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build.gradle
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build.gradle
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/*
* Copyright (c) 2013, 2017, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/**
* The main build script for JavaFX.
*
* MUST FIX tasks to complete:
* - build check -- making sure the final artifact has the right bits
* - some things worth automatically sanity checking:
* - are there images in the javadocs?
* - are all of the expected dylibs etc there?
* - Perform sanity checking to make sure a JDK exists with javac, javah, etc
* - Support building with no known JDK location, as long as javac, javah, etc are on the path
* - Check all of the native flags. We're adding weight to some libs that don't need it, and so forth.
*
* Additional projects to work on as we go:
* - Add "developer debug". This is where the natives do not have debug symbols, but the Java code does
* - The genVSproperties.bat doesn't find the directory where RC.exe lives. So it is hard coded. Might be a problem.
* - special tasks for common needs, such as:
* - updating copyright headers
* - stripping trailing whitespace (?)
* - checkstyle
* - findbugs
* - re needs?
* - sqe testing
* - API change check
* - Pushing results to a repo?
* - ServiceWithSecurityManagerTest fails to complete when run from gradle.
* - Integrate Parfait reports for C code
* - FXML Project tests are not running
*/
defaultTasks = ["sdk"]
import java.util.concurrent.CountDownLatch
import java.util.concurrent.ExecutorService
import java.util.concurrent.Executors
import java.util.concurrent.Future
/******************************************************************************
* Utility methods *
*****************************************************************************/
/**
* If the given named property is not defined, then this method will define
* it with the given defaultValue. Any properties defined by this method can
* be substituted on the command line by using -P, or by specifying a
* gradle.properties file in the user home dir
*
* @param name The name of the property to define
* @param defaultValue The default value to assign the property
*/
void defineProperty(String name, String defaultValue) {
if (!project.hasProperty(name)) {
project.ext.set(name, defaultValue);
}
}
/**
* If the given named property is not defined, then this method will attempt to
* look up the property in the props map, and use the defaultValue if it cannot be found.
*
* @param name The name of the property to look up and/or define
* @param props The properties to look for the named property in, if it has not already been defined
* @param defaultValue The default value if the property has not been defined and the
* props map does not contain the named property
*/
void defineProperty(String name, Properties props, String defaultValue) {
if (!project.hasProperty(name)) {
project.ext.set(name, props.getProperty(name, defaultValue));
}
}
/**
* Converts cygwin style paths to windows style paths, but with a forward slash.
* This method is safe to call from any platform, and will only do work if
* called on Windows (in all other cases it simply returns the supplied path.
*
* @param path the path to convert
* @return the path converted to windows style, if on windows, otherwise it
* is the supplied path.
*/
String cygpath(String path) {
if (!IS_WINDOWS) return path;
if (path == null || "".equals(path)) return path;
String ret = path.replaceAll('\\\\', '/')
logger.info("Converting path '$path' via cygpath to "+ret)
return ret
}
void loadProperties(String sourceFileName) {
def config = new Properties()
def propFile = new File(sourceFileName)
if (propFile.canRead()) {
config.load(new FileInputStream(propFile))
for (java.util.Map.Entry property in config) {
def keySplit = property.key.split("\\.");
def key = keySplit[0];
for (int i = 1; i < keySplit.length; i++) {
key = key + keySplit[i].capitalize();
}
ext[key] = property.value;
}
}
}
/**
* Struct used to contain some information passed to the closure
* passed to compileTargets.
*/
class CompileTarget {
String name;
String upper;
String capital;
}
/**
* Iterates over each of the compile targets, passing the given closure
* a CompileTarget instance.
*
* @param c The closure to call
*/
void compileTargets(Closure c) {
if (COMPILE_TARGETS == "") {
return
}
COMPILE_TARGETS.split(",").each { target ->
CompileTarget ct = new CompileTarget();
ct.name = target;
ct.upper = target.trim().toUpperCase(Locale.ROOT)
ct.capital = target.trim().capitalize()
c(ct)
}
}
/**
* Manages the execution of some closure which is responsible for producing
* content for a properties file built at build time and stored in the
* root project's $buildDir, and then loading that properties file and
* passing it to the processor closure.
*
* This is used on windows to produce a properties file containing all the
* windows visual studio paths and environment variables, and on Linux
* for storing the results of pkg-config calls.
*
* @param name the name of the file to produce
* @param loader a closure which is invoked, given the properties file. This
* closure is invoked only if the properties file needs to be created
* and is responsible for populating the properties file.
* @param processor a closure which is invoked every time this method is
* called and which will be given a Properties object, fully populated.
* The processor is then responsible for doing whatever it is that it
* must do with those properties (such as setting up environment
* variables used in subsequent native builds, or whatnot).
