381d2c36e1
Unfortunately, the definition of the footnote syntax requires the author to use the awkward escaped space "\ " in the really common case of "footnote marker at end of word or sentence"; and in fact the rST documentation's examples of footnote syntax contain only artificial examples that do *not* use the syntax. This resulted in ugly rendering of footnotes throughout QEMU's documentation. Ensure the space is escaped whenever the footnote must attach to the preceding word, and also use a named reference for clarity. Reviewed-by: Peter Maydell <peter.maydell@linaro.org> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
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ReStructuredText
598 lines
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ReStructuredText
==================================
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The QEMU build system architecture
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==================================
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This document aims to help developers understand the architecture of the
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QEMU build system. As with projects using GNU autotools, the QEMU build
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system has two stages; first the developer runs the "configure" script
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to determine the local build environment characteristics, then they run
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"make" to build the project. This is about where the similarities with
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GNU autotools end, so try to forget what you know about them.
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The two general ways to perform a build are as follows:
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- build artifacts outside of QEMU source tree entirely::
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cd ../
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mkdir build
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cd build
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../qemu/configure
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make
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- build artifacts in a subdir of QEMU source tree::
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mkdir build
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cd build
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../configure
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make
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Most of the actual build process uses Meson under the hood, therefore
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build artifacts cannot be placed in the source tree itself.
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Stage 1: configure
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==================
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The configure script has five tasks:
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- detect the host architecture
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- list the targets for which to build emulators; the list of
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targets also affects which firmware binaries and tests to build
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- find the compilers (native and cross) used to build executables,
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firmware and tests. The results are written as either Makefile
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fragments (``config-host.mak``) or a Meson machine file
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(``config-meson.cross``)
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- create a virtual environment in which all Python code runs during
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the build, and possibly install packages into it from PyPI
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- invoke Meson in the virtual environment, to perform the actual
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configuration step for the emulator build
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The configure script automatically recognizes command line options for
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which a same-named Meson option exists; dashes in the command line are
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replaced with underscores.
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Almost all QEMU developers that need to modify the build system will
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only be concerned with Meson, and therefore can skip the rest of this
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section.
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Modifying ``configure``
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-----------------------
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``configure`` is a shell script; it uses ``#!/bin/sh`` and therefore
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should be compatible with any POSIX shell. It is important to avoid
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using bash-isms to avoid breaking development platforms where bash is
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the primary host.
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The configure script provides a variety of functions to help writing
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portable shell code and providing consistent behavior across architectures
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and operating systems:
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``error_exit $MESSAGE $MORE...``
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Print $MESSAGE to stderr, followed by $MORE... and then exit from the
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configure script with non-zero status.
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``has $COMMAND``
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Determine if $COMMAND exists in the current environment, either as a
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shell builtin, or executable binary, returning 0 on success. The
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replacement in Meson is ``find_program()``.
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``probe_target_compiler $TARGET``
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Detect a cross compiler and cross tools for the QEMU target $TARGET (e.g.,
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``$CPU-softmmu``, ``$CPU-linux-user``, ``$CPU-bsd-user``). If a working
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compiler is present, return success and set variables ``$target_cc``,
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``$target_ar``, etc. to non-empty values.
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``write_target_makefile``
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Write a Makefile fragment to stdout, exposing the result of the most
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``probe_target_compiler`` call as the usual Make variables (``CC``,
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``AR``, ``LD``, etc.).
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Configure does not generally perform tests for compiler options beyond
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basic checks to detect the host platform and ensure the compiler is
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functioning. These are performed using a few more helper functions:
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``compile_object $CFLAGS``
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Attempt to compile a test program with the system C compiler using
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$CFLAGS. The test program must have been previously written to a file
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called $TMPC.
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``compile_prog $CFLAGS $LDFLAGS``
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Attempt to compile a test program with the system C compiler using
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$CFLAGS and link it with the system linker using $LDFLAGS. The test
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program must have been previously written to a file called $TMPC.
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``check_define $NAME``
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Determine if the macro $NAME is defined by the system C compiler.
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``do_compiler $CC $ARGS...``
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Attempt to run the C compiler $CC, passing it $ARGS... This function
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does not use flags passed via options such as ``--extra-cflags``, and
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therefore can be used to check for cross compilers. However, most
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such checks are done at ``make`` time instead (see for example the
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``cc-option`` macro in ``pc-bios/option-rom/Makefile``).
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``write_c_skeleton``
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Write a minimal C program main() function to the temporary file
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indicated by $TMPC.
