org.jetbrains.kotlin.library.SearchPathResolver.kt Maven / Gradle / Ivy
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the Kotlin compiler embeddable
package org.jetbrains.kotlin.library
import org.jetbrains.kotlin.konan.file.File
import org.jetbrains.kotlin.library.SearchPathResolver.LookupResult
import org.jetbrains.kotlin.library.SearchPathResolver.SearchRoot
import org.jetbrains.kotlin.library.impl.createKotlinLibraryComponents
import org.jetbrains.kotlin.library.impl.isPre_1_4_Library
import org.jetbrains.kotlin.util.Logger
import org.jetbrains.kotlin.util.WithLogger
import org.jetbrains.kotlin.util.removeSuffixIfPresent
import java.nio.file.InvalidPathException
import java.nio.file.Paths
@Deprecated("Use KOTLIN_NATIVE_STDLIB_NAME, KOTLIN_JS_STDLIB_NAME or KOTLIN_WASM_STDLIB_NAME instead", level = DeprecationLevel.HIDDEN)
const val KOTLIN_STDLIB_NAME: String = "stdlib"
const val KOTLIN_NATIVE_STDLIB_NAME: String = "stdlib"
const val KOTLIN_JS_STDLIB_NAME: String = "kotlin"
const val KOTLIN_WASM_STDLIB_NAME: String = "kotlin"
interface SearchPathResolver : WithLogger {
/**
* The search root for KLIBs.
*
* @property searchRootPath The search root path.
* @property allowLookupByRelativePath Whether the lookup by relative paths is allowed.
* true - yes, allow to look up by relative path and by library name.
* false - no, allow to look up strictly by library name.
* @property isDeprecated Whether this search root is going to be removed in the future
* (and a warning should be displayed when a library was resolved against this root).
*/
class SearchRoot(val searchRootPath: File, val allowLookupByRelativePath: Boolean = false, val isDeprecated: Boolean = false) {
fun lookUp(libraryPath: File): LookupResult {
if (libraryPath.isAbsolute) {
// Look up by the absolute path if it is indeed an absolute path.
return LookupResult.Found(lookUpByAbsolutePath(libraryPath) ?: return LookupResult.NotFound)
}
val isDefinitelyRelativePath = libraryPath.nameSegments.size > 1
if (isDefinitelyRelativePath && !allowLookupByRelativePath) {
// Lookup by the relative path is disallowed, but the path is definitely a relative path.
return LookupResult.NotFound
}
// First, try to resolve by the relative path.
val resolvedLibrary = lookUpByAbsolutePath(File(searchRootPath, libraryPath))
?: run {
if (!isDefinitelyRelativePath && libraryPath.extension.isEmpty()) {
// If the path actually looks like an unique name of the library, try to guess the name of the KLIB file.
// TODO: This logic is unreliable and needs to be replaced by the new KLIB resolver in the future.
lookUpByAbsolutePath(File(searchRootPath, "${libraryPath.path}.$KLIB_FILE_EXTENSION"))
} else null
}
?: return LookupResult.NotFound
return if (isDeprecated)
LookupResult.FoundWithWarning(
library = resolvedLibrary,
warningText = "KLIB resolver: Library '${libraryPath.path}' was found in a custom library repository '${searchRootPath.path}'. " +
"Note, that custom library repositories are deprecated and will be removed in one of the future Kotlin releases. " +
"Please, avoid using '-repo' ('-r') compiler option and specify full paths to libraries in compiler CLI arguments."
)
else
LookupResult.Found(resolvedLibrary)
}
companion object {
fun lookUpByAbsolutePath(absoluteLibraryPath: File): File? =
when {
absoluteLibraryPath.isFile -> {
// It's a really existing file.
when (absoluteLibraryPath.extension) {
KLIB_FILE_EXTENSION -> absoluteLibraryPath
"jar" -> {
// A special workaround for old JS stdlib, that was packed in a JAR file.
absoluteLibraryPath
}
else -> {
// A file with an unexpected extension.
null
}
}
}
absoluteLibraryPath.isDirectory -> {
// It's a really existing directory.
absoluteLibraryPath
}
else -> null
}
}
}
sealed interface LookupResult {
object NotFound : LookupResult
data class Found(val library: File) : LookupResult
data class FoundWithWarning(val library: File, val warningText: String) : LookupResult
}
/**
* The KLIB search roots:
* 1. user working dir
* 2. custom repositories (deprecated)
* 3. the current K/N distribution
*
* IMPORTANT: The order of search roots actually defines the order of the lookup.