*/
void setupTools(String name, Closure loader, Closure processor) {
// Check to see whether $buildDir/$name.properties file exists. If not,
// then generate it. Once generated, we need to read the properties file to
// help us define the defaults for this block of properties
File propFile = file("$buildDir/${name}.properties");
if (!propFile.exists()) {
// Create the properties file
propFile.getParentFile().mkdirs();
propFile.createNewFile();
loader(propFile);
}
// Try reading the properties in order to define the properties. If the property file cannot
// be located, then we will throw an exception because we cannot guess these values
InputStream propStream = null;
try {
Properties properties = new Properties();
propStream = new FileInputStream(propFile);
properties.load(propStream);
processor(properties);
} finally {
try { propStream.close() } catch (Exception e) { }
}
}
String[] parseJavaVersion(String jRuntimeVersion) {
def jVersion = jRuntimeVersion.split("[-\\+]")[0]
def tmpBuildNumber = "0"
if (jVersion.startsWith("1.")) {
// This is a pre-JEP-223 version string
def dashbIdx = jRuntimeVersion.lastIndexOf("-b")
if (dashbIdx != -1) {
tmpBuildNumber = jRuntimeVersion.substring(dashbIdx + 2)
}
} else {
// This is a post-JEP-223 version string
def plusIdx = jRuntimeVersion.indexOf("+")
if (plusIdx != -1) {
tmpBuildNumber = jRuntimeVersion.substring(plusIdx + 1)
}
}
def jBuildNumber = tmpBuildNumber.split("[-\\+]")[0]
def versionInfo = new String[2];
versionInfo[0] = jVersion
versionInfo[1] = jBuildNumber
return versionInfo
}
/**
* Fails the build with the specified error message
*
* @param msg the reason for the failure
*/
void fail(String msg) {
throw new GradleException("FAIL: " + msg);
}
/******************************************************************************
* *
* Definition of project properties *
* *
* All properties defined using ext. are immediately available throughout *
* the script as variables that can be used. These variables are attached *
* to the root project (whereas if they were defined as def variables then *
* they would only be available within the root project scope). *
* *
* All properties defined using the "defineProperty" method can be replaced *
* on the command line by using the -P flag. For example, to override the *
* location of the binary plug, you would specify -PBINARY_PLUG=some/where *
* *
*****************************************************************************/
// If the ../rt-closed directory exists, then we are doing a closed build.
// In this case, build and property files will be read from
// ../rt-closed/closed-build.gradle and ../rt-closed/closed-properties.gradle
// respectively
def closedDir = file("../rt-closed")
def buildClosed = closedDir.isDirectory()
ext.BUILD_CLOSED = buildClosed
ext.RUNARGSFILE = "run.args"
ext.COMPILEARGSFILE = "compile.args"
ext.RUNJAVAPOLICYFILE = 'run.java.policy'
ext.TESTCOMPILEARGSFILE = "testcompile.args"
ext.TESTRUNARGSFILE = "testrun.args"
ext.TESTJAVAPOLICYFILE = 'test.java.policy'
// the file containing "extra" --add-exports
ext.EXTRAADDEXPORTS = 'buildSrc/addExports'
ext.MODULESOURCEPATH = "modulesourcepath.args"
// These variables indicate what platform is running the build. Is
// this build running on a Mac, Windows, or Linux machine? 32 or 64 bit?
ext.OS_NAME = System.getProperty("os.name").toLowerCase()
ext.OS_ARCH = System.getProperty("os.arch")
ext.IS_64 = OS_ARCH.toLowerCase().contains("64")
ext.IS_MAC = OS_NAME.contains("mac") || OS_NAME.contains("darwin")
ext.IS_WINDOWS = OS_NAME.contains("windows")
ext.IS_LINUX = OS_NAME.contains("linux")
// Verify that the architecture & OS are supported configurations. Note that
// at present building on PI is not supported, but we would only need to make
// some changes on assumptions on what should be built (like SWT / Swing) and
// such and we could probably make it work.
if (!IS_MAC && !IS_WINDOWS && !IS_LINUX) fail("Unsupported build OS ${OS_NAME}")
if (IS_WINDOWS && OS_ARCH != "x86" && OS_ARCH != "amd64") {
fail("Unknown and unsupported build architecture: $OS_ARCH")
} else if (IS_MAC && OS_ARCH != "x86_64") {
fail("Unknown and unsupported build architecture: $OS_ARCH")
} else if (IS_LINUX && OS_ARCH != "i386" && OS_ARCH != "amd64") {
fail("Unknown and unsupported build architecture: $OS_ARCH")
}
// Get the JDK_HOME automatically based on the version of Java used to execute gradle. Or, if specified,
// use a user supplied JDK_HOME, STUB_RUNTIME, JAVAC, all of which may be specified
// independently (or we'll try to get the right one based on other supplied info). Sometimes the
// JRE might be the thing that is being used instead of the JRE embedded in the JDK, such as:
// c:\Program Files (x86)\Java\jdk1.8.0\jre
// c:\Program Files (x86)\Java\jre8\
// Because of this, you may sometimes get the jdk's JRE (in which case the logic we used to have here
// was correct and consistent with all other platforms), or it might be the standalone JRE (for the love!).
