/* Title: Pure/Build/build_job.scala
Author: Makarius
Build job running prover process, with rudimentary PIDE session.
*/
package isabelle
import scala.collection.mutable
trait Build_Job {
def cancel(): Unit = ()
def is_finished: Boolean = false
def join: Build_Job.Result = Build_Job.no_result
}
object Build_Job {
sealed case class Result(process_result: Process_Result, output_shasum: SHA1.Shasum)
val no_result: Result = Result(Process_Result.undefined, SHA1.no_shasum)
/* build session */
def start_session(
build_context: Build.Context,
session_context: Session_Context,
progress: Progress,
log: Logger,
server: SSH.Server,
session_background: Sessions.Background,
sources_shasum: SHA1.Shasum,
input_shasum: SHA1.Shasum,
node_info: Host.Node_Info,
store_heap: Boolean
): Session_Job = {
new Session_Job(build_context, session_context, progress, log, server,
session_background, sources_shasum, input_shasum, node_info, store_heap)
}
object Session_Context {
def load(
database_server: Option[SQL.Database],
build_uuid: String,
name: String,
deps: List[String],
ancestors: List[String],
session_prefs: String,
sources_shasum: SHA1.Shasum,
timeout: Time,
store: Store,
progress: Progress = new Progress
): Session_Context = {
def default: Session_Context =
Session_Context(
name, deps, ancestors, session_prefs, sources_shasum, timeout,
Time.zero, Bytes.empty, build_uuid)
def read(db: SQL.Database): Session_Context = {
def ignore_error(msg: String) = {
progress.echo_warning(
"Ignoring bad database " + db + " for session " + quote(name) +
if_proper(msg, ":\n" + msg))
default
}
try {
val command_timings = store.read_command_timings(db, name)
val elapsed =
store.read_session_timing(db, name) match {
case Markup.Elapsed(s) => Time.seconds(s)
case _ => Time.zero
}
new Session_Context(
name, deps, ancestors, session_prefs, sources_shasum, timeout,
elapsed, command_timings, build_uuid)
}
catch {
case ERROR(msg) => ignore_error(msg)
case exn: java.lang.Error => ignore_error(Exn.message(exn))
case _: XML.Error => ignore_error("XML.Error")
}
}
database_server match {
case Some(db) => if (store.session_info_exists(db)) read(db) else default
case None => using_option(store.try_open_database(name))(read) getOrElse default
}
}
}
sealed case class Session_Context(
name: String,
deps: List[String],
ancestors: List[String],
session_prefs: String,
sources_shasum: SHA1.Shasum,
timeout: Time,
old_time: Time,
old_command_timings_blob: Bytes,
build_uuid: String
) extends Name.T
class Session_Job private[Build_Job](
build_context: Build.Context,
session_context: Session_Context,
progress: Progress,
log: Logger,
server: SSH.Server,
session_background: Sessions.Background,
sources_shasum: SHA1.Shasum,
input_shasum: SHA1.Shasum,
node_info: Host.Node_Info,
store_heap: Boolean
) extends Build_Job {
def session_name: String = session_background.session_name
private val future_result: Future[Result] =
Future.thread("build", uninterruptible = true) {
val info = session_background.sessions_structure(session_name)
val options = Host.node_options(info.options, node_info)
val store = build_context.store
using_optional(store.maybe_open_database_server(server = server)) { database_server =>
store.clean_output(database_server, session_name, session_init = true)
val session_sources =
Store.Sources.load(session_background.base, cache = store.cache.compress)
val env =
Isabelle_System.settings(
List("ISABELLE_ML_DEBUGGER" -> options.bool("ML_debugger").toString))
val session_heaps =
session_background.info.parent match {
case None => Nil
case Some(logic) => ML_Process.session_heaps(store, session_background, logic = logic)
}
val use_prelude = if (session_heaps.isEmpty) Thy_Header.ml_roots.map(_._1) else Nil
val eval_store =
if (store_heap) {
(if (info.theories.nonEmpty) List("ML_Heap.share_common_data ()") else Nil) :::
List("ML_Heap.save_child " +
ML_Syntax.print_string_bytes(File.platform_path(store.output_heap(session_name))))
}
else Nil
def session_blobs(node_name: Document.Node.Name): List[(Command.Blob, Document.Blobs.Item)] =