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Python virtual environments and the build process
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-------------------------------------------------
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An important step in ``configure`` is to create a Python virtual
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environment (venv) during the configuration phase. The Python interpreter
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comes from the ``--python`` command line option, the ``$PYTHON`` variable
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from the environment, or the system PATH, in this order. The venv resides
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in the ``pyvenv`` directory in the build tree, and provides consistency
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in how the build process runs Python code.
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At this stage, ``configure`` also queries the chosen Python interpreter
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about QEMU's build dependencies. Note that the build process does *not*
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look for ``meson``, ``sphinx-build`` or ``avocado`` binaries in the PATH;
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likewise, there are no options such as ``--meson`` or ``--sphinx-build``.
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This avoids a potential mismatch, where Meson and Sphinx binaries on the
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PATH might operate in a different Python environment than the one chosen
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by the user during the build process. On the other hand, it introduces
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a potential source of confusion where the user installs a dependency but
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``configure`` is not able to find it. When this happens, the dependency
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was installed in the ``site-packages`` directory of another interpreter,
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or with the wrong ``pip`` program.
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If a package is available for the chosen interpreter, ``configure``
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prepares a small script that invokes it from the venv itself\ [#distlib]_.
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If not, ``configure`` can also optionally install dependencies in the
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virtual environment with ``pip``, either from wheels in ``python/wheels``
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or by downloading the package with PyPI. Downloading can be disabled with
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``--disable-download``; and anyway, it only happens when a ``configure``
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option (currently, only ``--enable-docs``) is explicitly enabled but
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the dependencies are not present\ [#pip]_.
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.. [#distlib] The scripts are created based on the package's metadata,
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specifically the ``console_script`` entry points. This is the
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same mechanism that ``pip`` uses when installing a package.
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Currently, in all cases it would be possible to use ``python -m``
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instead of an entry point script, which makes this approach a
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bit overkill. On the other hand, creating the scripts is
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future proof and it makes the contents of the ``pyvenv/bin``
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directory more informative. Portability is also not an issue,
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because the Python Packaging Authority provides a package
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``distlib.scripts`` to perform this task.
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.. [#pip] ``pip`` might also be used when running ``make check-avocado``
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if downloading is enabled, to ensure that Avocado is
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available.
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The required versions of the packages are stored in a configuration file
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``pythondeps.toml``. The format is custom to QEMU, but it is documented
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at the top of the file itself and it should be easy to understand. The
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requirements should make it possible to use the version that is packaged
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that is provided by supported distros.
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When dependencies are downloaded, instead, ``configure`` uses a "known
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good" version that is also listed in ``pythondeps.toml``. In this
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scenario, ``pythondeps.toml`` behaves like the "lock file" used by
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``cargo``, ``poetry`` or other dependency management systems.
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Bundled Python packages
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-----------------------
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Python packages that are **mandatory** dependencies to build QEMU,
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but are not available in all supported distros, are bundled with the
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QEMU sources. The only one is currently Meson (outdated in Ubuntu
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22.04 and openSUSE Leap).
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In order to include a new or updated wheel, modify and rerun the
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``python/scripts/vendor.py`` script. The script embeds the
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sha256 hash of package sources and checks it. The pypi.org web site
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provides an easy way to retrieve the sha256 hash of the sources.
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Stage 2: Meson
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==============
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The Meson build system describes the build and install process for:
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1) executables, which include:
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- Tools - ``qemu-img``, ``qemu-nbd``, ``qemu-ga`` (guest agent), etc
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- System emulators - ``qemu-system-$ARCH``
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- Userspace emulators - ``qemu-$ARCH``
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- Unit tests
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2) documentation
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3) ROMs, whether provided as binary blobs in the QEMU distributions
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or cross compiled under the direction of the configure script
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4) other data files, such as icons or desktop files
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All executables are built by default, except for some ``contrib/``
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binaries that are known to fail to build on some platforms (for example
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32-bit or big-endian platforms). Tests are also built by default,
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though that might change in the future.
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The source code is highly modularized, split across many files to
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facilitate building of all of these components with as little duplicated
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compilation as possible. Using the Meson "sourceset" functionality,
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``meson.build`` files group the source files in rules that are
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enabled according to the available system libraries and to various
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configuration symbols. Sourcesets belong to one of four groups:
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Subsystem sourcesets:
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Various subsystems that are common to both tools and emulators have
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their own sourceset, for example ``block_ss`` for the block device subsystem,
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``chardev_ss`` for the character device subsystem, etc. These sourcesets
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are then turned into static libraries as follows::
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libchardev = static_library('chardev', chardev_ss.sources(),
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build_by_default: false)
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chardev = declare_dependency(objects: libchardev.extract_all_objects(recursive: false),
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dependencies: chardev_ss.dependencies())
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Target-independent emulator sourcesets:
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Various general purpose helper code is compiled only once and
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the .o files are linked into all output binaries that need it.
