The user may set different global defaults for CMAKE_MACOSX_BUNDLE
and CMAKE_WIN32_EXECUTABLE, so we shouldn't unconditionally override
them on a target level.
This allows cmake ~/foo/ -DCMAKE_MACOSX_BUNDLE=ON to build a project
as a GUI app without needing to modify the CMakeLists.txt with target
specific overrides.
Change-Id: Id49adb1c0aedfe82a2b1d919d086c5112ba92b93
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Not sure why it worked at implementation time. But now it definitely
doesn't. We may check the EXCEPTIONS flag value, since it's the
equivalent of its presence/non-presence in the argument list.
Amends f98fd705290ac7bd9434552a07e38b775e6a6dbf
Task-number: QTBUG-118901
Pick-to: 6.9
Change-Id: I9769b4921a2f72d31aea2b0bffd2511edd89f88f
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
We never ended up calling _qt_internal_finalize_sbom for generic Qt
repo executables, and we never passed an SBOM type, so this code never
worked.
Remove it to avoid confusion.
It might be re-added in the future.
This doesn't affect the SBOM generation for Qt tools and apps.
Pick-to: 6.8 6.9
Task-number: QTBUG-122899
Change-Id: Iffde964efe2a6b70e6e0b64ec0803af5e84172fb
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
If qtbase is configured with -debug-and-release -force-debug-info,
which maps to '-GNinja Multi-Config'
'-DCMAKE_CONFIGURATION_TYPES=RelWIthDebInfo;Debug'
and then qtopcua is configured with -GNinja -DCMAKE_BUILD_TYPE=Release
building the 'all' target would not build executables or tools.
That's because the targets have their EXCLUDE_FROM_ALL property set to
exclude any non-first multi-config, and Release doesn't match
RelWithDebInfo.
Such a scenario can happen for our multi-config windows builds, when
someone tries to build a repo not with qt-configure-module but rather
with cmake directly. They would then not specify the same build types
or generator, which can happen when opening in an IDE like Qt Creator.
Make sure to also check if the current generator is a multi-config
one, in addition to whether QT_FEATURE_debug_and_release is ON, before
adding the genex to the EXCLUDE_FROM_ALL property.
This allows building and installing executables and tools in such a
scenario, because in a single config build, the genex would not be
added, even if QT_FEATURE_debug_and_release is ON.
Pick-to: 6.8 6.9
Fixes: QTBUG-132609
Task-number: QTBUG-132338
Change-Id: Iaee1a0afb19df97ee1263dbaf27c8e29fc127831
Reviewed-by: Jannis Völker <jannis.voelker@basyskom.com>
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Currently the separate debug info handling is done inside the call of
qt_internal_add_executable. But there might be extra properties set
after the executable is created, which we might want to consider when
handling the separate debug info, like whether the executable is a
macOS bundle.
Introduce a new qt_internal_finalize_executable finalizer. Move the
separate debug info handler to be called in this finalizer.
To be consistent run the separate debug info handler in a finalizer
for qt tools as well.
Pick-to: 6.8
Change-Id: I46412249aaab099628a50b11efff541f5719aff5
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
Previously we ran some finalizer functions for tests and manual
tests, only for specific platforms, and via different code paths.
This change introduces a new unified way of running all finalizers for
all test-like executables, including benchmarks.
To ensure a smoother transition, the new way is opt-out, and the old
way can be enabled by setting the QT_INTERNAL_SKIP_TEST_FINALIZERS_V2
variable to true in case we encounter some issues in the CI.
The finalizers are only run for test-like executables, and not all
internal executables, because there are some unsolved issues there.
One particular case is in qtdeclarative where that will create a cycle
for qmlimportscanner to depend on itself.
A proper solution here would be to have some kind of mapping or
mechanism to exclude finalizers for targets where they would try to
run themselves.
Pick-to: 6.8
Task-number: QTBUG-93625
Task-number: QTBUG-112212
Change-Id: I52b3a1c02c298c4a18ce2c75d7e491ae79d191a0
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
This will be used in a follow up patch to identify them.
Pick-to: 6.8
Task-number: QTBUG-93625
Task-number: QTBUG-112212
Change-Id: I39d5eb9f79ac67af0808efeda4d7f4e0a6908cc9
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Create a script that allows running an app or a test easily similar
to running on host. This improves development workflow and time by
allowing quick runs without having to manually call the various adb
commands to launch, get a pid of the app and then print the logcat,
let alone passing parameters or environment variables.
For normal apps, the app package name is retrieved by the script, run
and live logcat is printed as long as the app is still running.
