/* Title: Pure/System/isabelle_system.scala
Author: Makarius
Miscellaneous Isabelle system operations.
*/
package isabelle
import java.util.{Map => JMap, HashMap}
import java.io.{File => JFile, IOException}
import java.nio.file.{Path => JPath, Files, SimpleFileVisitor, FileVisitResult,
StandardCopyOption, FileSystemException}
import java.nio.file.attribute.BasicFileAttributes
import scala.jdk.CollectionConverters._
object Isabelle_System
{
/* settings */
def settings(putenv: List[(String, String)] = Nil): JMap[String, String] =
{
val env0 = isabelle.setup.Environment.settings()
if (putenv.isEmpty) env0
else {
val env = new HashMap(env0)
for ((a, b) <- putenv) env.put(a, b)
env
}
}
def getenv(name: String, env: JMap[String, String] = settings()): String =
Option(env.get(name)).getOrElse("")
def getenv_strict(name: String, env: JMap[String, String] = settings()): String =
proper_string(getenv(name, env)) getOrElse
error("Undefined Isabelle environment variable: " + quote(name))
/* services */
abstract class Service
@volatile private var _services: Option[List[Class[Service]]] = None
def services(): List[Class[Service]] =
{
if (_services.isEmpty) init() // unsynchronized check
_services.get
}
def make_services[C](c: Class[C]): List[C] =
for { c1 <- services() if Library.is_subclass(c1, c) }
yield c1.getDeclaredConstructor().newInstance().asInstanceOf[C]
/* init settings + services */
def make_services(): List[Class[Service]] =
{
def make(where: String, names: List[String]): List[Class[Service]] =
{
for (name <- names) yield {
def err(msg: String): Nothing =
error("Bad Isabelle/Scala service " + quote(name) + " in " + where + "\n" + msg)
try { Class.forName(name).asInstanceOf[Class[Service]] }
catch {
case _: ClassNotFoundException => err("Class not found")
case exn: Throwable => err(Exn.message(exn))
}
}
}
def from_env(variable: String): List[Class[Service]] =
make(quote(variable), space_explode(':', getenv_strict(variable)))
def from_jar(platform_jar: String): List[Class[Service]] =
make(quote(platform_jar),
isabelle.setup.Build.get_services(JPath.of(platform_jar)).asScala.toList)
from_env("ISABELLE_SCALA_SERVICES") ::: Scala.class_path().flatMap(from_jar)
}
def init(isabelle_root: String = "", cygwin_root: String = ""): Unit =
{
isabelle.setup.Environment.init(isabelle_root, cygwin_root)
synchronized { if (_services.isEmpty) { _services = Some(make_services()) } }
}
/* getetc -- static distribution parameters */
def getetc(name: String, root: Path = Path.ISABELLE_HOME): Option[String] =
{
val path = root + Path.basic("etc") + Path.basic(name)
if (path.is_file) {
Library.trim_split_lines(File.read(path)) match {
case Nil => None
case List(s) => Some(s)
case _ => error("Single line expected in " + path.absolute)
}
}
else None
}
/* Isabelle distribution identification */
def isabelle_id(root: Path = Path.ISABELLE_HOME): String =
getetc("ISABELLE_ID", root = root) orElse Mercurial.archive_id(root) getOrElse {
if (Mercurial.is_repository(root)) Mercurial.repository(root).parent()
else error("Failed to identify Isabelle distribution " + root.expand)
}
object Isabelle_Id extends Scala.Fun_String("isabelle_id")
{
val here = Scala_Project.here
def apply(arg: String): String = isabelle_id()
}
def isabelle_tags(root: Path = Path.ISABELLE_HOME): String =
getetc("ISABELLE_TAGS", root = root) orElse Mercurial.archive_tags(root) getOrElse {
if (Mercurial.is_repository(root)) {
val hg = Mercurial.repository(root)
hg.tags(rev = hg.parent())
}
else ""
}
def isabelle_identifier(): Option[String] = proper_string(getenv("ISABELLE_IDENTIFIER"))
def isabelle_heading(): String =
isabelle_identifier() match {
case None => ""
case Some(version) => " (" + version + ")"
}
def isabelle_name(): String = getenv_strict("ISABELLE_NAME")
def identification(): String = "Isabelle/" + isabelle_id() + isabelle_heading()
/** file-system operations **/
/* scala functions */
private def apply_paths(args: List[String], fun: List[Path] => Unit): List[String] =
{ fun(args.map(Path.explode)); Nil }
private def apply_paths1(args: List[String], fun: Path => Unit): List[String] =
apply_paths(args, { case List(path) => fun(path) })
private def apply_paths2(args: List[String], fun: (Path, Path) => Unit): List[String] =
apply_paths(args, { case List(path1, path2) => fun(path1, path2) })
private def apply_paths3(args: List[String], fun: (Path, Path, Path) => Unit): List[String] =
apply_paths(args, { case List(path1, path2, path3) => fun(path1, path2, path3) })