def envJavaHome = cygpath(System.getenv("JDK_HOME"))
if (envJavaHome == null || envJavaHome.equals("")) envJavaHome = cygpath(System.getenv("JAVA_HOME"))
def javaHome = envJavaHome == null || envJavaHome.equals("") ? System.getProperty("java.home") : envJavaHome
def javaHomeFile = file(javaHome)
defineProperty("JDK_HOME",
javaHomeFile.name == "jre" ?
javaHomeFile.getParent().toString() :
javaHomeFile.name.startsWith("jre") ?
new File(javaHomeFile.getParent(), "jdk1.${javaHomeFile.name.substring(3)}.0").toString() :
javaHome) // we have to bail and set it to something and this is as good as any!
ext.JAVA_HOME = JDK_HOME
defineProperty("JAVA", cygpath("$JDK_HOME/bin/java${IS_WINDOWS ? '.exe' : ''}"))
defineProperty("JAVAC", cygpath("$JDK_HOME/bin/javac${IS_WINDOWS ? '.exe' : ''}"))
defineProperty("JAVAH", cygpath("$JDK_HOME/bin/javah${IS_WINDOWS ? '.exe' : ''}"))
defineProperty("JAVADOC", cygpath("$JDK_HOME/bin/javadoc${IS_WINDOWS ? '.exe' : ''}"))
defineProperty("JDK_DOCS", "http://download.java.net/java/jdk9/docs/api/")
defineProperty("JDK_JMODS", cygpath(System.getenv("JDK_JMODS")) ?: cygpath(System.getenv("JDK_HOME") + "/jmods"))
defineProperty("javaRuntimeVersion", System.getProperty("java.runtime.version"))
def javaVersionInfo = parseJavaVersion(javaRuntimeVersion)
defineProperty("javaVersion", javaVersionInfo[0])
defineProperty("javaBuildNumber", javaVersionInfo[1])
loadProperties("$projectDir/build.properties")
// Look for stub runtime in either JDK or modular-sdk dir layout
def String closedCacheStubRuntime = cygpath("$projectDir") + "/../caches/modular-sdk"
def String jdkStubRuntime = cygpath("$JDK_HOME")
defineProperty("STUB_RUNTIME", BUILD_CLOSED ? closedCacheStubRuntime : jdkStubRuntime)
def cachedStub = STUB_RUNTIME.equals(closedCacheStubRuntime)
if (cachedStub) {
def stubModulesLib = "$STUB_RUNTIME/modules_libs"
defineProperty("MEDIA_STUB", "$stubModulesLib/javafx.media")
defineProperty("WEB_STUB", "$stubModulesLib/javafx.web")
} else {
def libraryStub = IS_WINDOWS ? "$STUB_RUNTIME/bin" : "$STUB_RUNTIME/lib"
defineProperty("MEDIA_STUB", libraryStub)
defineProperty("WEB_STUB", libraryStub)
}
defineProperty("UPDATE_STUB_CACHE", (cachedStub ? 'true' : 'false'))
def supplementalPreBuildFile = file("$closedDir/closed-pre-build.gradle");
def supplementalBuildFile = file("$closedDir/closed-build.gradle");
if (BUILD_CLOSED) {
apply from: supplementalPreBuildFile
}
// GRADLE_VERSION_CHECK specifies whether to fail the build if the
// gradle version check fails
defineProperty("GRADLE_VERSION_CHECK", "true")
ext.IS_GRADLE_VERSION_CHECK = Boolean.parseBoolean(GRADLE_VERSION_CHECK)
// COMPILE_WEBKIT specifies whether to build all of webkit.
defineProperty("COMPILE_WEBKIT", "false")
ext.IS_COMPILE_WEBKIT = Boolean.parseBoolean(COMPILE_WEBKIT)
// COMPILE_MEDIA specifies whether to build all of media.
defineProperty("COMPILE_MEDIA", "false")
ext.IS_COMPILE_MEDIA = Boolean.parseBoolean(COMPILE_MEDIA)
// COMPILE_PANGO specifies whether to build javafx_font_pango.
defineProperty("COMPILE_PANGO", "${IS_LINUX}")
ext.IS_COMPILE_PANGO = Boolean.parseBoolean(COMPILE_PANGO)
// COMPILE_HARFBUZZ specifies whether to use Harfbuzz.
defineProperty("COMPILE_HARFBUZZ", "false")
ext.IS_COMPILE_HARFBUZZ = Boolean.parseBoolean(COMPILE_HARFBUZZ)
// COMPILE_PARFAIT specifies whether to build parfait
defineProperty("COMPILE_PARFAIT", "false")
ext.IS_COMPILE_PARFAIT = Boolean.parseBoolean(COMPILE_PARFAIT)
// BUILD_FXPACKAGER enables building the packager modules and native code
defineProperty("BUILD_FXPACKAGER", "true")
ext.IS_BUILD_FXPACKAGER = Boolean.parseBoolean(BUILD_FXPACKAGER)
// RETAIN_PACKAGER_TESTS specifies whether the tests in fxpackager should
// keep generated files instead of attempting to automatically delete them
defineProperty("RETAIN_PACKAGER_TESTS", "false")
ext.IS_RETAIN_PACKAGER_TESTS = Boolean.parseBoolean(RETAIN_PACKAGER_TESTS)
// TEST_PACKAGER_DMG whether tests that create DMG files via hdiutil
// should be run. On OSX 10.7 this tends to hang automated builds
defineProperty("TEST_PACKAGER_DMG", "false")
ext.IS_TEST_PACKAGER_DMG = Boolean.parseBoolean(TEST_PACKAGER_DMG)
// Define the SWT.jar that we are going to have to download during the build process based
// on what platform we are compiling from (not based on our target).
