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194be1c7dd
This patch lets the bb_addr_map (renamed to __llvm_bb_addr_map) section use a special section type (SHT_LLVM_BB_ADDR_MAP) instead of SHT_PROGBITS. This would help parsers, dumpers and other tools to use the sh_type ELF field to identify this section rather than relying on string comparison on the section name. Reviewed By: jhenderson Differential Revision: https://reviews.llvm.org/D88199
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ReStructuredText
583 lines
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ReStructuredText
===============
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LLVM Extensions
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===============
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.. contents::
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:local:
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.. toctree::
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:hidden:
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Introduction
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============
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This document describes extensions to tools and formats LLVM seeks compatibility
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with.
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General Assembly Syntax
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===========================
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C99-style Hexadecimal Floating-point Constants
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----------------------------------------------
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LLVM's assemblers allow floating-point constants to be written in C99's
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hexadecimal format instead of decimal if desired.
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.. code-block:: gas
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.section .data
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.float 0x1c2.2ap3
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Machine-specific Assembly Syntax
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================================
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X86/COFF-Dependent
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------------------
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Relocations
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^^^^^^^^^^^
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The following additional relocation types are supported:
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**@IMGREL** (AT&T syntax only) generates an image-relative relocation that
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corresponds to the COFF relocation types ``IMAGE_REL_I386_DIR32NB`` (32-bit) or
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``IMAGE_REL_AMD64_ADDR32NB`` (64-bit).
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.. code-block:: text
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.text
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fun:
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mov foo@IMGREL(%ebx, %ecx, 4), %eax
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.section .pdata
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.long fun@IMGREL
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.long (fun@imgrel + 0x3F)
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.long $unwind$fun@imgrel
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**.secrel32** generates a relocation that corresponds to the COFF relocation
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types ``IMAGE_REL_I386_SECREL`` (32-bit) or ``IMAGE_REL_AMD64_SECREL`` (64-bit).
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**.secidx** relocation generates an index of the section that contains
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the target. It corresponds to the COFF relocation types
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``IMAGE_REL_I386_SECTION`` (32-bit) or ``IMAGE_REL_AMD64_SECTION`` (64-bit).
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.. code-block:: none
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.section .debug$S,"rn"
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.long 4
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.long 242
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.long 40
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.secrel32 _function_name + 0
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.secidx _function_name
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...
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``.linkonce`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Syntax:
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``.linkonce [ comdat type ]``
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Supported COMDAT types:
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``discard``
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Discards duplicate sections with the same COMDAT symbol. This is the default
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if no type is specified.
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``one_only``
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If the symbol is defined multiple times, the linker issues an error.
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``same_size``
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Duplicates are discarded, but the linker issues an error if any have
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different sizes.
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``same_contents``
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Duplicates are discarded, but the linker issues an error if any duplicates
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do not have exactly the same content.
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``largest``
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Links the largest section from among the duplicates.
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``newest``
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Links the newest section from among the duplicates.
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.. code-block:: gas
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.section .text$foo
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.linkonce
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...
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``.section`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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MC supports passing the information in ``.linkonce`` at the end of
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``.section``. For example, these two codes are equivalent
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.. code-block:: gas
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.section secName, "dr", discard, "Symbol1"
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.globl Symbol1
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Symbol1:
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.long 1
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.. code-block:: gas
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.section secName, "dr"
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.linkonce discard
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.globl Symbol1
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Symbol1:
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.long 1
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Note that in the combined form the COMDAT symbol is explicit. This
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extension exists to support multiple sections with the same name in
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different COMDATs:
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.. code-block:: gas
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.section secName, "dr", discard, "Symbol1"
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.globl Symbol1
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Symbol1:
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.long 1
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.section secName, "dr", discard, "Symbol2"
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.globl Symbol2
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Symbol2:
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.long 1
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In addition to the types allowed with ``.linkonce``, ``.section`` also accepts
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``associative``. The meaning is that the section is linked if a certain other
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COMDAT section is linked. This other section is indicated by the comdat symbol
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in this directive. It can be any symbol defined in the associated section, but
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is usually the associated section's comdat.
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The following restrictions apply to the associated section:
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1. It must be a COMDAT section.
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2. It cannot be another associative COMDAT section.
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In the following example the symbol ``sym`` is the comdat symbol of ``.foo``
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and ``.bar`` is associated to ``.foo``.