For tests, the script calls androidtestrunner, allowing test parameters
to be passed to the test.
For CI debugging, this would save quite a lot of hussle and frustration
trying to run or debug a test app.
One other benefit for this is enabling running Android tests from Qt
Creator's testlib plugin without big changes to Qt Creator to support
androidtestrunner explicitly.
Because file(GENERATE) would fail if called twice for the same file,
I use file(WRITE). This is used because at the time of calling the
target executable finalizer, we don't know if the target is a test
or not, so we rely on writing the script first as a normal target,
then call it if the target is a test where it overrides the script.
For this also, parameters passed to the runner or androidtestrunner
can't handle generator expressions.
[ChangeLog][CMake][Android] Add wrapper scripts to run Android apps and
tests with ease from the host.
Task-number: QTBUG-129889
Change-Id: I84e85ce2bbf6944c8aa20bdc2c2b6d7b956bc748
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Add the WARNINGS_ARE_ERRORS flags unconditionally, so developers may
control skipping per-target or per-repo.
This allows setting the WARNINGS_ARE_ERRORS cmake option for each repo
independently when configuring them. So qtbase might be built without
the flag enabled and setting the WARNINGS_ARE_ERRORS to TRUE for
the depending repo enables it for the internal Qt targets.
Add the new internal function that controls the related internal flag.
Keep qt_skip_warnings_are_errors for compatibility since it's used
in qtwebengine.
Combine qt_internal_set_skip_warnings_are_errors and
qt_skip_warnings_are_errors_when_repo_unclean functionality in the
new qt_internal_default_warnings_are_errors function.
Change-Id: I1330c75cd67a24e6386f5e94a089e43fa2012bc4
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
The feature allows enabling/disabling exceptions for the Qt builds.
The feature is disabled by default.
This commit reworks the way the exception flags are set for Qt targets.
Instead of setting them per-target, flags now are set for the
QtPlatformCommonInternal target, which transitively propagates the flag
to other Qt targets. To disable/enable exception flags the newly
introduced property _qt_internal_use_exceptions can be used. The flags
enabling/disabling now can happen any time, but not only at target
creation time. The property has 3 states: TRUE, FALSE, DEFAULT(or
empty). If the property is not set or is set to DEFAULT, the exceptions
feature value is used to set the required exceptions flags. Otherwise
the flags are set according to the property value.
The logic of EXCEPTION argument of the various qt_internal_add_
functions was also updated. If the argument is not provided, the
_qt_internal_use_exceptions property value is set to DEFAULT, which
gives the control on the exception flags to the feature. If the
argument is provided, the exceptions are enabled by setting the
_qt_internal_use_exceptions property to TRUE.
Task-number: QTBUG-118901
Change-Id: I83e3bf52d48a3d16977cce849c9b0765c34f1f21
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
If a target has the _qt_internal_excluded_from_default_target property
set, don't try to add file SBOM information for the target, because
the file will not be built nor installed by default.
We check for a new custom _qt_internal_excluded_from_default_target
property instead of EXCLUDE_FROM_ALL, because EXCLUDE_FROM_ALL might
be set to a genex that excludes all configs except the main one, but
we are interested whether the target is entirely excluded.
Pick-to: 6.8
Task-number: QTBUG-122899
Change-Id: I79d6a4b0c65356da14f7ff50ee3639705f5fabbd
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Avoid duplication and move finalizer code to a new
function "_qt_internal_finalize_wasm_app", which can
be called from the add_executable functions.
Pick-to: 6.8
Change-Id: I4859a3999725ebf61a496d78665b6a259dfeb0f5
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Reviewed-by: Piotr Wierciński <piotr.wiercinski@qt.io>
Previously, only a very short subset of options related to attribution
files could be specified to qt_internal_add_module /
qt_internal_extend_target.
It is more convenient to allow specifying most (safe) options, instead
of calling another function.
Unsafe are considered paths like INSTALL_PATH and derivatives, TYPE
which is too generic, and some other ones like LIBRARIES which would
be duplicated, and causes warnings in cmake_parse_arguments if
duplicated.
Change the code to allow specifying most SBOM options and forwarding
them to _qt_internal_extend_sbom.
Pick-to: 6.8
Task-number: QTBUG-122899
Change-Id: I6eb723e165edf59973d83c66eace43acdce237de
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
This change adds a new -sbom configure option to allow generating and
installing an SPDX v2.3 SBOM file when building a qt repo.
The -sbom-dir option can be used to configure the location where
each repo sbom file will be installed.