ext.SWT_FILE_NAME = IS_MAC ? "org.eclipse.swt.cocoa.macosx.x86_64_3.105.3.v20170228-0512" :
IS_WINDOWS && IS_64 ? "org.eclipse.swt.win32.win32.x86_64_3.105.3.v20170228-0512" :
IS_WINDOWS && !IS_64 ? "org.eclipse.swt.win32.win32.x86_3.105.3.v20170228-0512" :
IS_LINUX && IS_64 ? "org.eclipse.swt.gtk.linux.x86_64_3.105.3.v20170228-0512" :
IS_LINUX && !IS_64 ? "org.eclipse.swt.gtk.linux.x86_3.105.3.v20170228-0512" : ""
// Specifies whether to run full tests (true) or smoke tests (false)
defineProperty("FULL_TEST", "false")
ext.IS_FULL_TEST = Boolean.parseBoolean(FULL_TEST);
defineProperty("FORCE_TESTS", "false")
ext.IS_FORCE_TESTS = Boolean.parseBoolean(FORCE_TESTS);
// Specifies whether to run robot-based visual tests (only used when FULL_TEST is also enabled)
defineProperty("USE_ROBOT", "false")
ext.IS_USE_ROBOT = Boolean.parseBoolean(USE_ROBOT);
// Specified whether to run tests in headless mode
defineProperty("HEADLESS_TEST", "false")
ext.IS_HEADLESS_TEST = Boolean.parseBoolean(HEADLESS_TEST);
// Specifies whether to run system tests that depend on AWT (only used when FULL_TEST is also enabled)
defineProperty("AWT_TEST", "true")
ext.IS_AWT_TEST = Boolean.parseBoolean(AWT_TEST);
// Specifies whether to run system tests that depend on SWT (only used when FULL_TEST is also enabled)
defineProperty("SWT_TEST", "true")
ext.IS_SWT_TEST = Boolean.parseBoolean(SWT_TEST);
// Specifies whether to run unstable tests (true) - tests that don't run well with Hudson builds
// These tests should be protected with :
// assumeTrue(Boolean.getBoolean("unstable.test"));
defineProperty("UNSTABLE_TEST", "false")
ext.IS_UNSTABLE_TEST = Boolean.parseBoolean(UNSTABLE_TEST);
// Toggle diagnostic output from the Gradle workaround and the Sandbox test apps.
defineProperty("WORKER_DEBUG", "false")
ext.IS_WORKER_DEBUG = Boolean.parseBoolean(WORKER_DEBUG);
// Specify the build configuration (Release, Debug, or DebugNative)
defineProperty("CONF", "Debug")
ext.IS_DEBUG_JAVA = CONF == "Debug" || CONF == "DebugNative"
ext.IS_DEBUG_NATIVE = CONF == "DebugNative"
// Defines the compiler warning levels to use. If empty, then no warnings are generated. If
// not empty, then the expected syntax is as a space or comma separated list of names, such
// as defined in the javac documentation.
defineProperty("LINT", "none")
ext.IS_LINT = LINT != "none"
defineProperty("DOC_LINT", "all")
ext.IS_DOC_LINT = DOC_LINT != ""
// Specifies whether to use the "useDepend" option when compiling Java sources
defineProperty("USE_DEPEND", "true")
ext.IS_USE_DEPEND = Boolean.parseBoolean(USE_DEPEND)
// Specifies whether to use the "incremental" option when compiling Java sources
defineProperty("INCREMENTAL", "false")
ext.IS_INCREMENTAL = Boolean.parseBoolean(INCREMENTAL)
// Specifies whether to include the Null3D pipeline (for perf debugging)
defineProperty("INCLUDE_NULL3D", "false")
ext.IS_INCLUDE_NULL3D = Boolean.parseBoolean(INCLUDE_NULL3D)
// Specifies whether to include the ES2 pipeline if available
defineProperty("INCLUDE_ES2", IS_WINDOWS ? "false" : "true")
ext.IS_INCLUDE_ES2 = Boolean.parseBoolean(INCLUDE_ES2)
// Specifies whether to generate code coverage statistics when running tests
defineProperty("JCOV", "false")
ext.DO_JCOV = Boolean.parseBoolean(JCOV)
// Define the number of threads to use when compiling (specifically for native compilation)
// On Mac we limit it to 1 by default due to problems running gcc in parallel
if (IS_MAC) {
defineProperty("NUM_COMPILE_THREADS", "1")
} else {
defineProperty("NUM_COMPILE_THREADS", "${Runtime.runtime.availableProcessors()}")
}
//
// The next three sections of properties are used to generate the
// VersionInfo class, and the Windows DLL manifest.
