description = 'Conscrypt: OpenJdk'
ext {
jniSourceDir = "$rootDir/common/src/jni"
assert file("$jniSourceDir").exists()
// Build the list of classifiers that will be used in the build.
arch32Name = 'x86'
arch64Name = 'x86_64'
nativeClassifiers = []
nativeClassifier64Bit = null
nativeClassifier32Bit = null
nativeConfiguration64Bit = null
nativeConfiguration32Bit = null
preferredNativeConfiguration = null
preferredClassifier = null
preferredSourceSet = null
preferredNativeFileDir = null
if (build64Bit) {
// Add the 64-Bit classifier first, as the preferred classifier.
nativeClassifier64Bit = classifierFor(osName, arch64Name)
nativeClassifiers += nativeClassifier64Bit
preferredClassifier = nativeClassifier64Bit
preferredSourceSet = sourceSetName(preferredClassifier)
preferredNativeFileDir = nativeResourcesDir(preferredClassifier)
nativeConfiguration64Bit = compileConfigurationName(nativeClassifier64Bit)
preferredNativeConfiguration = nativeConfiguration64Bit
}
if (build32Bit) {
nativeClassifier32Bit = classifierFor(osName, arch32Name)
nativeClassifiers += nativeClassifier32Bit
if (preferredClassifier == null) {
preferredClassifier = nativeClassifier32Bit
preferredSourceSet = sourceSetName(preferredClassifier)
preferredNativeFileDir = nativeResourcesDir(preferredClassifier)
}
nativeConfiguration32Bit = compileConfigurationName(nativeClassifier32Bit)
if (preferredNativeConfiguration == null) {
preferredNativeConfiguration = nativeConfiguration32Bit
}
}
}
sourceSets {
main {
java {
srcDirs += "${rootDir}/common/src/main/java"
srcDirs += project(':conscrypt-constants').sourceSets.main.java.srcDirs
}
}
platform {
java {
srcDirs = [ "src/main/java" ]
includes = [ "org/conscrypt/Platform.java" ]
}
}
test {
resources {
// This shouldn't be needed but seems to help IntelliJ locate the native artifact.
srcDirs += preferredNativeFileDir
}
}
// Add the source sets for each of the native build
nativeClassifiers.each { nativeClassifier ->
def sourceSetName = sourceSetName(nativeClassifier)
def testSourceSetName = testSourceSetName(nativeClassifier)
// Main sources for the native build
"$sourceSetName" {
resources {
srcDirs = [nativeResourcesDir(nativeClassifier)]
}
}
// Test sources for the native build
"${testSourceSetName}" {
java {
// Include the test source.
srcDirs = test.java.srcDirs
}
resources {
srcDirs = ["src/test/resources"]
srcDirs += sourceSets["$sourceSetName"].resources.srcDirs
}
}
}
}
task platformJar(type: Jar) {
from sourceSets.platform.output
}
if (isExecutableOnPath('cpplint')) {
task cpplint(type: Exec) {
executable = 'cpplint'
// TODO(nmittler): Is there a better way of getting the JNI sources?
def pattern = ['**/*.cc', '**/*.h']
def sourceFiles = fileTree(dir: jniSourceDir, includes: pattern).asPath.tokenize(':')
// Adding roots so that class #ifdefs don't require full path from the project root.
args = sourceFiles
// Capture stderr from the process
errorOutput = new ByteArrayOutputStream();
// Need to ignore exit value so that doLast will execute.
ignoreExitValue = true
doLast {
// Create the report file.
def reportDir = file("${buildDir}/cpplint")
reportDir.mkdirs();
def reportFile = new File(reportDir, "report.txt")
def reportStream = new FileOutputStream(reportFile)
try {
// Check for failure
if (execResult != null) {
execResult.assertNormalExitValue()
}
} catch (Exception e) {
// The process failed - get the error report from the stderr.
String report = errorOutput.toString();
// Write the report to the console.
System.err.println(report)
// Also write the report file.
reportStream.write(report.bytes);
// Extension method cpplint.output() can be used to obtain the report
ext.output = {
return report
}
// Rethrow the exception to terminate the build.
throw e;
} finally {
reportStream.close();
}
}
}
check.dependsOn cpplint
}
configurations {
publicApiDocs
platform
}
artifacts {
platform platformJar
}
// Append the BoringSSL-Version to the manifest.
jar.manifest {
attributes 'BoringSSL-Version' : boringSslVersion
}
dependencies {
// This is used for the @hide annotation processing in JavaDoc
publicApiDocs project(':conscrypt-api-doclet')
compileOnly project(':conscrypt-constants'),
configurations.publicApiDocs
testCompile project(':conscrypt-constants'),
project(':conscrypt-testing'),
libraries.junit,
libraries.mockito
// Need to add the native artifact to classpath when running the tests.
testRuntime configurations["${preferredNativeConfiguration}"]
// Configure the dependencies for the native tests.