/* permissions */
def chmod(arg: String, path: Path): Unit =
bash("chmod " + arg + " " + File.bash_path(path)).check
def chown(arg: String, path: Path): Unit =
bash("chown " + arg + " " + File.bash_path(path)).check
/* directories */
def make_directory(path: Path): Path =
{
if (!path.is_dir) {
try { Files.createDirectories(path.java_path) }
catch { case ERROR(_) => error("Failed to create directory: " + path.absolute) }
}
path
}
def new_directory(path: Path): Path =
if (path.is_dir) error("Directory already exists: " + path.absolute)
else make_directory(path)
def copy_dir(dir1: Path, dir2: Path): Unit =
{
val res = bash("cp -a " + File.bash_path(dir1) + " " + File.bash_path(dir2))
if (!res.ok) {
cat_error("Failed to copy directory " + dir1.absolute + " to " + dir2.absolute, res.err)
}
}
object Make_Directory extends Scala.Fun_Strings("make_directory")
{
val here = Scala_Project.here
def apply(args: List[String]): List[String] = apply_paths1(args, make_directory)
}
object Copy_Dir extends Scala.Fun_Strings("copy_dir")
{
val here = Scala_Project.here
def apply(args: List[String]): List[String] = apply_paths2(args, copy_dir)
}
/* copy files */
def copy_file(src: JFile, dst: JFile): Unit =
{
val target = if (dst.isDirectory) new JFile(dst, src.getName) else dst
if (!File.eq(src, target)) {
try {
Files.copy(src.toPath, target.toPath,
StandardCopyOption.COPY_ATTRIBUTES,
StandardCopyOption.REPLACE_EXISTING)
}
catch {
case ERROR(msg) =>
cat_error("Failed to copy file " +
File.path(src).absolute + " to " + File.path(dst).absolute, msg)
}
}
}
def copy_file(src: Path, dst: Path): Unit = copy_file(src.file, dst.file)
def copy_file_base(base_dir: Path, src: Path, target_dir: Path): Unit =
{
val src1 = src.expand
val src1_dir = src1.dir
if (!src1.starts_basic) error("Illegal path specification " + src1 + " beyond base directory")
copy_file(base_dir + src1, Isabelle_System.make_directory(target_dir + src1_dir))
}
object Copy_File extends Scala.Fun_Strings("copy_file")
{
val here = Scala_Project.here
def apply(args: List[String]): List[String] = apply_paths2(args, copy_file)
}
object Copy_File_Base extends Scala.Fun_Strings("copy_file_base")
{
val here = Scala_Project.here
def apply(args: List[String]): List[String] = apply_paths3(args, copy_file_base)
}
/* move files */
def move_file(src: JFile, dst: JFile): Unit =
{
val target = if (dst.isDirectory) new JFile(dst, src.getName) else dst
if (!File.eq(src, target))
Files.move(src.toPath, target.toPath, StandardCopyOption.REPLACE_EXISTING)
}
def move_file(src: Path, dst: Path): Unit = move_file(src.file, dst.file)
/* symbolic link */
def symlink(src: Path, dst: Path, force: Boolean = false, native: Boolean = false): Unit =
{
val src_file = src.file
val dst_file = dst.file
val target = if (dst_file.isDirectory) new JFile(dst_file, src_file.getName) else dst_file
if (force) target.delete
def cygwin_link(): Unit =
{
if (native) {
error("Failed to create native symlink on Windows: " + quote(src_file.toString) +
"\n(but it could work as Administrator)")
}
else isabelle.setup.Environment.cygwin_link(File.standard_path(src), target)
}
try { Files.createSymbolicLink(target.toPath, src_file.toPath) }
catch {
case _: UnsupportedOperationException if Platform.is_windows => cygwin_link()
case _: FileSystemException if Platform.is_windows => cygwin_link()
}
}
/* tmp files */
def isabelle_tmp_prefix(): JFile =
{
val path = Path.explode("$ISABELLE_TMP_PREFIX")
path.file.mkdirs // low-level mkdirs to avoid recursion via Isabelle environment
File.platform_file(path)
}
def tmp_file(name: String, ext: String = "", base_dir: JFile = isabelle_tmp_prefix()): JFile =
{
val suffix = if (ext == "") "" else "." + ext
val file = Files.createTempFile(base_dir.toPath, name, suffix).toFile
file.deleteOnExit
file
}
def with_tmp_file[A](name: String, ext: String = "")(body: Path => A): A =
{
val file = tmp_file(name, ext)
try { body(File.path(file)) } finally { file.delete }
}
/* tmp dirs */
def rm_tree(root: JFile): Unit =
{
root.delete
if (root.isDirectory) {
Files.walkFileTree(root.toPath,
new SimpleFileVisitor[JPath] {
override def visitFile(file: JPath, attrs: BasicFileAttributes): FileVisitResult =
{
try { Files.deleteIfExists(file) }
catch { case _: IOException => }
FileVisitResult.CONTINUE
}
override def postVisitDirectory(dir: JPath, e: IOException): FileVisitResult =
{
if (e == null) {
try { Files.deleteIfExists(dir) }