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.. code-block:: gas
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.section .foo,"bw",discard, "sym"
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.section .bar,"rd",associative, "sym"
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MC supports these flags in the COFF ``.section`` directive:
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- ``b``: BSS section (``IMAGE_SCN_CNT_INITIALIZED_DATA``)
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- ``d``: Data section (``IMAGE_SCN_CNT_UNINITIALIZED_DATA``)
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- ``n``: Section is not loaded (``IMAGE_SCN_LNK_REMOVE``)
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- ``r``: Read-only
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- ``s``: Shared section
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- ``w``: Writable
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- ``x``: Executable section
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- ``y``: Not readable
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- ``D``: Discardable (``IMAGE_SCN_MEM_DISCARDABLE``)
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These flags are all compatible with gas, with the exception of the ``D`` flag,
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which gnu as does not support. For gas compatibility, sections with a name
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starting with ".debug" are implicitly discardable.
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ARM64/COFF-Dependent
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--------------------
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Relocations
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^^^^^^^^^^^
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The following additional symbol variants are supported:
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**:secrel_lo12:** generates a relocation that corresponds to the COFF relocation
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types ``IMAGE_REL_ARM64_SECREL_LOW12A`` or ``IMAGE_REL_ARM64_SECREL_LOW12L``.
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**:secrel_hi12:** generates a relocation that corresponds to the COFF relocation
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type ``IMAGE_REL_ARM64_SECREL_HIGH12A``.
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.. code-block:: gas
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add x0, x0, :secrel_hi12:symbol
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ldr x0, [x0, :secrel_lo12:symbol]
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add x1, x1, :secrel_hi12:symbol
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add x1, x1, :secrel_lo12:symbol
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...
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ELF-Dependent
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-------------
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``.section`` Directive
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^^^^^^^^^^^^^^^^^^^^^^
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In order to support creating multiple sections with the same name and comdat,
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it is possible to add an unique number at the end of the ``.section`` directive.
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For example, the following code creates two sections named ``.text``.
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.. code-block:: gas
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.section .text,"ax",@progbits,unique,1
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nop
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.section .text,"ax",@progbits,unique,2
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nop
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The unique number is not present in the resulting object at all. It is just used
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in the assembler to differentiate the sections.
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The 'o' flag is mapped to SHF_LINK_ORDER. If it is present, a symbol
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must be given that identifies the section to be placed is the
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.sh_link.
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.. code-block:: gas
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.section .foo,"a",@progbits
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.Ltmp:
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.section .bar,"ao",@progbits,.Ltmp
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which is equivalent to just
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.. code-block:: gas
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.section .foo,"a",@progbits
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.section .bar,"ao",@progbits,.foo
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``.linker-options`` Section (linker options)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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In order to support passing linker options from the frontend to the linker, a
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special section of type ``SHT_LLVM_LINKER_OPTIONS`` (usually named
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``.linker-options`` though the name is not significant as it is identified by
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the type). The contents of this section is a simple pair-wise encoding of
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directives for consideration by the linker. The strings are encoded as standard
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null-terminated UTF-8 strings. They are emitted inline to avoid having the
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linker traverse the object file for retrieving the value. The linker is
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permitted to not honour the option and instead provide a warning/error to the
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user that the requested option was not honoured.
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The section has type ``SHT_LLVM_LINKER_OPTIONS`` and has the ``SHF_EXCLUDE``
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flag to ensure that the section is treated as opaque by linkers which do not
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support the feature and will not be emitted into the final linked binary.
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This would be equivalent to the follow raw assembly:
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.. code-block:: gas
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.section ".linker-options","e",@llvm_linker_options
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.asciz "option 1"
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.asciz "value 1"
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.asciz "option 2"
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.asciz "value 2"
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The following directives are specified:
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- lib
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The parameter identifies a library to be linked against. The library will
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be looked up in the default and any specified library search paths
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(specified to this point).
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- libpath
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The parameter identifies an additional library search path to be considered
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when looking up libraries after the inclusion of this option.
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``SHT_LLVM_DEPENDENT_LIBRARIES`` Section (Dependent Libraries)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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This section contains strings specifying libraries to be added to the link by
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the linker.
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The section should be consumed by the linker and not written to the output.
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The strings are encoded as standard null-terminated UTF-8 strings.
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For example:
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.. code-block:: gas
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.section ".deplibs","MS",@llvm_dependent_libraries,1
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.asciz "library specifier 1"
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.asciz "library specifier 2"
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The interpretation of the library specifiers is defined by the consuming linker.
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``SHT_LLVM_CALL_GRAPH_PROFILE`` Section (Call Graph Profile)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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This section is used to pass a call graph profile to the linker which can be
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used to optimize the placement of sections. It contains a sequence of
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(from symbol, to symbol, weight) tuples.