By default it is installed into
$prefix/$archdatadir/sbom/$sbom_lower_project_name.sdpx
which is basically ~/Qt/sbom/qtbase-6.8.0.spdx
The file is installed as part of the default installation rules, but
it can also be installed manually using the "sbom" installation
component, or "sbom_$lower_project_name" in a top-level build. For
example: cmake install . --component sbom_qtbase
CMake 3.19+ is needed to read the qt_attribution.json files for
copyrights, license info, etc. When using an older cmake version,
configuration will error out. It is possible to opt into using an
older cmake version, but the generated sbom will lack all the
attribution file information.
Using an older cmake version is untested and not officially supported.
Implementation notes.
The bulk of the implementation is split into 4 new files:
- QtPublicSbomHelpers.cmake - for Qt-specific collecting, processing
and dispatching the generation of various pieces of the SBOM document
e.g. a SDPX package associated with a target like Core, a SDPX
file entry for each target binary file (per-config shared library,
archive, executable, etc)
- QtPublicSbomGenerationHelpers.cmake - for non-Qt specific
implementation of SPDX generation. This also has some code that was
taken from the cmake-sbom 3rd party project, so it is dual licensed
under the usual Qt build system BSD license, as well as the MIT
license of the 3rd party project
- QtPublicGitHelpers.cmake - for git related features, mainly to embed
queried hashes or tags into version strings, is dual-licensed for
the same reasons as QtPublicSbomGenerationHelpers.cmake
- QtSbomHelpers.cmake - Qt-specific functions that just forward
arguments to the public functions. These are meant to be used in our
Qt CMakeLists.txt instead of the public _qt_internal_add_sbom ones
for naming consistency. These function would mostly be used to
annotate 3rd party libraries with sbom info and to add sbom info
for unusual target setups (like the Bootstrap library), because most
of the handling is already done automatically via
qt_internal_add_module/plugin/etc.
The files are put into Public cmake files, with the future hope of
making this available to user projects in some capacity.
The distinction of Qt-specific and non-Qt specific code might blur a
bit, and thus the separation across files might not always be
consistent, but it was best effort.
The main purpose of the code is to collect various information about
targets and their relationships and generate equivalent SPDX info.
Collection is currently done for the following targets: Qt modules,
plugins, apps, tools, system libraries, bundled 3rd party libraries
and partial 3rd party sources compiled directly as part of Qt targets.
Each target has an equivalent SPDX package generated with information
like version, license, copyright, CPE (common vulnerability
identifier), files that belong to the package, and relationships on
other SPDX packages (associated cmake targets), mostly gathered from
direct linking dependencies.
Each package might also contain files, e.g. libQt6Core.so for the Core
target. Each file also has info like license id, copyrights, but also
the list of source files that were used to generate the file and a
sha1 checksum.
SPDX documents can also refer to packages in other SPDX documents, and
those are referred to via external document references. This is the
case when building qtdeclarative and we refer to Core.
For qt provided targets, we have complete information regarding
licenses, and copyrights.
For bundled 3rd party libraries, we should also have most information,
which is usually parsed from the
src/3rdparty/libfoo/qt_attribution.json files.
If there are multiple attribution files, or if the files have multiple
entries, we create a separate SBOM package for each of those entries,
because each might have a separate copyright or version, and an sbom
package can have only one version (although many copyrights).
For system libraries we usually lack the information because we don't
have attribution files for Find scripts. So the info needs to be
manually annotated via arguments to the sbom function calls, or the
FindFoo.cmake scripts expose that information in some form and we
can query it.
There are also corner cases like 3rdparty sources being directly
included in a Qt library, like the m4dc files for Gui, or PCRE2 for
Bootstrap.
Or QtWebEngine libraries (either Qt bundled or Chromium bundled or
system libraries) which get linked in by GN instead of CMake, so there
are no direct targets for them.
The information for these need to be annotated manually as well.
There is also a distinction to be made for static Qt builds (or any
static Qt library in a shared build), where the system libraries found
during the Qt build might not be the same that are linked into the
final user application or library.
The actual generation of the SBOM is done by file(GENERATE)-ing one
.cmake file for each target, file, external ref, etc, which will be
included in a top-level cmake script.
The top-level cmake script will run through each included file, to
append to a "staging" spdx file, which will then be used in a
configure_file() call to replace some final
variables, like embedding a file checksum.
There are install rules to generate a complete SBOM during
installation, and an optional 'sbom' custom target that allows
building an incomplete SBOM during the build step.