//
// The following properties should be left alone by developers and set only from Hudson.
defineProperty("HUDSON_JOB_NAME", "not_hudson")
defineProperty("HUDSON_BUILD_NUMBER","0000")
defineProperty("PROMOTED_BUILD_NUMBER", "0")
defineProperty("MILESTONE_FCS", "false")
ext.IS_MILESTONE_FCS = Boolean.parseBoolean(MILESTONE_FCS)
// The following properties define the product name for Oracle JDK and OpenJDK
// for VersionInfo and the DLL manifest.
if (BUILD_CLOSED) {
defineProperty("PRODUCT_NAME", "Java(TM)")
defineProperty("COMPANY_NAME", "Oracle Corporation")
defineProperty("PLATFORM_NAME", "Platform SE")
} else {
defineProperty("PRODUCT_NAME", "OpenJFX")
defineProperty("COMPANY_NAME", "N/A")
defineProperty("PLATFORM_NAME", "Platform")
}
// The following properties are set based on properties defined in
// build.properties. The release version and suffix should be updated
// in that file.
def relVer = 0
if (jfxReleasePatchVersion == "0") {
if (jfxReleaseSecurityVersion == "0") {
if (jfxReleaseMinorVersion == "0") {
relVer = "${jfxReleaseMajorVersion}"
} else {
relVer = "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}"
}
} else {
relVer = "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}.${jfxReleaseSecurityVersion}"
}
} else {
relVer = "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}.${jfxReleaseSecurityVersion}.${jfxReleasePatchVersion}"
}
defineProperty("RELEASE_VERSION", relVer)
defineProperty("RELEASE_VERSION_PADDED", "${jfxReleaseMajorVersion}.${jfxReleaseMinorVersion}.${jfxReleaseSecurityVersion}.${jfxReleasePatchVersion}")
def buildDate = new java.util.Date()
def buildTimestamp = new java.text.SimpleDateFormat("yyyy-MM-dd-HHmmss").format(buildDate)
defineProperty("BUILD_TIMESTAMP", buildTimestamp)
def relSuffix = ""
def relOpt = ""
if (HUDSON_JOB_NAME == "not_hudson") {
relSuffix = "-internal"
relOpt = "-${buildTimestamp}"
} else {
relSuffix = IS_MILESTONE_FCS ? "" : jfxReleaseSuffix
}
defineProperty("RELEASE_SUFFIX", relSuffix)
defineProperty("RELEASE_VERSION_SHORT", "${RELEASE_VERSION}${RELEASE_SUFFIX}")
defineProperty("RELEASE_VERSION_LONG", "${RELEASE_VERSION_SHORT}+${PROMOTED_BUILD_NUMBER}${relOpt}")
// Check whether the COMPILE_TARGETS property has been specified (if so, it was done by
// the user and not by this script). If it has not been defined then default
// to building the normal desktop build for this machine
project.ext.set("defaultHostTarget", IS_MAC ? "mac" : IS_WINDOWS ? "win" : IS_LINUX ? "linux" : "");
defineProperty("COMPILE_TARGETS", "$defaultHostTarget")
// Flag indicating whether to import cross compile tools
def importCrossTools = BUILD_CLOSED ? true : false;
if (!importCrossTools && hasProperty("IMPORT_CROSS_TOOLS")) {
importCrossTools = Boolean.parseBoolean(IMPORT_CROSS_TOOLS);
}
ext.IS_IMPORT_CROSS_TOOLS = importCrossTools
// Location of the cross compile tools
def crossToolsDir = "../crosslibs"
if (hasProperty("CROSS_TOOLS_DIR")) {
crossToolsDir = CROSS_TOOLS_DIR
}
ext.CROSS_TOOLS_DIR = file(crossToolsDir)
// Specifies whether to run tests with the existing javafx.* modules instead of compiling a new one
defineProperty("BUILD_SDK_FOR_TEST", "true")
ext.DO_BUILD_SDK_FOR_TEST = Boolean.parseBoolean(BUILD_SDK_FOR_TEST)
// All "classes" and "jar" tasks and their dependencies would be disabled
// when running with DO_BUILD_SDK_FOR_TEST=false as they're unneeded for running tests
if (!DO_BUILD_SDK_FOR_TEST) {
gradle.taskGraph.useFilter({ task -> !task.name.equals("classes") && !task.name.equals("jar") })
}
/**
* Fetch/Check that external tools are present for the build. This method
* will conditionally download the packages from project defined ivy repositories
* and unpack them into the specified destdir
*
* @param configName A unique name to distinguish the configuration (ie "ARMSFV6")
* @param packages A list of required packages (with extensions .tgz, .zip)
* @param destdir where the packages should be unpacked
* @param doFetch if true, the named packages will be download
*/
void fetchExternalTools(String configName, List packages, File destdir, boolean doFetch) {
if (doFetch) {
// create a unique configuration for this fetch
def String fetchToolsConfig = "fetchTools$configName"
rootProject.configurations.create(fetchToolsConfig)
def List<String> fetchedPackages = []
def int fetchCount = 0
packages.each { pkgname->
def int dotdex = pkgname.lastIndexOf('.')
