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ReStructuredText
598 lines
22 KiB
ReStructuredText
Linker Script Generation
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========================
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:link_to_translation:`zh_CN:[中文]`
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Overview
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--------
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There are several :ref:`memory regions<memory-layout>` where code and data can be placed. Code and read-only data are placed by default in flash,
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writable data in RAM, etc. However, it is sometimes necessary to change these default placements. For example, it may
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be necessary to place critical code in RAM for performance reasons or to place code in RTC memory for use in a wake stub or the ULP coprocessor.
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With the linker script generation mechanism, it is possible to specify these placements at the component level within ESP-IDF. The component presents
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information on how it would like to place its symbols, objects or the entire archive. During build the information presented by the components are collected,
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parsed and processed; and the placement rules generated is used to link the app.
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Quick Start
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------------
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This section presents a guide for quickly placing code/data to RAM and RTC memory - placements ESP-IDF provides out-of-the-box.
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For this guide, suppose we have the following::
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- components/
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- my_component/
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- CMakeLists.txt
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- component.mk
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- Kconfig
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- src/
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- my_src1.c
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- my_src2.c
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- my_src3.c
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- my_linker_fragment_file.lf
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- a component named ``my_component`` that is archived as library ``libmy_component.a`` during build
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- three source files archived under the library, ``my_src1.c``, ``my_src2.c`` and ``my_src3.c`` which are compiled as ``my_src1.o``, ``my_src2.o`` and ``my_src3.o``, respectively
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- under ``my_src1.o``, the function ``my_function1`` is defined; under ``my_src2.o``, the function ``my_function2`` is defined
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- there exist bool-type config ``PERFORMANCE_MODE`` (y/n) and int type config ``PERFORMANCE_LEVEL`` (with range 0-3) in my_component's Kconfig
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Creating and Specifying a Linker Fragment File
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Before anything else, a linker fragment file needs to be created. A linker fragment file
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is simply a text file with a ``.lf`` extension upon which the desired placements will be written.
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After creating the file, it is then necessary to present it to the build system. The instructions for the build systems
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supported by ESP-IDF are as follows:
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Make
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""""
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In the component's ``component.mk`` file, set the variable ``COMPONENT_ADD_LDFRAGMENTS`` to the path of the created linker
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fragment file. The path can either be an absolute path or a relative path from the component directory.
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.. code-block:: make
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COMPONENT_ADD_LDFRAGMENTS += my_linker_fragment_file.lf
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CMake
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"""""
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In the component's ``CMakeLists.txt`` file, specify argument ``LDFRAGMENTS`` in the ``idf_component_register`` call.
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The value of ``LDFRAGMENTS`` can either be an absolute path or a relative path from the component directory to the
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created linker fragment file.
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.. code-block:: cmake
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# file paths relative to CMakeLists.txt
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idf_component_register(...
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LDFRAGMENTS "path/to/linker_fragment_file.lf" "path/to/another_linker_fragment_file.lf"
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...
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)
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Specifying placements
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^^^^^^^^^^^^^^^^^^^^^
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It is possible to specify placements at the following levels of granularity:
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- object file (``.obj`` or ``.o`` files)
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- symbol (function/variable)
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- archive (``.a`` files)
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.. _ldgen-placing-object-files :
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Placing object files
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""""""""""""""""""""
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Suppose the entirety of ``my_src1.o`` is performance-critical, so it is desirable to place it in RAM.
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On the other hand, the entirety of ``my_src2.o`` contains symbols needed coming out of deep sleep, so it needs to be put under RTC memory.
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In the the linker fragment file, we can write:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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my_src1 (noflash) # places all my_src1 code/read-only data under IRAM/DRAM
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my_src2 (rtc) # places all my_src2 code/ data and read-only data under RTC fast memory/RTC slow memory
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What happens to ``my_src3.o``? Since it is not specified, default placements are used for ``my_src3.o``. More on default placements
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:ref:`here<ldgen-default-placements>`.