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This includes error handling infrastructure, standard data structures,
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platform portability wrapper functions, etc.
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Target-independent code lives in the ``common_ss``, ``system_ss`` and
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``user_ss`` sourcesets. ``common_ss`` is linked into all emulators,
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``system_ss`` only in system emulators, ``user_ss`` only in user-mode
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emulators.
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Target-dependent emulator sourcesets:
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In the target-dependent set lives CPU emulation, some device emulation and
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much glue code. This sometimes also has to be compiled multiple times,
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once for each target being built. Target-dependent files are included
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in the ``specific_ss`` sourceset.
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Each emulator also includes sources for files in the ``hw/`` and ``target/``
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subdirectories. The subdirectory used for each emulator comes
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from the target's definition of ``TARGET_BASE_ARCH`` or (if missing)
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``TARGET_ARCH``, as found in ``default-configs/targets/*.mak``.
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Each subdirectory in ``hw/`` adds one sourceset to the ``hw_arch`` dictionary,
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for example::
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arm_ss = ss.source_set()
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arm_ss.add(files('boot.c'), fdt)
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...
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hw_arch += {'arm': arm_ss}
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The sourceset is only used for system emulators.
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Each subdirectory in ``target/`` instead should add one sourceset to each
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of the ``target_arch`` and ``target_system_arch``, which are used respectively
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for all emulators and for system emulators only. For example::
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arm_ss = ss.source_set()
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arm_system_ss = ss.source_set()
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...
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target_arch += {'arm': arm_ss}
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target_system_arch += {'arm': arm_system_ss}
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Module sourcesets:
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There are two dictionaries for modules: ``modules`` is used for
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target-independent modules and ``target_modules`` is used for
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target-dependent modules. When modules are disabled the ``module``
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source sets are added to ``system_ss`` and the ``target_modules``
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source sets are added to ``specific_ss``.
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Both dictionaries are nested. One dictionary is created per
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subdirectory, and these per-subdirectory dictionaries are added to
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the toplevel dictionaries. For example::
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hw_display_modules = {}
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qxl_ss = ss.source_set()
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...
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hw_display_modules += { 'qxl': qxl_ss }
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modules += { 'hw-display': hw_display_modules }
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Utility sourcesets:
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All binaries link with a static library ``libqemuutil.a``. This library
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is built from several sourcesets; most of them however host generated
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code, and the only two of general interest are ``util_ss`` and ``stub_ss``.
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The separation between these two is purely for documentation purposes.
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``util_ss`` contains generic utility files. Even though this code is only
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linked in some binaries, sometimes it requires hooks only in some of
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these and depend on other functions that are not fully implemented by
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all QEMU binaries. ``stub_ss`` links dummy stubs that will only be linked
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into the binary if the real implementation is not present. In a way,
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the stubs can be thought of as a portable implementation of the weak
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symbols concept.
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The following files concur in the definition of which files are linked
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into each emulator:
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``default-configs/devices/*.mak``
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The files under ``default-configs/devices/`` control the boards and devices
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that are built into each QEMU system emulation targets. They merely contain
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a list of config variable definitions such as::
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include arm-softmmu.mak
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CONFIG_XLNX_ZYNQMP_ARM=y
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CONFIG_XLNX_VERSAL=y
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``*/Kconfig``
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These files are processed together with ``default-configs/devices/*.mak`` and
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describe the dependencies between various features, subsystems and
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device models. They are described in :ref:`kconfig`
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``default-configs/targets/*.mak``
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These files mostly define symbols that appear in the ``*-config-target.h``
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file for each emulator\ [#cfgtarget]_. However, the ``TARGET_ARCH``
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and ``TARGET_BASE_ARCH`` will also be used to select the ``hw/`` and
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``target/`` subdirectories that are compiled into each target.
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.. [#cfgtarget] This header is included by ``qemu/osdep.h`` when
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compiling files from the target-specific sourcesets.
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These files rarely need changing unless you are adding a completely
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new target, or enabling new devices or hardware for a particular
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system/userspace emulation target
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Adding checks
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-------------
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Compiler checks can be as simple as the following::
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config_host_data.set('HAVE_BTRFS_H', cc.has_header('linux/btrfs.h'))
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A more complex task such as adding a new dependency usually
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comprises the following tasks:
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- Add a Meson build option to meson_options.txt.