def int dashdex = pkgname.lastIndexOf('-')
def String basename = pkgname.substring(0,dashdex)
def String ver = pkgname.substring(dashdex+1,dotdex)
def String ext = pkgname.substring(dotdex+1)
def File pkgdir = file("$destdir/$basename-$ver")
if (!pkgdir.isDirectory()) {
rootProject.dependencies.add(fetchToolsConfig, "javafx:$basename:$ver", {
artifact {
name = basename
type = ext
}
})
println "adding $pkgname as a downloadable item did not find $pkgdir"
fetchedPackages.add(pkgname)
fetchCount++
}
}
//fetch all the missing packages
if (fetchedPackages.size > 0) {
destdir.mkdirs()
logger.quiet "fetching missing packages $fetchedPackages"
copy {
from rootProject.configurations[fetchToolsConfig]
into destdir
}
// unpack the fetched packages
fetchedPackages.each { pkgname->
logger.quiet "expanding the package $pkgname"
def srcball = file("${destdir}/${pkgname}")
if (!srcball.exists()) {
throw new GradleException("Failed to fetch $pkgname");
}
def String basename = pkgname.substring(0,pkgname.lastIndexOf("."))
def File pkgdir = file("$destdir/$basename")
if (pkgname.endsWith(".tgz")) {
if (IS_LINUX || IS_MAC) {
// use native tar to support symlinks
pkgdir.mkdirs()
exec {
workingDir pkgdir
commandLine "tar", "zxf", "${srcball}"
}
} else {
copy {
from tarTree(resources.gzip("${srcball}"))
into pkgdir
}
}
} else if (pkgname.endsWith(".zip")) {
copy {
from zipTree("${srcball}")
into pkgdir
}
} else {
throw new GradleException("Unhandled package type for compile package ${pkgname}")
}
srcball.deleteOnExit();
}
} else {
logger.quiet "all tool packages are present $packages"
}
} else { // !doFetch - so just check they are present
// check that all the dirs are really there
def List<String> errors = []
packages.each { pkgname->
def String basename = pkgname.substring(0,pkgname.lastIndexOf("."))
def File pkgdir = file("$destdir/$basename")
if (!pkgdir.isDirectory()) {
errors.add(pkgname)
}
}
if (errors.size > 0) {
throw new GradleException("Error: missing tool packages: $errors")
} else {
logger.quiet "all tool packages are present $packages"
}
}
}
// Make a forked ANT call.
// This needs to be forked so that ant can be used with the right JDK and updated modules
// for testing obscure things like packaging of apps
void ant(String conf, // platform configuration
String dir, // directory to run from
String target, // ant target
List<String> params // parameters (usually -Dxxx=yyy)
) {
// Try to use ANT_HOME
String antHomeEnv = System.getenv("ANT_HOME")
String antHome = antHomeEnv != null ? cygpath(antHomeEnv) : null;
String ant = (antHome != null && !antHome.equals("")) ? "$antHome/bin/ant" : "ant";
exec {
workingDir = dir
environment("JDK_HOME", JDK_HOME)
environment("JAVA_HOME", JDK_HOME)
if (IS_WINDOWS) {
environment([
"VCINSTALLDIR" : WINDOWS_VS_VCINSTALLDIR,
"VSINSTALLDIR" : WINDOWS_VS_VSINSTALLDIR,
"DEVENVDIR" : WINDOWS_VS_DEVENVDIR,
"MSVCDIR" : WINDOWS_VS_MSVCDIR,
"INCLUDE" : WINDOWS_VS_INCLUDE,
"LIB" : WINDOWS_VS_LIB,
"LIBPATH" : WINDOWS_VS_LIBPATH,
"DXSDK_DIR" : WINDOWS_DXSDK_DIR
]);
commandLine "cmd", "/c", ant, "-Dbuild.compiler=javac1.7"
} else {
commandLine ant, "-Dbuild.compiler=javac1.7"
}
if ((conf != null) && !rootProject.defaultHostTarget.equals(conf)) {
def targetProperties = rootProject.ext[conf.trim().toUpperCase()]
args("-Dcross.platform=$conf")
if (targetProperties.containsKey('arch')) {
args("-Dcross.platform.arch=${targetProperties.arch}")
}
}
if (params != null) {
params.each() { s->
args(s)
}
}
if (IS_MILESTONE_FCS) {
args('-Djfx.release.suffix=""')
}
args(target);
}
}
List<String> computeLibraryPath(boolean working) {
List<String> lp = []
List<String> modsWithNative = [ 'graphics', 'media', 'web' ]
// the build/modular-sdk area
def platformPrefix = ""
def modularSdkDirName = "${platformPrefix}modular-sdk"
def modularSdkDir = "${rootProject.buildDir}/${modularSdkDirName}"
def modulesLibsDir = "${modularSdkDir}/modules_libs"
modsWithNative.each() { m ->
lp << cygpath("${modulesLibsDir}/javafx.${m}")
}
return lp
}
// Return list with the arguments needed for --patch-module for the provided projects