catch { case _: IOException => }
FileVisitResult.CONTINUE
}
else throw e
}
}
)
}
}
def rm_tree(root: Path): Unit = rm_tree(root.file)
object Rm_Tree extends Scala.Fun_Strings("rm_tree")
{
val here = Scala_Project.here
def apply(args: List[String]): List[String] = apply_paths1(args, rm_tree)
}
def tmp_dir(name: String, base_dir: JFile = isabelle_tmp_prefix()): JFile =
{
val dir = Files.createTempDirectory(base_dir.toPath, name).toFile
dir.deleteOnExit
dir
}
def with_tmp_dir[A](name: String)(body: Path => A): A =
{
val dir = tmp_dir(name)
try { body(File.path(dir)) } finally { rm_tree(dir) }
}
/* quasi-atomic update of directory */
def update_directory(dir: Path, f: Path => Unit): Unit =
{
val new_dir = dir.ext("new")
val old_dir = dir.ext("old")
rm_tree(new_dir)
rm_tree(old_dir)
f(new_dir)
if (dir.is_dir) move_file(dir, old_dir)
move_file(new_dir, dir)
rm_tree(old_dir)
}
/** external processes **/
/* GNU bash */
def bash(script: String,
description: String = "",
cwd: JFile = null,
env: JMap[String, String] = settings(),
redirect: Boolean = false,
input: String = "",
progress_stdout: String => Unit = (_: String) => (),
progress_stderr: String => Unit = (_: String) => (),
watchdog: Option[Bash.Watchdog] = None,
strict: Boolean = true,
cleanup: () => Unit = () => ()): Process_Result =
{
Bash.process(script,
description = description, cwd = cwd, env = env, redirect = redirect, cleanup = cleanup).
result(input = input, progress_stdout = progress_stdout, progress_stderr = progress_stderr,
watchdog = watchdog, strict = strict)
}
private lazy val gnutar_check: Boolean =
try { bash("tar --version").check.out.containsSlice("GNU tar") || error("") }
catch { case ERROR(_) => false }
def gnutar(
args: String,
dir: Path = Path.current,
original_owner: Boolean = false,
strip: Int = 0,
redirect: Boolean = false): Process_Result =
{
val options =
(if (dir.is_current) "" else "-C " + File.bash_path(dir) + " ") +
(if (original_owner) "" else "--owner=root --group=staff ") +
(if (strip <= 0) "" else "--strip-components=" + strip + " ")
if (gnutar_check) bash("tar " + options + args, redirect = redirect)
else error("Expected to find GNU tar executable")
}
def require_command(cmd: String, test: String = "--version"): Unit =
{
if (!bash(Bash.string(cmd) + " " + test).ok) error("Missing system command: " + quote(cmd))
}
def hostname(): String = bash("hostname -s").check.out
def open(arg: String): Unit =
bash("exec \"$ISABELLE_OPEN\" " + Bash.string(arg) + " >/dev/null 2>/dev/null &")
def pdf_viewer(arg: Path): Unit =
bash("exec \"$PDF_VIEWER\" " + File.bash_path(arg) + " >/dev/null 2>/dev/null &")
def open_external_file(name: String): Boolean =
{
val ext = Library.take_suffix((c: Char) => c != '.', name.toList)._2.mkString
val external =
ext.nonEmpty &&
Library.space_explode(':', getenv("ISABELLE_EXTERNAL_FILES")).contains(ext)
if (external) {
if (ext == "pdf" && Path.is_wellformed(name)) pdf_viewer(Path.explode(name))
else open(name)
}
external
}
def export_isabelle_identifier(isabelle_identifier: String): String =
if (isabelle_identifier == "") ""
else "export ISABELLE_IDENTIFIER=" + Bash.string(isabelle_identifier) + "\n"
/** Isabelle resources **/
/* repository clone with Admin */
def admin(): Boolean = Path.explode("~~/Admin").is_dir
/* default logic */
def default_logic(args: String*): String =
{
args.find(_ != "") match {
case Some(logic) => logic
case None => getenv_strict("ISABELLE_LOGIC")
}
}
/* download file */
def download(url_name: String, progress: Progress = new Progress): HTTP.Content =
{
val url = Url(url_name)
progress.echo("Getting " + quote(url_name))
try { HTTP.Client.get(url) }
catch { case ERROR(msg) => cat_error("Failed to download " + quote(url_name), msg) }
}
def download_file(url_name: String, file: Path, progress: Progress = new Progress): Unit =
Bytes.write(file, download(url_name, progress = progress).bytes)
object Download extends Scala.Fun("download", thread = true)
{
val here = Scala_Project.here
override def invoke(args: List[Bytes]): List[Bytes] =
args match { case List(url) => List(download(url.text).bytes) }
}
/* repositories */
val isabelle_repository: Mercurial.Server =
Mercurial.Server("https://isabelle.sketis.net/repos/isabelle")
val afp_repository: Mercurial.Server =
Mercurial.Server("https://isabelle.sketis.net/repos/afp-devel")
def official_releases(): List[String] =
Library.trim_split_lines(
isabelle_repository.read_file(Path.explode("Admin/Release/official")))
}