The build target is just for convenience and faster development
iteration time. It is incomplete because it is missing the installed
file SHA1 checksums and the document verification code (the sha1 of
all sha1s). We can't compute those during the build before the files
are actually installed.
A complete SBOM can only be achieved at installation time. The install
script will include all the generated helper files, but also set some
additional variables to ensure checksumming happens, and also handle
multi-config installation, among other small things.
For multi-config builds, CMake doesn't offer a way to run code after
all configs are installed, because they might not always be installed,
someone might choose to install just Release.
To handle that, we rely on ninja installing each config sequentially
(because ninja places the install rules into the 'console' pool which
runs one task at a time).
For each installed config we create a config-specific marker file.
Once all marker files are present, whichever config ends up being
installed as the last one, we run the sbom generation once, and then
delete all marker files.
There are a few internal variables that can be set during
configuration to enable various checks (and other features) on the
generated spdx files:
- QT_INTERNAL_SBOM_VERIFY
- QT_INTERNAL_SBOM_AUDIT
- QT_INTERNAL_SBOM_AUDIT_NO_ERROR
- QT_INTERNAL_SBOM_GENERATE_JSON
- QT_INTERNAL_SBOM_SHOW_TABLE
- QT_INTERNAL_SBOM_DEFAULT_CHECKS
These use 3rd party python tools, so they are not enabled by default.
If enabled, they run at installation time after the sbom is installed.
We will hopefully enable them in CI.
Overall, the code is still a bit messy in a few places, due to time
constraints, but can be improved later.
Some possible TODOs for the future:
- Do we need to handle 3rd party libs linked into a Qt static library
in a Qt shared build, where the Qt static lib is not installed, but
linked into a Qt shared library, somehow specially?
We can record a package for it, but we can't
create a spdx file record for it (and associated source
relationships) because we don't install the file, and spdx requires
the file to be installed and checksummed. Perhaps we can consider
adding some free-form text snippet to the package itself?
- Do we want to add parsing of .cpp source files for Copyrights, to
embed them into the packages? This will likely slow down
configuration quite a bit.
- Currently sbom info attached to WrapFoo packages in one repo is
not exported / available in other repos. E.g. If we annotate
WrapZLIB in qtbase with CPE_VENDOR zlib, this info will not be
available when looking up WrapZLIB in qtimageformats.
This is because they are IMPORTED libraries, and are not
exported. We might want to record this info in the future.
[ChangeLog][Build System] A new -sbom configure option can be used
to generate and install a SPDX SBOM (Software Bill of Materials) file
for each built Qt repository.
Pick-to: 6.8
Task-number: QTBUG-122899
Change-Id: I9c730a6bbc47e02ce1836fccf00a14ec8eb1a5f4
Reviewed-by: Joerg Bornemann <joerg.bornemann@qt.io>
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Because the configs passed to the ALL_CMAKE_CONFIGS option were quoted
cmake_parse_arguments(PARSE_ARGV) would escape the semicolon in
the set value, effectively doing
set(arg_ALL_CMAKE_CONFIGS "Release\;Debug")
Then the
list(GET arg_ALL_CMAKE_CONFIGS 0 first_config)
call would essentially do
set(first_config "Release;Debug")
and the
if(all_configs_count GREATER 1
AND NOT arg_CMAKE_CONFIG STREQUAL first_config)
condition would never trigger because a single config string can never
equal a double config string.
Remove the quotes to ensure correct behavior.
This won't really trigger any behavior change, because we exclude
installation of Debug executables in -debug-and-release builds,
but it will make --trace-expand logs less confusing.
Amends f240d94f140ba1614828804efafd2fc5e6d00099
Pick-to: 6.7
Change-Id: I53179511c7698c90b33cb3ff2762cef680a99815
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Applications not necessarly link QtGui module in
qt_internal_add_executable. They still may add link it in followoup
qt_internal_extend_target calls. We should consider this when adding
dependencies on qpa_default_plugins to the internal executables.
Pick-to: 6.7
Change-Id: Icc413bd35b631b3a356e4033faab4e6c01b29a60
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
QtGui module can be linked using both versioned and non versioned
targets. Consider this when adding the dependencies to the
qpa_default_plugins targets.
Pick-to: 6.7
Change-Id: Iccbf3009ab8a4f9df4de1677f1b41445814c8c9e
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Qt tools and executables may required the static plugins from modules
that are build as part of the Qt build tree. In this case we need to
force plugin importing. This adds the qt_internal_import_plugins call
when we extend the executable target.