// used with Java executables ie. tests
List<String> computePatchModuleArgs(List<String> deps, boolean test, boolean includeJLP) {
List<String> pma = []
deps.each {String projname ->
def proj = project(projname)
if (proj.hasProperty("moduleName")) {
File dir;
if (test && proj.sourceSets.hasProperty('shims')) {
dir = file("${rootProject.buildDir}/shims")
} else {
dir = file("${rootProject.buildDir}/modular-sdk/modules")
}
String moduleName = proj.ext.moduleName
String dirpath = cygpath("${dir}/${moduleName}")
pma += "--patch-module=${moduleName}=${dirpath}"
}
}
if (includeJLP) {
pma += "-Djava.library.path=" + computeLibraryPath(true).join(File.pathSeparator)
}
return pma
}
// Return a list containing the --upgrade-module-path
// used with Javac
List<String> computeModulePathArgs(String pname, List<String> deps, boolean test) {
List<String> mpa = [ '--upgrade-module-path' ]
String mp = null
deps.each {String projname ->
def proj = project(projname)
// for a non test set of args, we don't want the current module in the list
// for a test test, we do need it to update what we built
if (proj.hasProperty("moduleName") &&
proj.buildModule &&
!(!test && proj.name.equals(pname))) {
File dir;
if (test && proj.sourceSets.hasProperty('shims')) {
dir = new File(proj.sourceSets.shims.output.classesDir, proj.ext.moduleName);
} else {
dir = new File(proj.sourceSets.main.output.classesDir, proj.ext.moduleName);
}
if (mp == null) {
mp = dir.path
} else {
mp = mp + File.pathSeparator + dir.path
}
}
}
// in some cases like base we could end up with an empty
// path... make sure we don't pass one back
if (mp == null) {
return null
}
mpa += mp
return mpa
}
void writeRunArgsFile(File dest, List<String> libpath, List<String> modpath) {
dest.delete()
logger.info("Creating file ${dest.path}")
if (libpath != null) {
dest << "-Djava.library.path=\"\\\n"
libpath.each() { e->
dest << " "
dest << e
dest << File.pathSeparator
dest << "\\\n"
}
dest << " \"\n"
}
modpath.each { e ->
dest << "--patch-module=\""
dest << e
dest << "\"\n"
}
}
// perform common project manipulation for modules
void commonModuleSetup(Project p, List<String> moduleChain) {
// Allow the build to use either gradle 3.x or gradle 4.x
p.sourceSets.main.output.classesDir = new File(p.buildDir, "classes/main")
p.ext.moduleChain = moduleChain
if (p.hasProperty("moduleName")) {
p.ext.moduleDir = new File (p.sourceSets.main.output.classesDir, "${p.moduleName}")
if (p.sourceSets.hasProperty('shims')) {
p.ext.moduleShimsDir = new File (p.sourceSets.shims.output.classesDir, "${p.moduleName}")
}
}
def mpa = computeModulePathArgs(p.name, moduleChain, false)
if (mpa != null) {
p.ext.modulePathArgs = mpa
}
p.ext.testModulePathArgs = computePatchModuleArgs(moduleChain, true, false)
p.ext.patchModuleArgs = computePatchModuleArgs(moduleChain ,false, true)
p.ext.testPatchModuleArgs = computePatchModuleArgs(moduleChain, true, true)
moduleChain.each() {e ->
if (!e.equals(p.name)) {
p.compileJava.dependsOn(project(e).classes)
p.compileTestJava.dependsOn(project(e).testClasses)
}
}
// read in any addExports file
File addExportsFile = new File(p.projectDir,"src/test/addExports")
if (addExportsFile.exists()) {
List<String> ae = []
addExportsFile.eachLine { line ->
line = line.trim()
if (!(line.startsWith("#") || line.equals(""))) {
ae += line.split(' ')
}
}
p.ext.testAddExports = ae.flatten()
}
// read in the temporary addExports file EXTRAADDEXPORTS)
//
// These extra --add-exports will be used in two places and so we
// create/modify two items:
// p.testAddExports - add the extra items so they are included in test builds
//
// p.extraAddExports - for use in any other place where we don't automatically update
// for example any non modular, non 'test' compile, any compile that does not
// use a module-source-path that includes the dependent modules
//
// Note that we don't modify the modular build (main, shims) because they use
// module-info directly, and we don't want to cover up any missing items there.