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Placing symbols
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""""""""""""""""
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Continuing our example, suppose that among functions defined under ``object1.o``, only ``my_function1`` is performance-critical; and under ``object2.o``,
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only ``my_function2`` needs to execute after the chip comes out of deep sleep. This could be accomplished by writing:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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my_src1:my_function1 (noflash)
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my_src2:my_function2 (rtc)
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The default placements are used for the rest of the functions in ``my_src1.o`` and ``my_src2.o`` and the entire ``object3.o``. Something similar
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can be achieved for placing data by writing the variable name instead of the function name, like so::
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my_src1:my_variable (noflash)
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.. warning::
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There are :ref:`limitations<ldgen-symbol-granularity-placements>` in placing code/data at symbol granularity. In order to ensure proper placements, an alternative would be to group
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relevant code and data into source files, and :ref:`use object-granularity placements<ldgen-placing-object-files>`.
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Placing entire archive
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"""""""""""""""""""""""
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In this example, suppose that the entire component archive needs to be placed in RAM. This can be written as:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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* (noflash)
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Similarly, this places the entire component in RTC memory:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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* (rtc)
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Configuration-dependent placements
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""""""""""""""""""""""""""""""""""
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Suppose that the entire component library should only have special placement when a certain condition is true; for example, when ``CONFIG_PERFORMANCE_MODE == y``.
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This could be written as:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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if PERFORMANCE_MODE = y:
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* (noflash)
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else:
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* (default)
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For a more complex config-dependent placement, suppose the following requirements: when ``CONFIG_PERFORMANCE_LEVEL == 1``, only ``object1.o`` is put in RAM;
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when ``CONFIG_PERFORMANCE_LEVEL == 2``, ``object1.o`` and ``object2.o``; and when ``CONFIG_PERFORMANCE_LEVEL == 3`` all object files under the archive
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are to be put into RAM. When these three are false however, put entire library in RTC memory. This scenario is a bit contrived, but,
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it can be written as:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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if PERFORMANCE_LEVEL = 1:
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my_src1 (noflash)
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elif PERFORMANCE_LEVEL = 2:
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my_src1 (noflash)
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my_src2 (noflash)
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elif PERFORMANCE_LEVEL = 3:
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my_src1 (noflash)
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my_src2 (noflash)
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my_src3 (noflash)
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else:
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* (rtc)
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Nesting condition-checking is also possible. The following is equivalent to the snippet above:
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.. code-block:: none
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[mapping:my_component]
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archive: libmy_component.a
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entries:
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if PERFORMANCE_LEVEL <= 3 && PERFORMANCE_LEVEL > 0:
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if PERFORMANCE_LEVEL >= 1:
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object1 (noflash)
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if PERFORMANCE_LEVEL >= 2:
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object2 (noflash)
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if PERFORMANCE_LEVEL >= 3:
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object2 (noflash)
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else:
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* (rtc)
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.. _ldgen-default-placements:
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The 'default' placements
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^^^^^^^^^^^^^^^^^^^^^^^^
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Up until this point, the term 'default placements' has been mentioned as fallback placements for when the
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placement rules ``rtc`` and ``noflash`` are not specified. It is important to note that the tokens ``noflash`` or ``rtc`` are not merely keywords, but are actually
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entities called fragments, specifically :ref:`schemes<ldgen-scheme-fragment>`.
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In the same manner as ``rtc`` and ``noflash`` are schemes, there exists a ``default`` scheme which defines what the default placement rules should be.
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As the name suggests, it is where code and data are usually placed, i.e. code/constants is placed in flash, variables
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placed in RAM, etc. More on the default scheme :ref:`here<ldgen-default-scheme>`.
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.. note::
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For an example of an ESP-IDF component using the linker script generation mechanism, see :component_file:`freertos/CMakeLists.txt`.