Replace the previos solution that considered libraries that were
provided in the arguments of the qt_internal_add_executable call only.
Pick-to: 6.7 6.6 6.5
Fixes: QTBUG-111988
Change-Id: Ifa2cf7f1f68d9f90cafc64f225aebe11d4cdb2ae
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
When building examples as ExternalProjects as part of a multi-config
qtbase build, syncqt can not be located with the following error:
CMake Error at Qt6CoreToolsAdditionalTargetInfo.cmake:10 (message):
Unable to add configure time executable Qt6::syncqt
qtbase/libexec/syncqt doesn't exist
Call Stack (most recent call first):
qtbase/lib/cmake/Qt6CoreTools/Qt6CoreToolsConfig.cmake:44 (include)
qtbase/cmake/QtPublicDependencyHelpers.cmake:65 (find_package)
qtbase/lib/cmake/Qt6Core/Qt6CoreDependencies.cmake:34
(_qt_internal_find_tool_dependencies)
qtbase/lib/cmake/Qt6Core/Qt6CoreConfig.cmake:42 (include)
qtbase/lib/cmake/Qt6/Qt6Config.cmake:165 (find_package)
CMakeLists.txt:13 (find_package)
The Qt6CoreToolsAdditionalTargetInfo.cmake file is used both for
install(EXPORT) Config files as well as export(EXPORT) Config files,
and in the latter case, the path that syncqt is looked up in is not
correct because syncqt is not yet installed.
In addition to checking whether syncqt exists in the install path,
also check if it exists in the build dir.
Ideally the additional path would be stored in a separate file that
is not installed, but the current code infrastructure does not provide
such a feature. Because we store a relative path instead of an
absolute path, the build path does not leak, so the situation is
bearable.
Task-number: QTBUG-90820
Task-number: QTBUG-96232
Change-Id: I16ad5c280751e050bc9b039ebd38ec9a66a6554c
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Qt no longer sets DISABLE_EXCEPTION_CATCHING and can
use the common logic here.
Task-number: QTBUG-121822
Change-Id: If02feafe9eeac49fa2861d2357b358a19e756438
Reviewed-by: Lorn Potter <lorn.potter@gmail.com>
Configure time executables don't adopt new cmake flags if they were
changed. Cache all flags that were used when building configure time
executables and consider changes when decide rebuilding them.
Pick-to: 6.6 6.5
Change-Id: Ifba77833f362c790120f0ab1f808a855327bc49f
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Reviewed-by: Amir Masoud Abdol <amir.abdol@qt.io>
Wiping of CMakeCache should lead to removing of CMakeCache that is
generated for configure-time executable. Otherwise configure-time
executables might still use wrong compiler or compiler flags.
Pick-to: 6.6 6.5
Task-number: QTBUG-116789
Change-Id: I702d5d29e0c5f35a8a36311cf9a84ea7a0f4d781
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
The former implies the latter, so it makes little sense to treat them
differently. Even if some types of targets are (currently) never
compiled with PCH, users of qt_internal_all_x() shouldn't need to know
such details.
Pick-to: 6.6 6.5
Change-Id: I8ead238a8d9e55da632b2929638b67724a42d73c
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
We want syncqt to be built optimized by default. The current approach
set the default build type for the external projects and optimized
flags for the non-configure-time syncqt build. The problem is that
syncqt still have compiler flags littered by either the Qt configuration
type or the system defaults that are applicable for RelWithDebugInfo
configuration(the default one we chose for syncqt).
This patch makes sure that we cleanup all compiler flags from any
optimizations and apply optimized flags for all configurations. Also
we discard '/RTC1' flag if it's set. Configure time executables now
respect the language related flags that are set in the project and
adjust the flags passed to try_compile.
For linker flags we should use those that are applicable for the
preferred build type. Since syncqt is built in RelWithDebugInfo
by default we should replace linker flags in all configs with
those are used for RelWithDebugInfo configuration.
Fixes: QTBUG-114925
Pick-to: 6.5 6.6
Change-Id: I782f81a36f5ef7ee4d342ce8ac6c217cb2552f3b
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
The syncqt tool was originally designed to run at build time, as a
part of dependency chain of Qt modules. This works well unless we need
the code model of the Qt project in IDE, since Qt source code actively
uses header aliases, and creating them at build time breaks the code
model until the initial build is done. So we made syncqt the configure
time tool to not break the developer experience.
It's more likely that developers build Qt using command line or don't
need the code model before the first build. So running the tool at
configure time should be optional.