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- Add code to perform the actual feature check.
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- Add code to include the feature status in ``config-host.h``
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- Add code to print out the feature status in the configure summary
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upon completion.
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Taking the probe for SDL2_Image as an example, we have the following
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in ``meson_options.txt``::
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option('sdl_image', type : 'feature', value : 'auto',
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description: 'SDL Image support for icons')
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Unless the option was given a non-``auto`` value (on the configure
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command line), the detection code must be performed only if the
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dependency will be used::
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sdl_image = not_found
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if not get_option('sdl_image').auto() or have_system
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sdl_image = dependency('SDL2_image', required: get_option('sdl_image'),
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method: 'pkg-config')
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endif
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This avoids warnings on static builds of user-mode emulators, for example.
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Most of the libraries used by system-mode emulators are not available for
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static linking.
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The other supporting code is generally simple::
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# Create config-host.h (if applicable)
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config_host_data.set('CONFIG_SDL_IMAGE', sdl_image.found())
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# Summary
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summary_info += {'SDL image support': sdl_image.found()}
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For the configure script to parse the new option, the
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``scripts/meson-buildoptions.sh`` file must be up-to-date; ``make
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update-buildoptions`` (or just ``make``) will take care of updating it.
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Support scripts
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---------------
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Meson has a special convention for invoking Python scripts: if their
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first line is ``#! /usr/bin/env python3`` and the file is *not* executable,
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find_program() arranges to invoke the script under the same Python
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interpreter that was used to invoke Meson. This is the most common
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and preferred way to invoke support scripts from Meson build files,
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because it automatically uses the value of configure's --python= option.
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In case the script is not written in Python, use a ``#! /usr/bin/env ...``
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line and make the script executable.
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Scripts written in Python, where it is desirable to make the script
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executable (for example for test scripts that developers may want to
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invoke from the command line, such as tests/qapi-schema/test-qapi.py),
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should be invoked through the ``python`` variable in meson.build. For
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example::
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test('QAPI schema regression tests', python,
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args: files('test-qapi.py'),
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env: test_env, suite: ['qapi-schema', 'qapi-frontend'])
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This is needed to obey the --python= option passed to the configure
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script, which may point to something other than the first python3
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binary on the path.
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By the time Meson runs, Python dependencies are available in the virtual
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environment and should be invoked through the scripts that ``configure``
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places under ``pyvenv``. One way to do so is as follows, using Meson's
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``find_program`` function::
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sphinx_build = find_program(
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fs.parent(python.full_path()) / 'sphinx-build',
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required: get_option('docs'))
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Stage 3: Make
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=============
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The next step in building QEMU is to invoke make. GNU Make is required
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to build QEMU, and may be installed as ``gmake`` on some hosts.
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The output of Meson is a ``build.ninja`` file, which is used with the
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Ninja build tool. However, QEMU's build comprises other components than
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just the emulators (namely firmware and the tests in ``tests/tcg``) which
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need different cross compilers. The QEMU Makefile wraps both Ninja and
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the smaller build systems for firmware and tests; it also takes care of
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running ``configure`` again when the script changes. Apart from invoking
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these sub-Makefiles, the resulting build is largely non-recursive.
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Tests, whether defined in ``meson.build`` or not, are also ran by the
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Makefile with the traditional ``make check`` phony target, while benchmarks
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are run with ``make bench``. Meson test suites such as ``unit`` can be ran
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with ``make check-unit``, and ``make check-tcg`` builds and runs "non-Meson"
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tests for all targets.
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If desired, it is also possible to use ``ninja`` and ``meson test``,
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respectively to build emulators and run tests defined in meson.build.
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The main difference is that ``make`` needs the ``-jN`` flag in order to
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enable parallel builds or tests.
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Useful make targets
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-------------------
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``help``
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Print a help message for the most common build targets.
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``print-VAR``
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Print the value of the variable VAR. Useful for debugging the build
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system.
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Important files for the build system
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====================================
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Statically defined files
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------------------------
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The following key files are statically defined in the source tree, with
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the rules needed to build QEMU. Their behaviour is influenced by a
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number of dynamically created files listed later.
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``Makefile``
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|
The main entry point used when invoking make to build all the components
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of QEMU. The default 'all' target will naturally result in the build of
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every component.
