/* Title: Pure/Admin/build_log.scala
Author: Makarius
Management of build log files and database storage.
*/
package isabelle
import java.io.{File => JFile}
import java.time.format.{DateTimeFormatter, DateTimeParseException}
import java.util.Locale
import scala.collection.immutable.SortedMap
import scala.collection.mutable
import scala.util.matching.Regex
object Build_Log
{
/** content **/
/* properties */
object Prop
{
val build_tags = SQL.Column.string("build_tags") // lines
val build_args = SQL.Column.string("build_args") // lines
val build_group_id = SQL.Column.string("build_group_id")
val build_id = SQL.Column.string("build_id")
val build_engine = SQL.Column.string("build_engine")
val build_host = SQL.Column.string("build_host")
val build_start = SQL.Column.date("build_start")
val build_end = SQL.Column.date("build_end")
val isabelle_version = SQL.Column.string("isabelle_version")
val afp_version = SQL.Column.string("afp_version")
val all_props: List[SQL.Column] =
List(build_tags, build_args, build_group_id, build_id, build_engine,
build_host, build_start, build_end, isabelle_version, afp_version)
}
/* settings */
object Settings
{
val ISABELLE_BUILD_OPTIONS = SQL.Column.string("ISABELLE_BUILD_OPTIONS")
val ML_PLATFORM = SQL.Column.string("ML_PLATFORM")
val ML_HOME = SQL.Column.string("ML_HOME")
val ML_SYSTEM = SQL.Column.string("ML_SYSTEM")
val ML_OPTIONS = SQL.Column.string("ML_OPTIONS")
val ml_settings = List(ML_PLATFORM, ML_HOME, ML_SYSTEM, ML_OPTIONS)
val all_settings = ISABELLE_BUILD_OPTIONS :: ml_settings
type Entry = (String, String)
type T = List[Entry]
object Entry
{
def unapply(s: String): Option[Entry] =
s.indexOf('=') match {
case -1 => None
case i =>
val a = s.substring(0, i)
val b = Library.perhaps_unquote(s.substring(i + 1))
Some((a, b))
}
def apply(a: String, b: String): String = a + "=" + quote(b)
def getenv(a: String): String = apply(a, Isabelle_System.getenv(a))
}
def show(): String =
cat_lines(
List(Entry.getenv("ISABELLE_TOOL_JAVA_OPTIONS"),
Entry.getenv(ISABELLE_BUILD_OPTIONS.name), "") :::
ml_settings.map(c => Entry.getenv(c.name)))
}
/* file names */
def log_date(date: Date): String =
String.format(Locale.ROOT, "%s.%05d",
DateTimeFormatter.ofPattern("yyyy-MM-dd").format(date.rep),
java.lang.Long.valueOf((date.time - date.midnight.time).ms / 1000))
def log_subdir(date: Date): Path =
Path.explode("log") + Path.explode(date.rep.getYear.toString)
def log_filename(engine: String, date: Date, more: List[String] = Nil): Path =
Path.explode((engine :: log_date(date) :: more).mkString("", "_", ".log"))
/** log file **/
def print_date(date: Date): String = Log_File.Date_Format(date)
object Log_File
{
/* log file */
def plain_name(name: String): String =
{
List(".log", ".log.gz", ".log.xz", ".gz", ".xz").find(name.endsWith) match {
case Some(s) => Library.try_unsuffix(s, name).get
case None => name
}
}
def apply(name: String, lines: List[String]): Log_File =
new Log_File(plain_name(name), lines.map(Library.trim_line))
def apply(name: String, text: String): Log_File =
new Log_File(plain_name(name), Library.trim_split_lines(text))