QT_SYNC_HEADERS_AT_CONFIGURE_TIME switches the "mode" of the syncqt
tool from build time tool to the configure time tool. Without the
option enabled build procedure runs all the syncing targets at build
time only. The exception are the developer builds, if the
'-developer-build' option is enabled, QT_SYNC_HEADERS_AT_CONFIGURE_TIME
is set to TRUE by default. This gives better development experience for
the developers that don't use the code model in their IDE or don't
require it before the first build is finished. Also this build time
mode is preferred for the CI or similar build procedures where code
model is not required at all.
By default, the option initialized from the
QT_INTERNAL_CONFIGURE_FROM_IDE CMake variable.
TODO: The option is forced to TRUE for the static Ninja Multi-Config
builds. See QTBUG-113974 for details.
[ChangeLog][Build System] When building Qt from sources, syncqt and Qt
header files are now created at build time, not configure time. This
should speed up the configuration step. You can set the CMake variable
QT_CONFIGURE_TIME_SYNC_HEADERS to ON to use the previous behavior,
though. The old behavior is also preserved if cmake/configure is run
from inside an IDE - Qt Creator, Visual Studio Code, and CLion are
currently detected.
Task-number: QTBUG-111163
Task-number: QTBUG-109792
Pick-to: 6.6
Change-Id: Ib61bda9546e58492be874a8591c37e100313d02c
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
CMP0099 changes the way of LINK_ONLY genex works. With CMP0099 set to
OLD LINK_ONLY genex only links the exact library binary/archive without
propagating other interface options from the target. This feature was
exploited by PlatformXInternal targets to avoid propagating of their
linker options. Nowadays when CMP0099 is forced to NEW by Qt scripts,
including user-facing, we cannot rely on LINK_ONLY genex.
Introduce _qt_is_internal_target property that is set for all Qt
executables and explicitly limits the propagation of the linker
options from PlatformXInternal targets.
Pick-to: 6.5 6.6
Fixes: QTBUG-113641
Change-Id: I3a0ecddb65886e435073feb24c1b47035130ba70
Reviewed-by: Alexandru Croitor (OOO) <alexandru.croitor@qt.io>
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
The function needs TRUE/FALSE, not NO_EXCEPTIONS.
Change-Id: I3e173e26fafc02996577466afd09e85351a0380f
Reviewed-by: Mikołaj Boc <Mikolaj.Boc@qt.io>
Reviewed-by: Morten Johan Sørvig <morten.sorvig@qt.io>
Problem: "ninja clean" does not fully clean the build directories of
configure-time executables (e.g. syncqt). This can lead to problems when
building with compiler and linker launchers: on configure time, the
launchers are not used (compare CMake issue #20762). After a "ninja
clean", the executable might be removed but the object files are still
there. This leads to a situation where the object files have been
created without the compiler launcher but are linked with the linker
launcher. We encountered a situation however, where the linker launcher
requires the usage of the compiler launcher.
The configure-time executable has a ${target}_build custom command that
runs "cmake --build" and creates a timestamp file to track when to build
the target. To circumvent the problem of stale object files we add the
"--clean-first" argument to that target to fully rebuild configure-time
executables if the timestamp file is out of date.
The performance this imposes is negligible, because
1. Those configure-time executables are seldom out of date.
2. They are supposed to be "tiny executables with system dependencies
only" anyway.
Pick-to: 6.5
Change-Id: I701f9089f5ad941ffdf235aeccc3119b68c4e3e3
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
Add the timestamp file creation for configure-time executables.
GNU make treats the custom command artifacts as 'dirty' when one of
the expected outputs is missing. It displays the following disclaimer
Deleting primary custom command output ... because another output
... does not exist.
which leads to the configure-time executable rebuild. The removal
and rebuild is not in sync with the dependency lookup for other
targets(thanks to GNU make) so targets that depend on the
configure-time executables simply miss the dependency at build time.
This happens to syncqt and '_sync_headers' targets. So creating
the timestamp file at configure time indicates to GNU make that
there is no need of removing the syncqt executable and the build
process doesn't fail because of missing dependency.
Fixes: QTBUG-112018
Fixes: QTBUG-111163
Pick-to: 6.5
Change-Id: I6c1e8cae522104cf50d0376fa2b5653a6770f9ca
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Reviewed-by: Qt CI Bot <qt_ci_bot@qt-project.org>
As I was investigating the NO_UNITY_BUILD_SOURCES issue, I realized that
we don't need to pass these quoted, especially now that we have moved
to `cmake_parse_arguments(PARSE_ARGV`, and we can check their existence
just by checking the `arg_*`, and that should be sufficient.