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``freertos`` uses this to place its object files to the instruction RAM for performance reasons.
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This marks the end of the quick start guide. The following text discusses the internals of the mechanism in a little bit more detail.
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The following sections should be helpful in creating custom placements or modifying default behavior.
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Linker Script Generation Internals
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----------------------------------
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Linking is the last step in the process of turning C/C++ source files into an executable. It is performed by the toolchain's linker, and accepts
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linker scripts which specify code/data placements, among other things. With the linker script generation mechanism, this process is no different, except
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that the linker script passed to the linker is dynamically generated from: (1) the collected :ref:`linker fragment files<ldgen-linker-fragment-files>` and
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(2) :ref:`linker script template<ldgen-linker-script-template>`.
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.. note::
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The tool that implements the linker script generation mechanism lives under :idf:`tools/ldgen`.
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.. _ldgen-linker-fragment-files :
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Linker Fragment Files
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^^^^^^^^^^^^^^^^^^^^^
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As mentioned in the quick start guide, fragment files are simple text files with the ``.lf`` extension containing the desired placements. This is a simplified
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description of what fragment files contain, however. What fragment files actually contain are 'fragments'. Fragments are entities which contain pieces of information which, when put together, form
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placement rules that tell where to place sections of object files in the output binary. There are three types of fragments: :ref:`sections<ldgen-sections-fragment>`,
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:ref:`scheme<ldgen-scheme-fragment>` and :ref:`mapping<ldgen-mapping-fragment>`.
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Grammar
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"""""""
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The three fragment types share a common grammar:
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.. code-block:: none
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[type:name]
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key: value
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key:
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value
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value
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value
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...
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- type: Corresponds to the fragment type, can either be ``sections``, ``scheme`` or ``mapping``.
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- name: The name of the fragment, should be unique for the specified fragment type.
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- key, value: Contents of the fragment; each fragment type may support different keys and different grammars for the key values.
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.. note::
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In cases where multiple fragments of the same type and name are encountered, an exception is thrown.
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.. note::
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The only valid characters for fragment names and keys are alphanumeric characters and underscore.
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.. _ldgen-condition-checking :
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**Condition Checking**
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Condition checking enable the linker script generation to be configuration-aware. Depending on whether expressions involving configuration values
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are true or not, a particular set of values for a key can be used. The evaluation uses ``eval_string`` from :idf_file:`tools/kconfig_new/kconfiglib.py`
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and adheres to its required syntax and limitations. Supported operators are as follows:
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- comparison
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- LessThan ``<``
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- LessThanOrEqualTo ``<=``
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- MoreThan ``>``
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- MoreThanOrEqualTo ``>=``
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- Equal ``=``
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- NotEqual ``!=``
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- logical
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- Or ``||``
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- And ``&&``
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- Negation ``!``
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- grouping
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- Parenthesis ``()``
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Condition checking behaves as you would expect an ``if...elseif/elif...else`` block in other languages. Condition-checking is possible
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for both key values and entire fragments. The two sample fragments below are equivalent:
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.. code-block:: none
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# Value for keys is dependent on config
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[type:name]
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key_1:
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if CONDITION = y:
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value_1
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else:
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value_2
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key_2:
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if CONDITION = y:
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value_a
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else:
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value_b
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.. code-block:: none
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# Entire fragment definition is dependent on config
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if CONDITION = y:
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[type:name]
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key_1:
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value_1
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key_2:
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value_b
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else:
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[type:name]
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key_1:
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value_2
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key_2:
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value_b
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**Comments**
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Comment in linker fragment files begin with ``#``. Like in other languages, comment are used to provide helpful descriptions and documentation
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and are ignored during processing.