*/
val searchRoots: List
fun resolutionSequence(givenPath: String): Sequence
fun resolve(unresolved: LenientUnresolvedLibrary, isDefaultLink: Boolean = false): L?
fun resolve(unresolved: RequiredUnresolvedLibrary, isDefaultLink: Boolean = false): L
fun resolve(givenPath: String): L
fun defaultLinks(noStdLib: Boolean, noDefaultLibs: Boolean, noEndorsedLibs: Boolean): List
fun libraryMatch(candidate: L, unresolved: UnresolvedLibrary): Boolean
fun isProvidedByDefault(unresolved: UnresolvedLibrary): Boolean = false
}
fun SearchPathResolver.resolve(unresolved: UnresolvedLibrary): L? = when (unresolved) {
is LenientUnresolvedLibrary -> resolve(unresolved)
is RequiredUnresolvedLibrary -> resolve(unresolved)
}
// This is a simple library resolver that only cares for file names.
abstract class KotlinLibrarySearchPathResolver(
repositories: List,
directLibs: List,
val distributionKlib: String?,
val localKotlinDir: String?,
val skipCurrentDir: Boolean,
override val logger: Logger
) : SearchPathResolver {
val localHead: File?
get() = localKotlinDir?.File()?.klib
val distHead: File?
get() = distributionKlib?.File()?.child("common")
open val distPlatformHead: File? = null
val currentDirHead: File?
get() = if (!skipCurrentDir) File.userDir else null
private val repoRoots: List by lazy { repositories.map { File(it) } }
abstract fun libraryComponentBuilder(file: File, isDefault: Boolean): List
private val directLibraries: List by lazy {
directLibs.mapNotNull { SearchRoot.lookUpByAbsolutePath(File(it)) }.flatMap { libraryComponentBuilder(it, false) }
}
override val searchRoots: List by lazy {
val searchRoots = mutableListOf()
// Current working dir:
searchRoots += currentDirHead?.let { SearchRoot(searchRootPath = it, allowLookupByRelativePath = true) }
// Custom repositories (deprecated, to be removed):
// TODO: remove after 2.0, KT-61098
repositories.mapTo(searchRoots) { SearchRoot(searchRootPath = File(it), allowLookupByRelativePath = true, isDeprecated = true) }
// Something likely never unused (deprecated, to be removed):
// TODO: remove after 2.0, KT-61098
searchRoots += localHead?.let { SearchRoot(searchRootPath = it, allowLookupByRelativePath = true, isDeprecated = true) }
// Current Kotlin/Native distribution:
searchRoots += distHead?.let { SearchRoot(searchRootPath = it) }
searchRoots += distPlatformHead?.let { SearchRoot(searchRootPath = it) }
searchRoots.filterNotNull()
}
/**
* Returns a [File] instance if the [path] is valid on the current file system and null otherwise.
* Doesn't check whether the file denoted by [path] really exists.
*/
private fun validFileOrNull(path: String): File? =
try {
File(Paths.get(path))
} catch (_: InvalidPathException) {
null
}
/**
* Returns a sequence of libraries passed to the compiler directly for which unique_name == [givenName].
*/
private fun directLibsSequence(givenName: String): Sequence {
// Search among user-provided libraries by unique name.
// It's a workaround for maven publication. When a library is published without Gradle metadata,
// it has a complex file name (e.g. foo-macos_x64-1.0.klib). But a dependency on this lib in manifests
// of other libs uses its unique name written in the manifest (i.e just 'foo'). So we cannot resolve this
// library by its filename. But we have this library's file (we've downloaded it using maven dependency
// resolution) so we can pass it to the compiler directly. This code takes this into account and looks for
// a library dependencies also in libs passed to the compiler as files (passed to the resolver as the
// 'directLibraries' property).
return directLibraries.asSequence().filter {
it.uniqueName == givenName
}.map {
it.libraryFile
}
}
override fun resolutionSequence(givenPath: String): Sequence {
val given: File? = validFileOrNull(givenPath)
val sequence: Sequence = when {
given == null -> {
// The given path can't denote a real file, so just look for such
// unique_name among libraries passed to the compiler directly.