nativeClassifiers.each { nativeClassifier ->
def testCompileConfigName = testSourceSet(nativeClassifier).compileConfigurationName
"${testCompileConfigName}" (
sourceSets.main.output, // Explicitly add the main classes
project(':conscrypt-constants'),
project(':conscrypt-testing'),
libraries.junit,
libraries.mockito
)
}
platformCompileOnly sourceSets.main.output
}
nativeClassifiers.each { nativeClassifier ->
// Create the JAR task and add it's output to the published archives for this project
addNativeJar(nativeClassifier)
// Create the test task and have it auto run whenever the test task runs.
addNativeTest(nativeClassifier)
// Build the classes as part of the standard build.
classes.dependsOn sourceSet(nativeClassifier).classesTaskName
testClasses.dependsOn testSourceSet(nativeClassifier).classesTaskName
}
// Adds a JAR task for the native library.
def addNativeJar(nativeClassifier) {
// Create a JAR for this configuration and add it to the output archives.
SourceSet sourceSet = sourceSet(nativeClassifier)
def jarTaskName = sourceSet.jarTaskName
task "$jarTaskName"(type: Jar) {
// Depend on the regular classes task
dependsOn classes
manifest = jar.manifest
classifier = nativeClassifier
from sourceSet.output + sourceSets.main.output
}
def jarTask = tasks["$jarTaskName"]
// Add the jar task to the standard build.
jar.dependsOn jarTask
// Add it to the 'archives' configuration so that the artifact will be automatically built and
// installed/deployed.
artifacts.add('archives', jarTask)
}
// Optionally adds a test task for the given platform
def addNativeTest(nativeClassifier) {
SourceSet testSourceSet = testSourceSet(nativeClassifier)
// Just use the same name as the source set for the task.
def testTaskName = "${testSourceSet.name}"
def javaExecutable
def javaArchFlag
if (testSourceSet.name.endsWith("${arch32Name}Test")) {
// 32-bit test
javaExecutable = javaExecutable32 != null ? javaExecutable32 : test.executable
javaArchFlag = '-d32'
} else {
// 64-bit test
javaExecutable = javaExecutable64 != null ? javaExecutable64 : test.executable
javaArchFlag = '-d64'
}
// Execute the java executable to see if it supports the architecture flag.
def javaError = new ByteArrayOutputStream()
exec {
System.out.println("Running tests with java executable: " + javaExecutable + ".")
executable javaExecutable
args = ["$javaArchFlag", '-version']
ignoreExitValue true
errorOutput = javaError
}
// Only add the test if the javaArchFlag is supported for the selected JVM
def archSupported = !javaError.toString().toLowerCase().contains('error')
if (archSupported) {
task "$testTaskName"(type: Test) {
dependsOn testSourceSet.classesTaskName
jvmArgs javaArchFlag
executable = javaExecutable
testClassesDir = testSourceSet.output.classesDir
// TODO(nmittler): Is there a way to copy all properties of the test task?
// Copy the logging configuration from the test task.
org.codehaus.groovy.runtime.InvokerHelper.setProperties(testLogging,
test.testLogging.properties)
// Copy heap settings.
minHeapSize = test.minHeapSize
maxHeapSize = test.maxHeapSize
// Copy system properties
systemProperties = test.systemProperties
// Set the classpath just before we run the test so that the runtime classpath
// is fully resolved.
doFirst {
classpath = testSourceSet.runtimeClasspath
}
}
test.dependsOn "$testTaskName"
}
}
// Exclude all test classes from the default test suite.
// We will test each available native artifact separately (see nativeClassifiers).
test.exclude("**")
javadoc {
options.doclet = "org.conscrypt.doclet.FilterDoclet"
options.docletpath = configurations.publicApiDocs.files as List
}
model {
platforms {
x86 {
architecture arch32Name
}
x86_64 {
architecture arch64Name
}
}
buildTypes {
release
}
components {
// Builds the JNI library.
conscrypt_openjdk_jni(NativeLibrarySpec) {
if (build32Bit) { targetPlatform arch32Name }
if (build64Bit) { targetPlatform arch64Name }
sources {
cpp {
source {
srcDirs "$jniSourceDir/main/cpp"
include "**/*.cc"
}
}
}
binaries {
// Build the JNI lib as a shared library.