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|
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|
``*/meson.build``
|
|
The meson.build file in the root directory is the main entry point for the
|
|
Meson build system, and it coordinates the configuration and build of all
|
|
executables. Build rules for various subdirectories are included in
|
|
other meson.build files spread throughout the QEMU source tree.
|
|
|
|
``python/scripts/mkvenv.py``
|
|
A wrapper for the Python ``venv`` and ``distlib.scripts`` packages.
|
|
It handles creating the virtual environment, creating scripts in
|
|
``pyvenv/bin``, and calling ``pip`` to install dependencies.
|
|
|
|
``tests/Makefile.include``
|
|
Rules for external test harnesses. These include the TCG tests
|
|
and the Avocado-based integration tests.
|
|
|
|
``tests/docker/Makefile.include``
|
|
Rules for Docker tests. Like ``tests/Makefile.include``, this file is
|
|
included directly by the top level Makefile, anything defined in this
|
|
file will influence the entire build system.
|
|
|
|
``tests/vm/Makefile.include``
|
|
Rules for VM-based tests. Like ``tests/Makefile.include``, this file is
|
|
included directly by the top level Makefile, anything defined in this
|
|
file will influence the entire build system.
|
|
|
|
Dynamically created files
|
|
-------------------------
|
|
|
|
The following files are generated at run-time in order to control the
|
|
behaviour of the Makefiles. This avoids the need for QEMU makefiles to
|
|
go through any pre-processing as seen with autotools, where configure
|
|
generates ``Makefile`` from ``Makefile.in``.
|
|
|
|
Built by configure:
|
|
|
|
``config-host.mak``
|
|
When configure has determined the characteristics of the build host it
|
|
will write the paths to various tools to this file, for use in ``Makefile``
|
|
and to a smaller extent ``meson.build``.
|
|
|
|
``config-host.mak`` is also used as a dependency checking mechanism. If make
|
|
sees that the modification timestamp on configure is newer than that on
|
|
``config-host.mak``, then configure will be re-run.
|
|
|
|
``config-meson.cross``
|
|
|
|
A Meson "cross file" (or native file) used to communicate the paths to
|
|
the toolchain and other configuration options.
|
|
|
|
``config.status``
|
|
|
|
A small shell script that will invoke configure again with the same
|
|
environment variables that were set during the first run. It's used to
|
|
rerun configure after changes to the source code, but it can also be
|
|
inspected manually to check the contents of the environment.
|
|
|
|
``Makefile.prereqs``
|
|
|
|
A set of Makefile dependencies that order the build and execution of
|
|
firmware and tests after the container images and emulators that they
|
|
need.
|
|
|
|
``pc-bios/*/config.mak``, ``tests/tcg/config-host.mak``, ``tests/tcg/*/config-target.mak``
|
|
|
|
Configuration variables used to build the firmware and TCG tests,
|
|
including paths to cross compilation toolchains.
|
|
|
|
``pyvenv``
|
|
|
|
A Python virtual environment that is used for all Python code running
|
|
during the build. Using a virtual environment ensures that even code
|
|
that is run via ``sphinx-build``, ``meson`` etc. uses the same interpreter
|
|
and packages.
|
|
|
|
Built by Meson:
|
|
|
|
``config-host.h``
|
|
Used by C code to determine the properties of the build environment
|
|
and the set of enabled features for the entire build.
|
|
|
|
``${TARGET-NAME}-config-devices.mak``
|
|
TARGET-NAME is the name of a system emulator. The file is
|
|
generated by Meson using files under ``configs/devices`` as input.
|
|
|
|
``${TARGET-NAME}-config-target.mak``
|
|
TARGET-NAME is the name of a system or usermode emulator. The file is
|
|
generated by Meson using files under ``configs/targets`` as input.
|
|
|
|
``$TARGET_NAME-config-target.h``, ``$TARGET_NAME-config-devices.h``
|
|
Used by C code to determine the properties and enabled
|
|
features for each target. enabled. They are generated from
|
|
the contents of the corresponding ``*.mak`` files using Meson's
|
|
``configure_file()`` function; each target can include them using
|
|
the ``CONFIG_TARGET`` and ``CONFIG_DEVICES`` macro respectively.
|
|
|
|
``build.ninja``
|
|
The build rules.
|
|
|
|
|
|
Built by Makefile:
|
|
|
|
``Makefile.ninja``
|
|
A Makefile include that bridges to ninja for the actual build. The
|
|
Makefile is mostly a list of targets that Meson included in build.ninja.
|
|
|
|
``Makefile.mtest``
|
|
The Makefile definitions that let "make check" run tests defined in
|
|
meson.build. The rules are produced from Meson's JSON description of
|
|
tests (obtained with "meson introspect --tests") through the script
|
|
scripts/mtest2make.py.
|