//
if (!rootProject.hasProperty("EXTRA_ADDEXPORTS_ARGS")) {
List<String> extraAddExportsList = []
String fullae = ""
File tmpaddExportsFile = new File(rootProject.projectDir, EXTRAADDEXPORTS)
if (tmpaddExportsFile.exists()) {
String nl = System.getProperty("line.separator")
tmpaddExportsFile.eachLine { line ->
line = line.trim()
fullae += line + nl
if (!(line.startsWith("#") || line.equals(""))) {
extraAddExportsList += line.split(' ')
}
}
}
// This string is used in the creation of the build/*.args files
// so we preserve comments
if (!extraAddExportsList.isEmpty()) {
rootProject.ext.EXTRA_ADDEXPORTS_STRING = fullae
}
rootProject.ext.EXTRA_ADDEXPORTS_ARGS = extraAddExportsList
}
// use this variable, because it shows we have a non empty addition
if (rootProject.hasProperty("EXTRA_ADDEXPORTS_STRING")) {
p.ext.extraAddExports = EXTRA_ADDEXPORTS_ARGS.flatten()
if (p.hasProperty("testAddExports")) {
p.testAddExports += EXTRA_ADDEXPORTS_ARGS.flatten()
}
}
}
// Now we need to define the native compilation tasks. The set of parameters to
// native compilation depends on the target platform (and also to some extent what platform
// you are compiling on). These settings are contained in various gradle files
// such as mac.gradle and linux.gradle and armhf.gradle. Additionally, the developer
// can specify COMPILE_FLAGS_FILE to be a URL or path to a different gradle file
// that will contain the appropriate flags.
defineProperty("COMPILE_FLAGS_FILES", COMPILE_TARGETS.split(",").collect {"buildSrc/${it.trim()}.gradle"}.join(","))
if (COMPILE_TARGETS == "all") {
def tmp = []
File buildSrcDir = file("buildSrc")
buildSrcDir.listFiles().each { File f ->
if (f.isFile() && f.name.endsWith(".gradle") && !f.name.equals("build.gradle")) {
def target = f.name.substring(0, f.name.lastIndexOf('.gradle')).toUpperCase(Locale.ROOT)
apply from: f
if (project.ext["${target}"].canBuild) {
tmp.add(target)
}
}
}
COMPILE_FLAGS_FILES = tmp.collect { "buildSrc/${it}.gradle"}.join(",")
COMPILE_TARGETS = tmp.collect { "${it.toLowerCase()}"}.join(",")
} else {
COMPILE_FLAGS_FILES.split(",").each {
logger.info("Applying COMPILE_FLAGS_FILE '$it'")
apply from: it
}
}
if (COMPILE_TARGETS != "") {
def tmp = []
COMPILE_TARGETS.split(",").each {target ->
if (project.ext["${target.toUpperCase(Locale.ROOT)}"].canBuild) {
tmp.add(target)
}
}
COMPILE_TARGETS = tmp.collect { "${it.toLowerCase()}"}.join(",")
}
// Sanity check the expected properties all exist
compileTargets { t ->
// Every platform must define these variables
if (!project.hasProperty(t.upper)) throw new Exception("ERROR: Incorrectly configured compile flags file, missing ${t.name} property")
def props = project.ext[t.upper];
// TODO: we could remove libDest in favor of modLibDest
["compileSwing", "compileSWT", "compileFXPackager", "libDest"].each { prop ->
if (!props.containsKey(prop)) throw new Exception("ERROR: Incorrectly configured compile flags file, missing ${prop} property on ${t.name}")
}
}
// Various build flags may be set by the different target files, such as
// whether to build Swing, SWT, FXPackager, etc. We iterate over all
// compile targets and look for these settings in our properties. Note that
// these properties cannot be set from the command line, but are set by
// the target build files such as armv6hf.gradle or mac.gradle.
ext.COMPILE_SWING = false;
ext.COMPILE_SWT = false;
ext.COMPILE_FXPACKAGER = false;
compileTargets { t ->
def targetProperties = project.rootProject.ext[t.upper]
if (targetProperties.compileSwing) COMPILE_SWING = true
if (targetProperties.compileSWT) COMPILE_SWT = true
if (IS_BUILD_FXPACKAGER && targetProperties.compileFXPackager) COMPILE_FXPACKAGER = true
if (!targetProperties.containsKey('compileWebnodeNative')) {
// unless specified otherwise, we will compile native Webnode if IS_COMPILE_WEBKIT
targetProperties.compileWebnodeNative = true
}
if (!targetProperties.containsKey('compileMediaNative')) {
// unless specified otherwise, we will compile native Media if IS_COMPILE_MEDIA
targetProperties.compileMediaNative = true
}
if (!targetProperties.containsKey('includeSWT')) targetProperties.includeSWT = true
if (!targetProperties.containsKey('includeSwing')) targetProperties.includeSwing = true
if (!targetProperties.containsKey('includeNull3d')) targetProperties.includeNull3d = true
if (!targetProperties.containsKey('includeMonocle')) targetProperties.includeMonocle = false
if (!targetProperties.containsKey('includeEGL')) targetProperties.includeEGL = false
if (!targetProperties.containsKey('includeGTK')) targetProperties.includeGTK = IS_LINUX