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Compatibility with ESP-IDF v3.x Linker Script Fragment Files
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""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""
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ESP-IDF v4.0 brings some changes to the linker script fragment file grammar:
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- indentation is enforced and improperly indented fragment files generate a parse exception; this was not enforced in the old version but previous documentation
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and examples demonstrates properly indented grammar
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- move to ``if...elif...else`` structure for conditionals, with the ability to nest checks and place entire fragments themselves inside conditionals
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- mapping fragments now requires a name like other fragment types
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Linker script generator should be able to parse ESP-IDF v3.x linker fragment files that are indented properly (as demonstrated by
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the ESP-IDF v3.x version of this document). Backward compatibility with the previous mapping fragment grammar (optional
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name and the old grammar for conditionals) has also been retained but with a deprecation warning. Users should switch to the newer grammar discussed
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in this document as support for the old grammar is planned to be removed in the future.
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Note that linker fragment files using the new ESP-IDF v4.0 grammar is not supported on ESP-IDF v3.x, however.
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Types
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"""""
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.. _ldgen-sections-fragment :
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**Sections**
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Sections fragments defines a list of object file sections that the GCC compiler emits. It may be a default section (e.g. ``.text``, ``.data``) or
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it may be user defined section through the ``__attribute__`` keyword.
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The use of an optional '+' indicates the inclusion of the section in the list, as well as sections that start with it. This is the preferred method over listing both explicitly.
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.. code-block:: none
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[sections:name]
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entries:
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.section+
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.section
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...
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Example:
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.. code-block:: none
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# Non-preferred
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[sections:text]
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entries:
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.text
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.text.*
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.literal
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.literal.*
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# Preferred, equivalent to the one above
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[sections:text]
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entries:
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.text+ # means .text and .text.*
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.literal+ # means .literal and .literal.*
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.. _ldgen-scheme-fragment :
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**Scheme**
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Scheme fragments define what ``target`` a sections fragment is assigned to.
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.. code-block:: none
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[scheme:name]
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entries:
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sections -> target
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sections -> target
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...
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Example:
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.. code-block:: none
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[scheme:noflash]
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entries:
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text -> iram0_text # the entries under the sections fragment named text will go to iram0_text
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rodata -> dram0_data # the entries under the sections fragment named rodata will go to dram0_data
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.. _ldgen-default-scheme:
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The ``default`` scheme
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There exists a special scheme with the name ``default``. This scheme is special because catch-all placement rules are generated from
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its entries. This means that, if one of its entries is ``text -> flash_text``, the placement rule
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.. code-block:: none
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*(.literal .literal.* .text .text.*)
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will be generated for the target ``flash_text``.
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These catch-all rules then effectively serve as fallback rules for those whose mappings were not specified.
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.. note::
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The ``default scheme`` is defined in :component:`esp32/ld/esp32_fragments.lf`. The ``noflash`` and ``rtc`` scheme fragments which are
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built-in schemes referenced in the quick start guide are also defined in this file.
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.. _ldgen-mapping-fragment :
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**Mapping**
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Mapping fragments define what scheme fragment to use for mappable entities, i.e. object files, function names, variable names, archives.
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.. code-block:: none
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[mapping:name]
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archive: archive # output archive file name, as built (i.e. libxxx.a)
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entries:
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object:symbol (scheme) # symbol granularity
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object (scheme) # object granularity
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* (scheme) # archive granularity
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There are three levels of placement granularity:
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- symbol: The object file name and symbol name are specified. The symbol name can be a function name or a variable name.
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- object: Only the object file name is specified.
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- archive: ``*`` is specified, which is a short-hand for all the object files under the archive.
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To know what an entry means, let us expand a sample object-granularity placement:
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.. code-block:: none
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object (scheme)
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Then expanding the scheme fragment from its entries definitions, we have:
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.. code-block:: none
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object (sections -> target,
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sections -> target,
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...)