I also left a warning that we are aware of this.
Pick-to: 6.5
Change-Id: I4d939e80dc4671ea3ae9dc61516279f69ba2c5a5
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
The source of the problem was in `qt_set_target_info_properties` which
was not able to process the NO_UNITY_BUILD_SOURCES, and therefore
leaking it into the `TARGET_COPYRIGHT`, ie., the last argument. So, I
decided to pass Unity Build arguments before them, and closer to
SOURCES, which is nicer to read, and avoid similar situation. And
I reverted the work around in the amend commit, and passing the
arguments normally.
This happens because we pass an unfiltered ${ARGN} from
qt_internal_add_executable to qt_set_target_info_properties and that the
current change is merely a workaround that ensures they get
circumstantially filtered out, because the NO_UNITY_BUILD_SOURCES option
appears before any of the first TARGET_ props.
Amend cd12c1f33281452d478bb94744d76bead5c7363a
Task-number: QTBUG-99238
Task-number: QTBUG-109394
Pick-to: 6.5
Change-Id: Idb37937cf53e708425402c90f55bda8816e27f29
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
- The following commands accepts NO_UNITY_BUILD, and
NO_UNITY_BUILD_SOURCES arguments to opt out of the unity build, and
to exclude some source files from unity build, respectively.
- qt_internal_add_executable
- qt_internal_add_module
- qt_internal_add_plugin
- qt_internal_add_tool
- qt_internal_extend_target
- qt_internal_add_common_qt_library_helper
- qt_internal_add_cmake_library
- qt_internal_add_simd_part
- Unity build is disabled by default in these:
- qt_internal_add_test
- qt_internal_add_test_helper
- qt_internal_add_benchmark
- qt_internal_add_3rdparty_library
- qt_update_ignore_pch_source also excludes the files from unity_build
Pick-to: 6.5
Task-number: QTBUG-109394
Change-Id: I5d0e7df633738310a015142a6c73fbb78b6c3467
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
The extra quote enforces the arguments to be string, and stops the
COMMAND_EXPAND_LISTS within
QtDbusHelpers.cmake::qt_create_qdbusxml2cpp_command from expanding it
as a list.
Fixes: QTBUG-110459
Fixes: QTBUG-110450
Task-number: QTBUG-99238
Change-Id: Ifddd6570c7bf8f2d1757f275d9445ce2924a93f1
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Reviewed-by: Ivan Solovev <ivan.solovev@qt.io>
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
This replaces the qt_parse_all_arguments macro with the built-in
`cmake_parse_arguments(PARSE_ARGV`. In addition, a new function,
_qt_internal_validate_all_args_are_parsed, can be used to check whether
any _UNPARSED_ARGUMENTS have been passed to the function.
Fixes: QTBUG-99238
Change-Id: I8cee83dc92dc6acdaaf747ea6ff9084c11dc649b
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Set the RUNTIME_OUTPUT_DIRECTORY for configure-time executables so
executable will be located inside the QT_BUILD_DIR. This allows to
re-build syncqt and make sure ithat ts binary is replaced and located
in the libexec directory.
Comment on how to rebuild syncqt. Configure-time tools reserve the
original tool name for the imported executable. To re-build syncqt use
'syncqt_build' target.
Task-number: QTBUG-109792
Change-Id: Id7d912b1d75d18d82cb2a69fbd62b89440120d78
Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
syncqt.pl adds an extra dependency on perl when building Qt. Modern C++
provides the convenient cross-platform way to access a filesystem and
to use regular expressions, so we may replace the perl script with C++
application. The syncqt executable is built at configure time and
installed as QtCore tool. It's running at configure time to deliver the
required header files for IDE to build a consistent code model and at
the build time to keep tracking changes in header files and generate
the missing aliases without reconfiguring. 'syncqt' only parses header
files from a CMake build tree, so the resulting Qt installation only
contains interfacing headers that belong to the platform that Qt is
built for. 'sync.profile' files are not used as the 'source of truth'
for sync qt procedure anymore, all the necessary information is taken
from either CMake files at configure time or from the module header
files while parsing them.
syncqt.pl is still in place since it's required as fallback solution
for a smooth transition to the new syncqt implementation for all qt
repositories.
This patchset only enables the C++ based syncqt for 'qtbase'
repository.
From the performance perspective C++ version works faster then perl
script, also the configure time is reduced significally on subsequent
reconfigurations - up x2 times faster when re-configuring repository,
but it also takes time to compile the tool itself the first time.