def apply(file: JFile): Log_File =
{
val name = file.getName
val text =
if (name.endsWith(".gz")) File.read_gzip(file)
else if (name.endsWith(".xz")) File.read_xz(file)
else File.read(file)
apply(name, text)
}
def apply(path: Path): Log_File = apply(path.file)
/* log file collections */
def is_log(file: JFile,
prefixes: List[String] =
List(Build_History.log_prefix, Identify.log_prefix, Identify.log_prefix2,
Isatest.log_prefix, AFP_Test.log_prefix, Jenkins.log_prefix),
suffixes: List[String] = List(".log", ".log.gz", ".log.xz")): Boolean =
{
val name = file.getName
prefixes.exists(name.startsWith) &&
suffixes.exists(name.endsWith) &&
name != "isatest.log" &&
name != "afp-test.log" &&
name != "main.log"
}
/* date format */
val Date_Format =
{
val fmts =
Date.Formatter.variants(
List("EEE MMM d HH:mm:ss O yyyy", "EEE MMM d HH:mm:ss VV yyyy"),
List(Locale.ENGLISH, Locale.GERMAN)) :::
List(
DateTimeFormatter.RFC_1123_DATE_TIME,
Date.Formatter.pattern("EEE MMM d HH:mm:ss yyyy").withZone(Date.timezone_berlin))
def tune_timezone(s: String): String =
s match {
case "CET" | "MET" => "GMT+1"
case "CEST" | "MEST" => "GMT+2"
case "EST" => "Europe/Berlin"
case _ => s
}
def tune_weekday(s: String): String =
s match {
case "Die" => "Di"
case "Mit" => "Mi"
case "Don" => "Do"
case "Fre" => "Fr"
case "Sam" => "Sa"
case "Son" => "So"
case _ => s
}
def tune(s: String): String =
Word.implode(
Word.explode(s) match {
case a :: "M\uFFFDr" :: bs => tune_weekday(a) :: "Mär" :: bs.map(tune_timezone)
case a :: bs => tune_weekday(a) :: bs.map(tune_timezone)
case Nil => Nil
}
)
Date.Format.make(fmts, tune)
}
}
class Log_File private(val name: String, val lines: List[String])
{
log_file =>
override def toString: String = name
def text: String = cat_lines(lines)
def err(msg: String): Nothing =
error("Error in log file " + quote(name) + ": " + msg)
/* date format */
object Strict_Date
{
def unapply(s: String): Some[Date] =
try { Some(Log_File.Date_Format.parse(s)) }
catch { case exn: DateTimeParseException => log_file.err(exn.getMessage) }
}
/* inlined text */
def filter(Marker: Protocol_Message.Marker): List[String] =
for (Marker(text) <- lines) yield text
def find(Marker: Protocol_Message.Marker): Option[String] =
lines.collectFirst({ case Marker(text) => text })
def find_match(regexes: List[Regex]): Option[String] =
regexes match {
case Nil => None
case regex :: rest =>
lines.iterator.map(regex.unapplySeq(_)).find(res => res.isDefined && res.get.length == 1).
map(res => res.get.head) orElse find_match(rest)
}
/* settings */
def get_setting(a: String): Option[Settings.Entry] =
lines.find(_.startsWith(a + "=")) match {
case Some(line) => Settings.Entry.unapply(line)
case None => None
}
def get_all_settings: Settings.T =
for { c <- Settings.all_settings; entry <- get_setting(c.name) }
yield entry
/* properties (YXML) */
val cache: XML.Cache = XML.Cache.make()
def parse_props(text: String): Properties.T =
try { cache.props(XML.Decode.properties(YXML.parse_body(text))) }
catch { case _: XML.Error => log_file.err("malformed properties") }
def filter_props(marker: Protocol_Message.Marker): List[Properties.T] =