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It shall have a type of ``SHT_LLVM_CALL_GRAPH_PROFILE`` (0x6fff4c02), shall
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have the ``SHF_EXCLUDE`` flag set, the ``sh_link`` member shall hold the section
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header index of the associated symbol table, and shall have a ``sh_entsize`` of
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16. It should be named ``.llvm.call-graph-profile``.
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The contents of the section shall be a sequence of ``Elf_CGProfile`` entries.
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.. code-block:: c
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typedef struct {
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Elf_Word cgp_from;
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Elf_Word cgp_to;
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Elf_Xword cgp_weight;
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} Elf_CGProfile;
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cgp_from
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The symbol index of the source of the edge.
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cgp_to
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The symbol index of the destination of the edge.
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cgp_weight
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The weight of the edge.
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This is represented in assembly as:
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.. code-block:: gas
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.cg_profile from, to, 42
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``.cg_profile`` directives are processed at the end of the file. It is an error
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if either ``from`` or ``to`` are undefined temporary symbols. If either symbol
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is a temporary symbol, then the section symbol is used instead. If either
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symbol is undefined, then that symbol is defined as if ``.weak symbol`` has been
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written at the end of the file. This forces the symbol to show up in the symbol
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table.
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``SHT_LLVM_ADDRSIG`` Section (address-significance table)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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This section is used to mark symbols as address-significant, i.e. the address
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of the symbol is used in a comparison or leaks outside the translation unit. It
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has the same meaning as the absence of the LLVM attributes ``unnamed_addr``
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and ``local_unnamed_addr``.
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Any sections referred to by symbols that are not marked as address-significant
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in any object file may be safely merged by a linker without breaking the
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address uniqueness guarantee provided by the C and C++ language standards.
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The contents of the section are a sequence of ULEB128-encoded integers
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referring to the symbol table indexes of the address-significant symbols.
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There are two associated assembly directives:
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.. code-block:: gas
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.addrsig
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This instructs the assembler to emit an address-significance table. Without
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this directive, all symbols are considered address-significant.
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.. code-block:: gas
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.addrsig_sym sym
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This marks ``sym`` as address-significant.
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``SHT_LLVM_SYMPART`` Section (symbol partition specification)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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This section is used to mark symbols with the `partition`_ that they
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belong to. An ``.llvm_sympart`` section consists of a null-terminated string
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specifying the name of the partition followed by a relocation referring to
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the symbol that belongs to the partition. It may be constructed as follows:
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.. code-block:: gas
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.section ".llvm_sympart","",@llvm_sympart
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.asciz "libpartition.so"
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.word symbol_in_partition
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.. _partition: https://lld.llvm.org/Partitions.html
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``SHT_LLVM_BB_ADDR_MAP`` Section (basic block address map)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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This section stores the binary address of basic blocks along with other related
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metadata. This information can be used to map binary profiles (like perf
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profiles) directly to machine basic blocks.
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This section is emitted with ``-basic-block-sections=labels`` and will contain
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a BB address map table for every function which may be constructed as follows:
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.. code-block:: gas
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.section ".llvm_bb_addr_map","",@llvm_bb_addr_map
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.quad .Lfunc_begin0 # address of the function
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.byte 2 # number of basic blocks
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# BB record for BB_0
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.uleb128 .Lfunc_beign0-.Lfunc_begin0 # BB_0 offset relative to function entry (always zero)
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.uleb128 .LBB_END0_0-.Lfunc_begin0 # BB_0 size
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.byte x # BB_0 metadata
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# BB record for BB_1
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.uleb128 .LBB0_1-.Lfunc_begin0 # BB_1 offset relative to function entry
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.uleb128 .LBB_END0_1-.Lfunc_begin0 # BB_1 size
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.byte y # BB_1 metadata
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This creates a BB address map table for a function with two basic blocks.
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CodeView-Dependent
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------------------
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``.cv_file`` Directive
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^^^^^^^^^^^^^^^^^^^^^^
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Syntax:
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``.cv_file`` *FileNumber FileName* [ *checksum* ] [ *checksumkind* ]
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``.cv_func_id`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^
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Introduces a function ID that can be used with ``.cv_loc``.
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Syntax:
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``.cv_func_id`` *FunctionId*
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``.cv_inline_site_id`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Introduces a function ID that can be used with ``.cv_loc``. Includes
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``inlined at`` source location information for use in the line table of the
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caller, whether the caller is a real function or another inlined call site.
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Syntax:
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``.cv_inline_site_id`` *FunctionId* ``within`` *Function* ``inlined_at`` *FileNumber Line* [ *Column* ]
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``.cv_loc`` Directive
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^^^^^^^^^^^^^^^^^^^^^
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The first number is a file number, must have been previously assigned with a
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``.file`` directive, the second number is the line number and optionally the
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third number is a column position (zero if not specified). The remaining
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optional items are ``.loc`` sub-directives.