session_background.base.theory_load_commands.get(node_name.theory) match {
case None => Nil
case Some(spans) =>
val syntax = session_background.base.theory_syntax(node_name)
val master_dir = Path.explode(node_name.master_dir)
for (span <- spans; file <- span.loaded_files(syntax).files)
yield {
val src_path = Path.explode(file)
val blob_name = Document.Node.Name(File.symbolic_path(master_dir + src_path))
val bytes = session_sources(blob_name.node).bytes
val text = bytes.text
val chunk = Symbol.Text_Chunk(text)
Command.Blob(blob_name, src_path, Some((SHA1.digest(bytes), chunk))) ->
Document.Blobs.Item(bytes, text, chunk, changed = false)
}
}
/* session */
val resources =
new Resources(session_background, log = log,
command_timings =
Properties.uncompress(session_context.old_command_timings_blob, cache = store.cache))
val session =
new Session(options, resources) {
override val cache: Term.Cache = store.cache
override def build_blobs_info(node_name: Document.Node.Name): Command.Blobs_Info =
Command.Blobs_Info.make(session_blobs(node_name))
override def build_blobs(node_name: Document.Node.Name): Document.Blobs =
Document.Blobs.make(session_blobs(node_name))
}
object Build_Session_Errors {
private val promise: Promise[List[String]] = Future.promise
def result: Exn.Result[List[String]] = promise.join_result
def cancel(): Unit = promise.cancel()
def apply(errs: List[String]): Unit = {
try { promise.fulfill(errs) }
catch { case _: IllegalStateException => }
}
}
val export_consumer =
Export.consumer(store.open_database(session_name, output = true, server = server),
store.cache, progress = progress)
val stdout = new StringBuilder(1000)
val stderr = new StringBuilder(1000)
val command_timings = new mutable.ListBuffer[Properties.T]
val theory_timings = new mutable.ListBuffer[Properties.T]
val session_timings = new mutable.ListBuffer[Properties.T]
val runtime_statistics = new mutable.ListBuffer[Properties.T]
val task_statistics = new mutable.ListBuffer[Properties.T]
def fun(
name: String,
acc: mutable.ListBuffer[Properties.T],
unapply: Properties.T => Option[Properties.T]
): (String, Session.Protocol_Function) = {
name -> ((msg: Prover.Protocol_Output) =>
unapply(msg.properties) match {
case Some(props) => acc += props; true
case _ => false
})
}
session.init_protocol_handler(new Session.Protocol_Handler {
override def exit(): Unit = Build_Session_Errors.cancel()
private def build_session_finished(msg: Prover.Protocol_Output): Boolean = {
val (rc, errors) =
try {
val (rc, errs) = {
import XML.Decode._
pair(int, list(self))(Symbol.decode_yxml(msg.text))
}
val errors =
for (err <- errs) yield {
Pretty.string_of(err, metric = Symbol.Metric, pure = true)
}
(rc, errors)
}
catch { case ERROR(err) => (Process_Result.RC.failure, List(err)) }
session.protocol_command("Prover.stop", XML.Encode.int(rc))
Build_Session_Errors(errors)
true
}
private def loading_theory(msg: Prover.Protocol_Output): Boolean =
msg.properties match {
case Markup.Loading_Theory(Markup.Name(name)) =>
progress.theory(Progress.Theory(name, session = session_name))
false
case _ => false
}
private def export_(msg: Prover.Protocol_Output): Boolean =
msg.properties match {
case Protocol.Export(args) =>
export_consumer.make_entry(session_name, args, msg.chunk)
true
case _ => false
}
override val functions: Session.Protocol_Functions =
List(
Markup.Build_Session_Finished.name -> build_session_finished,
Markup.Loading_Theory.name -> loading_theory,
Markup.EXPORT -> export_,
fun(Markup.Theory_Timing.name, theory_timings, Markup.Theory_Timing.unapply),
fun(Markup.Session_Timing.name, session_timings, Markup.Session_Timing.unapply),
fun(Markup.Task_Statistics.name, task_statistics, Markup.Task_Statistics.unapply))
})
session.command_timings += Session.Consumer("command_timings") {
case Session.Command_Timing(props) =>
for {
elapsed <- Markup.Elapsed.unapply(props)
elapsed_time = Time.seconds(elapsed)
if elapsed_time.is_relevant &&
elapsed_time >= options.seconds("command_timing_threshold")
} command_timings += props.filter(Markup.command_timing_property)