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Expanding the sections fragment with its entries definition:
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.. code-block:: none
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object (.section, # given this object file
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.section, # put its sections listed here at this
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... -> target, # target
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.section,
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.section, # same should be done for these sections
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... -> target,
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...) # and so on
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Example:
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.. code-block:: none
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[mapping:map]
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archive: libfreertos.a
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entries:
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* (noflash)
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.. _ldgen-symbol-granularity-placements :
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On Symbol-Granularity Placements
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""""""""""""""""""""""""""""""""
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Symbol granularity placements is possible due to compiler flags ``-ffunction-sections`` and ``-ffdata-sections``. ESP-IDF compiles with these flags by default.
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If the user opts to remove these flags, then the symbol-granularity placements will not work. Furthermore, even with the presence of these flags, there are still other limitations to keep in mind
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due to the dependence on the compiler's emitted output sections.
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For example, with ``-ffunction-sections``, separate sections are emitted for each function; with section names predictably constructed i.e. ``.text.{func_name}``
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and ``.literal.{func_name}``. This is not the case for string literals within the function, as they go to pooled or generated section names.
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With ``-fdata-sections``, for global scope data the compiler predictably emits either ``.data.{var_name}``, ``.rodata.{var_name}`` or ``.bss.{var_name}``; and so ``Type I`` mapping entry works for these.
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However, this is not the case for static data declared in function scope, as the generated section name is a result of mangling the variable name with some other information.
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.. _ldgen-linker-script-template :
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Linker Script Template
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^^^^^^^^^^^^^^^^^^^^^^
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The linker script template is the skeleton in which the generated placement rules are put into. It is an otherwise ordinary linker script, with a specific marker syntax
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that indicates where the generated placement rules are placed.
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To reference the placement rules collected under a ``target`` token, the following syntax is used:
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.. code-block:: none
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mapping[target]
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Example:
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The example below is an excerpt from a possible linker script template. It defines an output section ``.iram0.text``, and inside is a marker referencing
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the target ``iram0_text``.
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.. code-block:: none
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.iram0.text :
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{
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/* Code marked as runnning out of IRAM */
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_iram_text_start = ABSOLUTE(.);
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/* Marker referencing iram0_text */
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mapping[iram0_text]
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_iram_text_end = ABSOLUTE(.);
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} > iram0_0_seg
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Suppose the generator collected the fragment definitions below:
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.. code-block:: none
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[sections:text]
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.text+
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.literal+
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[sections:iram]
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.iram1+
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[scheme:default]
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entries:
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text -> flash_text
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iram -> iram0_text
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[scheme:noflash]
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entries:
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text -> iram0_text
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[mapping:freertos]
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archive: libfreertos.a
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entries:
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* (noflash)
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Then the corresponding excerpt from the generated linker script will be as follows:
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.. code-block:: c
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.iram0.text :
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{
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/* Code marked as runnning out of IRAM */
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_iram_text_start = ABSOLUTE(.);
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/* Placement rules generated from the processed fragments, placed where the marker was in the template */
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*(.iram1 .iram1.*)
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*libfreertos.a:(.literal .text .literal.* .text.*)
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_iram_text_end = ABSOLUTE(.);
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} > iram0_0_seg
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``*libfreertos.a:(.literal .text .literal.* .text.*)``
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Rule generated from the entry ``* (noflash)`` of the ``freertos`` mapping fragment. All ``text`` sections of all
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object files under the archive ``libfreertos.a`` will be collected under the target ``iram0_text`` (as per the ``noflash`` scheme)
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and placed wherever in the template ``iram0_text`` is referenced by a marker.
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``*(.iram1 .iram1.*)``
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Rule generated from the default scheme entry ``iram -> iram0_text``. Since the default scheme specifies an ``iram -> iram0_text`` entry,
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it too is placed wherever ``iram0_text`` is referenced by a marker. Since it is a rule generated from the default scheme, it comes first
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among all other rules collected under the same target name.
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.. note::
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The linker script template currently used is :component:`esp32/ld/esp32.project.ld.in`, specified by the ``esp32`` component; the
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generated output script is put under its build directory.
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