assemblers generate a nice
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object with both sizes and types set correctly. For example, the result of
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``arch/x86/lib/putuser.S``::
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Num: Value Size Type Bind Vis Ndx Name
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25: 0000000000000000 33 FUNC GLOBAL DEFAULT 1 __put_user_1
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29: 0000000000000030 37 FUNC GLOBAL DEFAULT 1 __put_user_2
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32: 0000000000000060 36 FUNC GLOBAL DEFAULT 1 __put_user_4
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35: 0000000000000090 37 FUNC GLOBAL DEFAULT 1 __put_user_8
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This is not only important for debugging purposes. When there are properly
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annotated objects like this, tools can be run on them to generate more useful
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information. In particular, on properly annotated objects, ``objtool`` can be
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run to check and fix the object if needed. Currently, ``objtool`` can report
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missing frame pointer setup/destruction in functions. It can also
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automatically generate annotations for :doc:`ORC unwinder <x86/orc-unwinder>`
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for most code. Both of these are especially important to support reliable
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stack traces which are in turn necessary for :doc:`Kernel live patching
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<livepatch/livepatch>`.
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Caveat and Discussion
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---------------------
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As one might realize, there were only three macros previously. That is indeed
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insufficient to cover all the combinations of cases:
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* standard/non-standard function
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* code/data
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* global/local symbol
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There was a discussion_ and instead of extending the current ``ENTRY/END*``
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macros, it was decided that brand new macros should be introduced instead::
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So how about using macro names that actually show the purpose, instead
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of importing all the crappy, historic, essentially randomly chosen
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debug symbol macro names from the binutils and older kernels?
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.. _discussion: https://lkml.kernel.org/r/20170217104757.28588-1-jslaby@suse.cz
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Macros Description
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------------------
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The new macros are prefixed with the ``SYM_`` prefix and can be divided into
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three main groups:
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1. ``SYM_FUNC_*`` -- to annotate C-like functions. This means functions with
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standard C calling conventions. For example, on x86, this means that the
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stack contains a return address at the predefined place and a return from
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the function can happen in a standard way. When frame pointers are enabled,
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save/restore of frame pointer shall happen at the start/end of a function,
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respectively, too.
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Checking tools like ``objtool`` should ensure such marked functions conform
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to these rules. The tools can also easily annotate these functions with
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debugging information (like *ORC data*) automatically.
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2. ``SYM_CODE_*`` -- special functions called with special stack. Be it
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interrupt handlers with special stack content, trampolines, or startup
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functions.
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Checking tools mostly ignore checking of these functions. But some debug
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information still can be generated automatically. For correct debug data,
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this code needs hints like ``UNWIND_HINT_REGS`` provided by developers.
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3. ``SYM_DATA*`` -- obviously data belonging to ``.data`` sections and not to
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``.text``. Data do not contain instructions, so they have to be treated
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specially by the tools: they should not treat the bytes as instructions,
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nor assign any debug information to them.
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Instruction Macros
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~~~~~~~~~~~~~~~~~~
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This section covers ``SYM_FUNC_*`` and ``SYM_CODE_*`` enumerated above.
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* ``SYM_FUNC_START`` and ``SYM_FUNC_START_LOCAL`` are supposed to be **the
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most frequent markings**. They are used for functions with standard calling
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conventions -- global and local. Like in C, they both align the functions to
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architecture specific ``__ALIGN`` bytes. There are also ``_NOALIGN`` variants
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for special cases where developers do not want this implicit alignment.
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``SYM_FUNC_START_WEAK`` and ``SYM_FUNC_START_WEAK_NOALIGN`` markings are
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also offered as an assembler counterpart to the *weak* attribute known from
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C.
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All of these **shall** be coupled with ``SYM_FUNC_END``. First, it marks
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the sequence of instructions as a function and computes its size to the
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generated object file. Second, it also eases checking and processing such
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object files as the tools can trivially find exact function boundaries.
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So in most cases, developers should write something like in the following
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example, having some asm instructions in between the macros, of course::
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SYM_FUNC_START(memset)
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... asm insns ...