}
session.runtime_statistics += Session.Consumer("ML_statistics") {
case Session.Runtime_Statistics(props) => runtime_statistics += props
}
session.finished_theories += Session.Consumer[Document.Snapshot]("finished_theories") {
case snapshot =>
if (!progress.stopped) {
def export_(name: String, xml: XML.Body, compress: Boolean = true): Unit = {
if (!progress.stopped) {
val theory_name = snapshot.node_name.theory
val args =
Protocol.Export.Args(
theory_name = theory_name, name = name, compress = compress)
val body = YXML.bytes_of_body(xml, recode = Symbol.encode)
export_consumer.make_entry(session_name, args, body)
}
}
def export_text(name: String, text: String, compress: Boolean = true): Unit =
export_(name, List(XML.Text(text)), compress = compress)
for (command <- snapshot.snippet_command) {
export_text(Export.DOCUMENT_ID, command.id.toString, compress = false)
}
export_text(Export.FILES,
cat_lines(snapshot.node_files.map(name => File.symbolic_path(name.path))),
compress = false)
for ((blob_name, i) <- snapshot.node_files.tail.zipWithIndex) {
val xml = snapshot.switch(blob_name).xml_markup()
export_(Export.MARKUP + (i + 1), xml)
}
export_(Export.MARKUP, snapshot.xml_markup())
export_(Export.MESSAGES, snapshot.messages.map(_._1))
}
}
session.all_messages += Session.Consumer[Any]("build_session_output") {
case msg: Prover.Output =>
val message = msg.message
if (msg.is_system) resources.log(Protocol.message_text(message))
if (msg.is_stdout) {
stdout ++= Symbol.encode(XML.content(message))
}
else if (msg.is_stderr) {
stderr ++= Symbol.encode(XML.content(message))
}
else if (msg.is_exit) {
val err =
"Prover terminated" +
(msg.properties match {
case Markup.Process_Result(result) => ": " + result.print_rc
case _ => ""
})
Build_Session_Errors(List(err))
}
case _ =>
}
build_context.session_setup(session_name, session)
val eval_main = Command_Line.ML_tool("Isabelle_Process.init_build ()" :: eval_store)
/* process */
val process =
Isabelle_Process.start(options, session, session_background, session_heaps,
use_prelude = use_prelude, eval_main = eval_main, cwd = info.dir, env = env)
val timeout_request: Option[Event_Timer.Request] =
if (info.timeout_ignored) None
else Some(Event_Timer.request(Time.now() + info.timeout) { process.terminate() })
val build_errors =
Isabelle_Thread.interrupt_handler(_ => process.terminate()) {
Exn.capture { process.await_startup() } match {
case Exn.Res(_) =>
val resources_xml = resources.init_session_xml
val encode_options: XML.Encode.T[Options] =
options => session.prover_options(options).encode
val args_xml =
{
import XML.Encode._
pair(string, list(pair(encode_options, list(pair(string, properties)))))(
(session_name, info.theories))
}
session.protocol_command("build_session", resources_xml, args_xml)
Build_Session_Errors.result
case Exn.Exn(exn) => Exn.Res(List(Exn.message(exn)))
}
}
val result0 =
Isabelle_Thread.interrupt_handler(_ => process.terminate()) { process.await_shutdown() }
val was_timeout =
timeout_request match {
case None => false
case Some(request) => !request.cancel()
}
session.stop()
val export_errors =
export_consumer.shutdown(close = true).map(Output.error_message_text)
val (document_output, document_errors) =
try {
if (Exn.is_res(build_errors) && result0.ok && info.documents.nonEmpty) {
using(Export.open_database_context(store, server = server)) { database_context =>
val documents =
using(database_context.open_session(session_background)) {
session_context =>
Document_Build.build_documents(
Document_Build.context(session_context, progress = progress),
output_sources = info.document_output,
output_pdf = info.document_output)
}
using(database_context.open_database(session_name, output = true))(
session_database =>
documents.foreach(_.write(session_database.db, session_name)))
(documents.flatMap(_.log_lines), Nil)
}
}
else (Nil, Nil)
}
catch {
case exn: Document_Build.Build_Error => (exn.log_lines, exn.log_errors)
case Exn.Interrupt.ERROR(msg) => (Nil, List(msg))
}
/* process result */
val result1 = {