withType (SharedLibraryBinarySpec) {
cppCompiler.define "CONSCRYPT_OPENJDK"
// Set up 32-bit vs 64-bit build
def building64Bit = false
def libPath
if (targetPlatform.getArchitecture().getName() == "x86") {
libPath = "$boringssl32BuildDir"
} else if (targetPlatform.getArchitecture().getName() == "x86-64") {
libPath = "$boringssl64BuildDir"
building64Bit = true
} else {
throw new GradleException("Unknown architecture: " +
targetPlatform.getArchitecture().name)
}
if (toolChain in Clang || toolChain in Gcc) {
cppCompiler.args "-Wall",
"-fPIC",
"-O3",
"-std=c++11",
"-I$jniSourceDir/main/include",
"-I$jniSourceDir/unbundled/include",
"-I$boringsslIncludeDir",
"-I$jdkIncludeDir",
"-I$jdkIncludeDir/linux",
"-I$jdkIncludeDir/darwin",
"-I$jdkIncludeDir/win32"
if (rootProject.hasProperty('checkErrorQueue')) {
System.out.println("Compiling with error queue checking enabled")
cppCompiler.define "CONSCRYPT_CHECK_ERROR_QUEUE"
}
// Static link to BoringSSL
linker.args "-O3",
"-fvisibility=hidden",
"-lstdc++",
libPath + "/ssl/libssl.a",
libPath + "/crypto/libcrypto.a"
} else if (toolChain in VisualCpp) {
cppCompiler.define "DLL_EXPORT"
cppCompiler.define "WIN32_LEAN_AND_MEAN"
cppCompiler.define "NOMINMAX"
if (building64Bit) {
cppCompiler.define "WIN64"
}
cppCompiler.define "_WINDOWS"
cppCompiler.define "UNICODE"
cppCompiler.define "_UNICODE"
cppCompiler.define "NDEBUG"
cppCompiler.args "/nologo",
"/MT",
"/WX-",
"/Wall",
"/O2",
"/Oi",
"/Ot",
"/GL",
"/GS",
"/Gy",
"/fp:precise",
"-wd4514", // Unreferenced inline function removed
"-wd4548", // Expression before comma has no effect
"-wd4625", // Copy constructor was implicitly defined as deleted
"-wd4626", // Assignment operator was implicitly defined as deleted
"-wd4710", // function not inlined
"-wd4711", // function inlined
"-wd4820", // Extra padding added to struct
"-wd4946", // reinterpret_cast used between related classes:
"-wd4996", // Thread safety for strerror
"-wd5027", // Move assignment operator was implicitly defined as deleted
"-I$jniSourceDir/main/include",
"-I$jniSourceDir/unbundled/include",
"-I$boringsslIncludeDir",
"-I$jdkIncludeDir",
"-I$jdkIncludeDir/win32"
// Static link to BoringSSL
linker.args "-WX",
"ws2_32.lib",
"advapi32.lib",
"${libPath}\\ssl\\ssl.lib",
"${libPath}\\crypto\\crypto.lib"
}
}
// Never build a static library.
withType(StaticLibraryBinarySpec) {
buildable = false
}
}
}
}
tasks { t ->
$.binaries.withType(SharedLibraryBinarySpec).each { binary ->
// Build the native artifact classifier from the OS and architecture.
def archName = binary.targetPlatform.architecture.name.replaceAll('-', '_')
def classifier = classifierFor(osName, archName)
def sourceSetName = sourceSetName("$classifier")
def source = binary.sharedLibraryFile
// Copies the native library to a resource location that will be included in the jar.
def copyTaskName = "copyNativeLib${sourceSetName}"
task "$copyTaskName"(type: Copy, dependsOn: binary.buildTask) {
from source
// Rename the artifact to include the generated classifier
rename '(.+)(\\.[^\\.]+)', "\$1-$classifier\$2"
// Everything under will be included in the native jar.
into nativeResourcesDir(classifier) + '/META-INF/native'
}
// Make sure we build and copy the native library to the output directory.
compileJava.dependsOn "$copyTaskName"
// Now define a task to strip the release binary (linux only)
if (osName == 'linux' && (!rootProject.hasProperty('nostrip') ||
!rootProject.nostrip.toBoolean())) {
def stripTask = binary.tasks.taskName("strip")
task "$stripTask"(type: Exec) {
dependsOn binary.tasks.link
commandLine "strip", "${binary.tasks.link.outputFile}"
}
binary.tasks.build.dependsOn stripTask
}
}
}
}
boolean isExecutableOnPath(executable) {
FilenameFilter filter = new FilenameFilter() {
@Override
boolean accept(File dir, String name) {
return executable.equals(name);
}
}
for(String folder : System.getenv('PATH').split("" + File.pathSeparatorChar)) {
File[] files = file(folder).listFiles(filter)
if (files != null && files.size() > 0) {
return true;
}
}
return false;
}
String nativeResourcesDir(nativeClassifier) {
def sourceSetName = sourceSetName(nativeClassifier)
"${buildDir}/${sourceSetName}/resources"
}
SourceSet sourceSet(classifier) {
sourceSets[sourceSetName(classifier)]
}
SourceSet testSourceSet(classifier) {
sourceSets[testSourceSetName(classifier)]
}
static String classifierFor(osName, archName) {
"${osName}-${archName}"
}
static String sourceSetName(classifier) {
classifier.replaceAll("-", "_")
}
static String testSourceSetName(classifier) {
"${sourceSetName(classifier)}Test"
}
static String compileConfigurationName(classifier) {
sourceSetName(classifier) + "Compile"
}