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Syntax:
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``.cv_loc`` *FunctionId FileNumber* [ *Line* ] [ *Column* ] [ *prologue_end* ] [ ``is_stmt`` *value* ]
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``.cv_linetable`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Syntax:
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``.cv_linetable`` *FunctionId* ``,`` *FunctionStart* ``,`` *FunctionEnd*
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``.cv_inline_linetable`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Syntax:
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``.cv_inline_linetable`` *PrimaryFunctionId* ``,`` *FileNumber Line FunctionStart FunctionEnd*
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``.cv_def_range`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The *GapStart* and *GapEnd* options may be repeated as needed.
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Syntax:
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``.cv_def_range`` *RangeStart RangeEnd* [ *GapStart GapEnd* ] ``,`` *bytes*
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``.cv_stringtable`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``.cv_filechecksums`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``.cv_filechecksumoffset`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Syntax:
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``.cv_filechecksumoffset`` *FileNumber*
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``.cv_fpo_data`` Directive
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^^^^^^^^^^^^^^^^^^^^^^^^^^
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Syntax:
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``.cv_fpo_data`` *procsym*
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Target Specific Behaviour
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=========================
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X86
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---
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Relocations
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^^^^^^^^^^^
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``@ABS8`` can be applied to symbols which appear as immediate operands to
|
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instructions that have an 8-bit immediate form for that operand. It causes
|
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the assembler to use the 8-bit form and an 8-bit relocation (e.g. ``R_386_8``
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or ``R_X86_64_8``) for the symbol.
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For example:
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.. code-block:: gas
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cmpq $foo@ABS8, %rdi
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This causes the assembler to select the form of the 64-bit ``cmpq`` instruction
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that takes an 8-bit immediate operand that is sign extended to 64 bits, as
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opposed to ``cmpq $foo, %rdi`` which takes a 32-bit immediate operand. This
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is also not the same as ``cmpb $foo, %dil``, which is an 8-bit comparison.
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Windows on ARM
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--------------
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Stack Probe Emission
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^^^^^^^^^^^^^^^^^^^^
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The reference implementation (Microsoft Visual Studio 2012) emits stack probes
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in the following fashion:
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.. code-block:: gas
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movw r4, #constant
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bl __chkstk
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sub.w sp, sp, r4
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However, this has the limitation of 32 MiB (±16MiB). In order to accommodate
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larger binaries, LLVM supports the use of ``-mcmodel=large`` to allow a 4GiB
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range via a slight deviation. It will generate an indirect jump as follows:
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.. code-block:: gas
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movw r4, #constant
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movw r12, :lower16:__chkstk
|
|
movt r12, :upper16:__chkstk
|
|
blx r12
|
|
sub.w sp, sp, r4
|
|
|
|
Variable Length Arrays
|
|
^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
The reference implementation (Microsoft Visual Studio 2012) does not permit the
|
|
emission of Variable Length Arrays (VLAs).
|
|
|
|
The Windows ARM Itanium ABI extends the base ABI by adding support for emitting
|
|
a dynamic stack allocation. When emitting a variable stack allocation, a call
|
|
to ``__chkstk`` is emitted unconditionally to ensure that guard pages are setup
|
|
properly. The emission of this stack probe emission is handled similar to the
|
|
standard stack probe emission.
|
|
|
|
The MSVC environment does not emit code for VLAs currently.
|
|
|
|
Windows on ARM64
|
|
----------------
|
|
|
|
Stack Probe Emission
|
|
^^^^^^^^^^^^^^^^^^^^
|
|
|
|
The reference implementation (Microsoft Visual Studio 2017) emits stack probes
|
|
in the following fashion:
|
|
|
|
.. code-block:: gas
|
|
|
|
mov x15, #constant
|
|
bl __chkstk
|
|
sub sp, sp, x15, lsl #4
|
|
|
|
However, this has the limitation of 256 MiB (±128MiB). In order to accommodate
|
|
larger binaries, LLVM supports the use of ``-mcmodel=large`` to allow a 8GiB
|
|
(±4GiB) range via a slight deviation. It will generate an indirect jump as
|
|
follows:
|
|
|
|
.. code-block:: gas
|
|
|
|
mov x15, #constant
|
|
adrp x16, __chkstk
|
|
add x16, x16, :lo12:__chkstk
|
|
blr x16
|
|
sub sp, sp, x15, lsl #4
|
|
|