directLibsSequence(givenPath)
}
given.isAbsolute ->
sequenceOf(SearchRoot.lookUpByAbsolutePath(given))
else -> {
// Search among libraries in repositories by library filename.
val repoLibs = searchRoots.asSequence().map { searchRoot ->
when (val lookupResult = searchRoot.lookUp(given)) {
is LookupResult.Found -> lookupResult.library
is LookupResult.FoundWithWarning -> {
logger.warning(lookupResult.warningText)
lookupResult.library
}
LookupResult.NotFound -> null
}
}
// The given path still may denote a unique name of a direct library.
directLibsSequence(givenPath) + repoLibs
}
}
return sequence.filterNotNull()
}
private fun Sequence.filterOutPre_1_4_libraries(): Sequence = this.filter {
if (it.isPre_1_4_Library) {
logger.warning("KLIB resolver: Skipping '$it'. This is a pre 1.4 library.")
false
} else {
true
}
}
// Default libraries could be resolved several times during findLibraries and resolveDependencies.
// Store already resolved libraries.
private inner class ResolvedLibrary(val library: L?)
private val resolvedLibraries = HashMap()
private fun resolveOrNull(unresolved: UnresolvedLibrary, isDefaultLink: Boolean): L? {
return resolvedLibraries.getOrPut(unresolved) {
val givenPath = unresolved.path
try {
resolutionSequence(givenPath)
.filterOutPre_1_4_libraries()
.flatMap { libraryComponentBuilder(it, isDefaultLink).asSequence() }
.map { it.takeIf { libraryMatch(it, unresolved) } }
.filterNotNull()
.firstOrNull()
.let(::ResolvedLibrary)
} catch (e: Throwable) {
logger.error("KLIB resolver: Failed to resolve Kotlin library: $givenPath")
throw e
}
}.library
}
override fun resolve(unresolved: LenientUnresolvedLibrary, isDefaultLink: Boolean): L? {
return resolveOrNull(unresolved, isDefaultLink)
}
override fun resolve(unresolved: RequiredUnresolvedLibrary, isDefaultLink: Boolean): L {
return resolveOrNull(unresolved, isDefaultLink)
?: run {
// It does not make sense to replace logger.fatal() by logger.error() here, because:
// 1. We don't know which exactly side effect (throwing an exception, exiting JVM process, etc) is performed
// by logger.fatal() as we don't know the concrete Logger class. So, we can't use logger.error()
// and emulate the proper side effect here.
// 2. The contract of resolve(RequiredUnresolvedLibrary, Boolean) has a design flaw: It assumes that either
// the library is resolved or the side effect takes place. The latter (side effect) affects the execution
// flow of the program and should not be a responsibility of SearchPathResolver.
// 3. Finally, we are going to drop SearchPathResolver which is a part of KLIB resolver.
@Suppress("DEPRECATION")
logger.fatal("KLIB resolver: Could not find \"${unresolved.path}\" in ${searchRoots.map { it.searchRootPath.absolutePath }}")
}
}
override fun libraryMatch(candidate: L, unresolved: UnresolvedLibrary): Boolean = true
override fun resolve(givenPath: String) = resolve(UnresolvedLibrary(givenPath, null), false)
private val File.klib
get() = File(this, "klib")
// The libraries from the default root are linked automatically.
val defaultRoots: List
get() = listOfNotNull(distHead, distPlatformHead).filter { it.exists }
private fun getDefaultLibrariesFromDir(directory: File, prefix: String = "org.jetbrains.kotlin") =
if (directory.exists) {
directory.listFiles
.asSequence()
.filter { it.name.startsWith(prefix) }
.filterNot { it.name.startsWith('.') }
.filterNot { it.name.removeSuffixIfPresent(KLIB_FILE_EXTENSION_WITH_DOT) == KOTLIN_NATIVE_STDLIB_NAME }
.map { UnresolvedLibrary(it.absolutePath, null) }
.map { resolve(it, isDefaultLink = true) }
} else emptySequence()
override fun defaultLinks(noStdLib: Boolean, noDefaultLibs: Boolean, noEndorsedLibs: Boolean): List {
val result = mutableListOf()
if (!noStdLib) {
result.add(resolve(UnresolvedLibrary(KOTLIN_NATIVE_STDLIB_NAME, null), true))
}
// Endorsed libraries in distHead.
if (!noEndorsedLibs) {
distHead?.let {
result.addAll(getDefaultLibrariesFromDir(it))
}
}
// Platform libraries resolve.
if (!noDefaultLibs) {
distPlatformHead?.let {
result.addAll(getDefaultLibrariesFromDir(it))
}
}
return result
}
}
// This is a library resolver aware of attributes shared between platforms,
// such as abi version.