for (text <- filter(marker) if YXML.detect(text)) yield parse_props(text)
def find_props(marker: Protocol_Message.Marker): Option[Properties.T] =
for (text <- find(marker) if YXML.detect(text)) yield parse_props(text)
/* parse various formats */
def parse_meta_info(): Meta_Info = Build_Log.parse_meta_info(log_file)
def parse_build_info(ml_statistics: Boolean = false): Build_Info =
Build_Log.parse_build_info(log_file, ml_statistics)
def parse_session_info(
command_timings: Boolean = false,
theory_timings: Boolean = false,
ml_statistics: Boolean = false,
task_statistics: Boolean = false): Session_Info =
Build_Log.parse_session_info(
log_file, command_timings, theory_timings, ml_statistics, task_statistics)
}
/** digested meta info: produced by Admin/build_history in log.xz file **/
object Meta_Info
{
val empty: Meta_Info = Meta_Info(Nil, Nil)
}
sealed case class Meta_Info(props: Properties.T, settings: Settings.T)
{
def is_empty: Boolean = props.isEmpty && settings.isEmpty
def get(c: SQL.Column): Option[String] =
Properties.get(props, c.name) orElse
Properties.get(settings, c.name)
def get_date(c: SQL.Column): Option[Date] =
get(c).map(Log_File.Date_Format.parse)
}
object Identify
{
val log_prefix = "isabelle_identify_"
val log_prefix2 = "plain_identify_"
def engine(log_file: Log_File): String =
if (log_file.name.startsWith(Jenkins.log_prefix)) "jenkins_identify"
else if (log_file.name.startsWith(log_prefix2)) "plain_identify"
else "identify"
def content(date: Date, isabelle_version: Option[String], afp_version: Option[String]): String =
terminate_lines(
List("isabelle_identify: " + Build_Log.print_date(date), "") :::
isabelle_version.map("Isabelle version: " + _).toList :::
afp_version.map("AFP version: " + _).toList)
val Start = new Regex("""^isabelle_identify: (.+)$""")
val No_End = new Regex("""$.""")
val Isabelle_Version = List(new Regex("""^Isabelle version: (\S+)$"""))
val AFP_Version = List(new Regex("""^AFP version: (\S+)$"""))
}
object Isatest
{
val log_prefix = "isatest-makeall-"
val engine = "isatest"
val Start = new Regex("""^------------------- starting test --- (.+) --- (.+)$""")
val End = new Regex("""^------------------- test (?:successful|FAILED) --- (.+) --- .*$""")
val Isabelle_Version = List(new Regex("""^Isabelle version: (\S+)$"""))
}
object AFP_Test
{
val log_prefix = "afp-test-devel-"
val engine = "afp-test"
val Start = new Regex("""^Start test(?: for .+)? at ([^,]+), (.*)$""")
val Start_Old = new Regex("""^Start test(?: for .+)? at ([^,]+)$""")
val End = new Regex("""^End test on (.+), .+, elapsed time:.*$""")
val Isabelle_Version = List(new Regex("""^Isabelle version: .* -- hg id (\S+)$"""))
val AFP_Version = List(new Regex("""^AFP version: .* -- hg id (\S+)$"""))
val Bad_Init = new Regex("""^cp:.*: Disc quota exceeded$""")
}
object Jenkins
{
val log_prefix = "jenkins_"
val engine = "jenkins"
val Host = new Regex("""^Building remotely on (\S+) \((\S+)\).*$""")
val Start = new Regex("""^(?:Started by an SCM change|Started from command line by admin|).*$""")
val Start_Date = new Regex("""^Build started at (.+)$""")
val No_End = new Regex("""$.""")