Numbers for qtbase:
syncqt.pl syncqt.cpp
initial: 0m16,035s 0m20,413s
reconfig: 0m6,819s 0m3,725s
The syncing procedure can be run separately for each module using
<ModuleName>_sync_headers targets. The 'sync_headers' target can be
used to sync all the modules at once.
Task-number: QTBUG-87480
Task-number: QTBUG-103196
Change-Id: I8c938bcaf88a8713b39bbfd66d9e7ef12b2c3523
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Use PARSE_ARGV signature of the cmake_parse_arguments function to avoid
escaping of semicolons when passing arguments to the
qt_internal_add_configure_time_tool and
qt_internal_add_configure_time_executable function.
Amends ac74b60c9c1101288eb2c558420ba69f675a2ee2
Task-number: QTBUG-87480
Change-Id: I343abbd75107e56aaccab6e388db8dbda0525af3
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
This reflects the true state of exceptions on WASM, which are always
disabled (DISABLE_EXCEPTION_CATCHING is always set with 1).
Change-Id: I7b681846159caf61f291f78a7b4ddf5260dc341f
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
qt_internal_add_configure_time_executable compiles the executable
at configure time and exposes it to the CMake source tree. This is
useful when need to run a small C++ program at configure time.
Task-number: QTBUG-87480
Change-Id: I031efe797c8afa0721d75b46d4f36f67276bf46e
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
This way it is able to pick up all of the properties assigned to it
before finalization.
Change-Id: I9da635f8620859a669c4e4d589fff56a3ce42ab9
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
The new batched test runner is now used for running the tests instead
of the wasm shell, which runs for single test cases.
Change-Id: I7b7e6dd7993ba7937124c5843356b6891301b893
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
Developers can add to Emscripten's EXPORT_RUNTIME_METHODS
by defining their own using:
QT_WASM_EXTRA_EXPORTED_METHODS
Which will add on to Qt's default exported runtime methods
of UTF16ToString,stringToUTF16
for cmake:
set_target_properties(<target> PROPERTIES QT_WASM_EXTRA_EXPORTED_METHODS "ccall,cwrap")
or
set(QT_WASM_EXTRA_EXPORTED_METHODS "ccall,cwrap")
for qmake:
QT_WASM_EXTRA_EXPORTED_METHODS = ccall,cwrap
Done-with: Mikolaj Boc
Fixes: QTBUG-104882
Pick-to: 6.4
Change-Id: I9678bdb7b077aaa8527057212ea4e161c0be0b60
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
CMakeLists.txt and .cmake files of significant size
(more than 2 lines according to our check in tst_license.pl)
now have the copyright and license header.
Existing copyright statements remain intact
Task-number: QTBUG-88621
Change-Id: I3b98cdc55ead806ec81ce09af9271f9b95af97fa
Reviewed-by: Jörg Bornemann <joerg.bornemann@qt.io>
Warn projects not to use it because PUBLIC_LIBRARIES don't make
sense for executable targets and it also led to some issues in the
internal functions where some of them did not expect to receive
PUBLIC_LIBRARIES.
To ensure builds don't needlessly break, treat PUBLIC_LIBRARIES values
as regular LIBRARIES. In the future we might add an error instead.
Using PUBLIC_LIBRARIES in qt_internal_add_app, etc, accidentally
worked because the option name and the values following it were
parsed as values of the "previous" option, like SOURCES or
INCLUDE_DIRECTORIES or LIBRARIES, and when those got
passed through to qt_internal_extend_target, things magically worked.
We have a lot of projects using PUBLIC_LIBRARIES, mostly due to the
way qmake pro files were written and how pro2cmake converted them.
We'll have to clean up each repo.
Change-Id: I69e09d34afdf98f0d47c08d324643fc986f8131c
Reviewed-by: Alexey Edelev <alexey.edelev@qt.io>
It's perfectly possible to create static plugins in an otherwise shared
Qt build, but the logic to import these plugins into applications was
assuming a fully static Qt build. We now handle this more granularly.
This works for in-source tools and tests as well, which don't go through
the same CMake machinery for plugins as user projects do. The only case
that does not currently work is in-source examples, as they don't share
any of the plugin machinery with neither Qt internal tools/tests or user
project, but that's a bigger architectural issue that goes beyond this
change.
Change-Id: Ie00a97b02ac38ec4affadc447a3bfd0ec7d9c69a
Reviewed-by: Alexandru Croitor <alexandru.croitor@qt.io>