// JS and Native resolvers are inherited from this one.
abstract class KotlinLibraryProperResolverWithAttributes(
repositories: List,
directLibs: List,
distributionKlib: String?,
localKotlinDir: String?,
skipCurrentDir: Boolean,
override val logger: Logger,
private val knownIrProviders: List
) : KotlinLibrarySearchPathResolver(repositories, directLibs, distributionKlib, localKotlinDir, skipCurrentDir, logger),
SearchPathResolver {
override fun libraryMatch(candidate: L, unresolved: UnresolvedLibrary): Boolean {
val candidatePath = candidate.libraryFile.absolutePath
val candidateCompilerVersion = candidate.versions.compilerVersion
val candidateAbiVersion = candidate.versions.abiVersion
val candidateLibraryVersion = candidate.versions.libraryVersion
// Rejecting a library at this stage has disadvantages - the diagnostics are not-understandable.
// Please, don't add checks for other versions here. For example, check for the metadata version should be
// implemented in KlibDeserializedContainerSource.incompatibility
if (candidateAbiVersion?.isCompatible() != true) {
logger.warning("KLIB resolver: Skipping '$candidatePath'. Incompatible ABI version. The current default is '${KotlinAbiVersion.CURRENT}', found '${candidateAbiVersion}'. The library was produced by '$candidateCompilerVersion' compiler.")
return false
}
if (candidateLibraryVersion != unresolved.libraryVersion &&
candidateLibraryVersion != null &&
unresolved.libraryVersion != null
) {
logger.warning("KLIB resolver: Skipping '$candidatePath'. Library versions don't match. Expected '${unresolved.libraryVersion}', found '${candidateLibraryVersion}'.")
return false
}
candidate.irProviderName?.let {
if (it !in knownIrProviders) {
logger.warning("KLIB resolver: Skipping '$candidatePath'. The library requires unknown IR provider: $it")
return false
}
}
return true
}
}
class SingleKlibComponentResolver(
klibFile: String,
logger: Logger,
knownIrProviders: List
) : KotlinLibraryProperResolverWithAttributes(
emptyList(), listOf(klibFile),
null, null, false, logger, knownIrProviders
) {
override fun libraryComponentBuilder(file: File, isDefault: Boolean) = createKotlinLibraryComponents(file, isDefault)
}
/**
* Resolves KLIB libraries by:
* - expanding the given library path to the real path that may or may not contain ".klib" extension
* - searching among user-supplied libraries by "unique_name" that matches the given library name
* - filtering out pre-1.4 libraries (with the old style layout)
* - filtering out library components that have different ABI version than the ABI version of the current compiler
* - filtering out libraries with non-default ir_provider.
*
* If no match found, fails with [Logger#fatal].
*
* Typical usage scenario: compiler.
*/
object CompilerSingleFileKlibResolveStrategy : SingleFileKlibResolveStrategy {
override fun resolve(libraryFile: File, logger: Logger) =
SingleKlibComponentResolver(
libraryFile.absolutePath, logger, emptyList()
).resolve(libraryFile.absolutePath)
}
/**
* Similar to [CompilerSingleFileKlibResolveStrategy], but doesn't filter out
* libraries with [knownIrProviders].
*/
// TODO: It looks like a hack because it is.
// The reason this strategy exists is that we shouldn't skip Native metadata-based interop libraries
// when generating compiler caches.
class CompilerSingleFileKlibResolveAllowingIrProvidersStrategy(
private val knownIrProviders: List
) : SingleFileKlibResolveStrategy {
override fun resolve(libraryFile: File, logger: Logger) =
SingleKlibComponentResolver(
libraryFile.absolutePath, logger, knownIrProviders
).resolve(libraryFile.absolutePath)
}