val theory_timing =
theory_timings.iterator.flatMap(
{
case props @ Markup.Name(name) => Some(name -> props)
case _ => None
}).toMap
val used_theory_timings =
for { (name, _) <- session_background.base.used_theories }
yield theory_timing.getOrElse(name.theory, Markup.Name(name.theory))
val more_output =
Library.trim_line(stdout.toString) ::
command_timings.toList.map(Protocol.Command_Timing_Marker.apply) :::
used_theory_timings.map(Protocol.Theory_Timing_Marker.apply) :::
session_timings.toList.map(Protocol.Session_Timing_Marker.apply) :::
runtime_statistics.toList.map(Protocol.ML_Statistics_Marker.apply) :::
task_statistics.toList.map(Protocol.Task_Statistics_Marker.apply) :::
document_output
result0.output(more_output)
.error(Library.trim_line(stderr.toString))
.errors_rc(export_errors ::: document_errors)
}
val result2 =
build_errors match {
case Exn.Res(build_errs) =>
val errs = build_errs ::: document_errors
if (errs.nonEmpty) {
result1.error_rc.output(
errs.flatMap(s => split_lines(Output.error_message_text(s))) :::
errs.map(Protocol.Error_Message_Marker.apply))
}
else if (progress.stopped && result1.ok) {
result1.copy(rc = Process_Result.RC.interrupt)
}
else result1
case Exn.Exn(Exn.Interrupt()) =>
if (result1.ok) result1.copy(rc = Process_Result.RC.interrupt)
else result1
case Exn.Exn(exn) => throw exn
}
val process_result =
if (result2.ok) result2
else if (was_timeout) result2.error(Output.error_message_text("Timeout")).timeout_rc
else if (result2.interrupted) result2.error(Output.error_message_text("Interrupt"))
else result2
val store_session =
store.output_session(session_name, store_heap = process_result.ok && store_heap)
/* output heap */
val output_shasum =
store_session.heap match {
case Some(path) => SHA1.shasum(ML_Heap.write_file_digest(path), session_name)
case None => SHA1.no_shasum
}
val log_lines = process_result.out_lines.filterNot(Protocol_Message.Marker.test)
val build_log =
Build_Log.Log_File(session_name, process_result.out_lines, cache = store.cache).
parse_session_info(
command_timings = true,
theory_timings = true,
ml_statistics = true,
task_statistics = true)
// write log file
if (process_result.ok) {
File.write_gzip(store.output_log_gz(session_name), terminate_lines(log_lines))
}
else File.write(store.output_log(session_name), terminate_lines(log_lines))
// write database
def write_info(db: SQL.Database): Unit =
store.write_session_info(db, session_name, session_sources,
build_log =
if (process_result.timeout) build_log.error("Timeout") else build_log,
build =
Store.Build_Info(
sources = sources_shasum,
input_heaps = input_shasum,
output_heap = output_shasum,
process_result.rc,
build_context.build_uuid))
database_server match {
case Some(db) => write_info(db)
case None => using(store.open_database(session_name, output = true))(write_info)
}
store.in_heaps_database(
List(store_session), database_server, server = server, progress = progress)
// messages
process_result.err_lines.foreach(progress.echo(_))
if (process_result.ok) {
val props = build_log.session_timing
val threads = Markup.Session_Timing.Threads.unapply(props) getOrElse 1
val timing = Markup.Timing_Properties.get(props)
progress.echo(
"Timing " + session_name + " (" + threads + " threads, " + timing.message_factor + ")",
verbose = true)
progress.echo(
"Finished " + session_name + " (" + process_result.timing.message_resources + ")")
}
else {
progress.echo(
session_name + " FAILED (see also \"isabelle build_log -H Error " +
session_name + "\")")
if (!process_result.interrupted) {
val tail = info.options.int("process_output_tail")
val suffix =
if (tail == 0) log_lines else log_lines.drop(log_lines.length - tail max 0)
val prefix =
if (log_lines.length == suffix.length) Nil else List("...")
progress.echo(Library.trim_line(cat_lines(prefix ::: suffix)))
}
}
Result(process_result.copy(out_lines = log_lines), output_shasum)
}
}
override def cancel(): Unit = future_result.cancel()
override def is_finished: Boolean = future_result.is_finished
override def join: Result = future_result.join
}
}