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SYM_FUNC_END(memset)
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In fact, this kind of annotation corresponds to the now deprecated ``ENTRY``
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and ``ENDPROC`` macros.
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* ``SYM_FUNC_START_ALIAS`` and ``SYM_FUNC_START_LOCAL_ALIAS`` serve for those
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who decided to have two or more names for one function. The typical use is::
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SYM_FUNC_START_ALIAS(__memset)
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SYM_FUNC_START(memset)
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... asm insns ...
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SYM_FUNC_END(memset)
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SYM_FUNC_END_ALIAS(__memset)
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In this example, one can call ``__memset`` or ``memset`` with the same
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result, except the debug information for the instructions is generated to
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the object file only once -- for the non-``ALIAS`` case.
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* ``SYM_CODE_START`` and ``SYM_CODE_START_LOCAL`` should be used only in
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special cases -- if you know what you are doing. This is used exclusively
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for interrupt handlers and similar where the calling convention is not the C
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one. ``_NOALIGN`` variants exist too. The use is the same as for the ``FUNC``
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category above::
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SYM_CODE_START_LOCAL(bad_put_user)
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... asm insns ...
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SYM_CODE_END(bad_put_user)
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Again, every ``SYM_CODE_START*`` **shall** be coupled by ``SYM_CODE_END``.
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To some extent, this category corresponds to deprecated ``ENTRY`` and
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``END``. Except ``END`` had several other meanings too.
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* ``SYM_INNER_LABEL*`` is used to denote a label inside some
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``SYM_{CODE,FUNC}_START`` and ``SYM_{CODE,FUNC}_END``. They are very similar
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to C labels, except they can be made global. An example of use::
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SYM_CODE_START(ftrace_caller)
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/* save_mcount_regs fills in first two parameters */
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...
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SYM_INNER_LABEL(ftrace_caller_op_ptr, SYM_L_GLOBAL)
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/* Load the ftrace_ops into the 3rd parameter */
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...
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SYM_INNER_LABEL(ftrace_call, SYM_L_GLOBAL)
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call ftrace_stub
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...
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retq
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SYM_CODE_END(ftrace_caller)
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Data Macros
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~~~~~~~~~~~
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Similar to instructions, there is a couple of macros to describe data in the
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assembly.
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* ``SYM_DATA_START`` and ``SYM_DATA_START_LOCAL`` mark the start of some data
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and shall be used in conjunction with either ``SYM_DATA_END``, or
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``SYM_DATA_END_LABEL``. The latter adds also a label to the end, so that
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people can use ``lstack`` and (local) ``lstack_end`` in the following
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example::
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SYM_DATA_START_LOCAL(lstack)
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.skip 4096
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SYM_DATA_END_LABEL(lstack, SYM_L_LOCAL, lstack_end)
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* ``SYM_DATA`` and ``SYM_DATA_LOCAL`` are variants for simple, mostly one-line
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data::
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SYM_DATA(HEAP, .long rm_heap)
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SYM_DATA(heap_end, .long rm_stack)
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In the end, they expand to ``SYM_DATA_START`` with ``SYM_DATA_END``
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internally.
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Support Macros
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~~~~~~~~~~~~~~
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All the above reduce themselves to some invocation of ``SYM_START``,
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``SYM_END``, or ``SYM_ENTRY`` at last. Normally, developers should avoid using
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these.
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Further, in the above examples, one could see ``SYM_L_LOCAL``. There are also
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``SYM_L_GLOBAL`` and ``SYM_L_WEAK``. All are intended to denote linkage of a
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symbol marked by them. They are used either in ``_LABEL`` variants of the
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earlier macros, or in ``SYM_START``.
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Overriding Macros
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~~~~~~~~~~~~~~~~~
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Architecture can also override any of the macros in their own
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``asm/linkage.h``, including macros specifying the type of a symbol
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(``SYM_T_FUNC``, ``SYM_T_OBJECT``, and ``SYM_T_NONE``). As every macro
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described in this file is surrounded by ``#ifdef`` + ``#endif``, it is enough
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to define the macros differently in the aforementioned architecture-dependent
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header.
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