val Isabelle_Version =
List(new Regex("""^(?:Build for Isabelle id|Isabelle id) (\w+).*$"""),
new Regex("""^ISABELLE_CI_REPO_ID="(\w+)".*$"""),
new Regex("""^(\w{12}) tip.*$"""))
val AFP_Version =
List(new Regex("""^(?:Build for AFP id|AFP id) (\w+).*$"""),
new Regex("""^ISABELLE_CI_AFP_ID="(\w+)".*$"""))
val CONFIGURATION = "=== CONFIGURATION ==="
val BUILD = "=== BUILD ==="
}
private def parse_meta_info(log_file: Log_File): Meta_Info =
{
def parse(engine: String, host: String, start: Date,
End: Regex, Isabelle_Version: List[Regex], AFP_Version: List[Regex]): Meta_Info =
{
val build_id =
{
val prefix = proper_string(host) orElse proper_string(engine) getOrElse "build"
prefix + ":" + start.time.ms
}
val build_engine = if (engine == "") Nil else List(Prop.build_engine.name -> engine)
val build_host = if (host == "") Nil else List(Prop.build_host.name -> host)
val start_date = List(Prop.build_start.name -> print_date(start))
val end_date =
log_file.lines.last match {
case End(log_file.Strict_Date(end_date)) =>
List(Prop.build_end.name -> print_date(end_date))
case _ => Nil
}
val isabelle_version =
log_file.find_match(Isabelle_Version).map(Prop.isabelle_version.name -> _)
val afp_version =
log_file.find_match(AFP_Version).map(Prop.afp_version.name -> _)
Meta_Info((Prop.build_id.name -> build_id) :: build_engine ::: build_host :::
start_date ::: end_date ::: isabelle_version.toList ::: afp_version.toList,
log_file.get_all_settings)
}
log_file.lines match {
case line :: _ if Protocol.Meta_Info_Marker.test_yxml(line) =>
Meta_Info(log_file.find_props(Protocol.Meta_Info_Marker).get, log_file.get_all_settings)
case Identify.Start(log_file.Strict_Date(start)) :: _ =>
parse(Identify.engine(log_file), "", start, Identify.No_End,
Identify.Isabelle_Version, Identify.AFP_Version)
case Isatest.Start(log_file.Strict_Date(start), host) :: _ =>
parse(Isatest.engine, host, start, Isatest.End,
Isatest.Isabelle_Version, Nil)
case AFP_Test.Start(log_file.Strict_Date(start), host) :: _ =>
parse(AFP_Test.engine, host, start, AFP_Test.End,
AFP_Test.Isabelle_Version, AFP_Test.AFP_Version)
case AFP_Test.Start_Old(log_file.Strict_Date(start)) :: _ =>
parse(AFP_Test.engine, "", start, AFP_Test.End,
AFP_Test.Isabelle_Version, AFP_Test.AFP_Version)
case Jenkins.Start() :: _ =>
log_file.lines.dropWhile(_ != Jenkins.BUILD) match {
case Jenkins.BUILD :: _ :: Jenkins.Start_Date(log_file.Strict_Date(start)) :: _ =>
val host =
log_file.lines.takeWhile(_ != Jenkins.CONFIGURATION).collectFirst({
case Jenkins.Host(a, b) => a + "." + b
}).getOrElse("")
parse(Jenkins.engine, host, start.to(Date.timezone_berlin), Jenkins.No_End,
Jenkins.Isabelle_Version, Jenkins.AFP_Version)
case _ => Meta_Info.empty
}
case line :: _ if line.startsWith("\u0000") => Meta_Info.empty
case List(Isatest.End(_)) => Meta_Info.empty
case _ :: AFP_Test.Bad_Init() :: _ => Meta_Info.empty
case Nil => Meta_Info.empty
case _ => log_file.err("cannot detect log file format")
}
}
/** build info: toplevel output of isabelle build or Admin/build_history **/
val SESSION_NAME = "session_name"
object Session_Status extends Enumeration
{
val existing, finished, failed, cancelled = Value
}
sealed case class Session_Entry(
chapter: String = "",
groups: List[String] = Nil,
threads: Option[Int] = None,
timing: Timing = Timing.zero,
ml_timing: Timing = Timing.zero,
sources: Option[String] = None,
heap_size: Option[Long] = None,
status: Option[Session_Status.Value] = None,
errors: List[String] = Nil,
theory_timings: Map[String, Timing] = Map.empty,
ml_statistics: List[Properties.T] = Nil)
{
def proper_groups: Option[String] = if (groups.isEmpty) None else Some(cat_lines(groups))
def finished: Boolean = status == Some(Session_Status.finished)
def failed: Boolean = status == Some(Session_Status.failed)
}
object Build_Info
{
val sessions_dummy: Map[String, Session_Entry] =
Map("" -> Session_Entry(theory_timings = Map("" -> Timing.zero)))
}
sealed case class Build_Info(sessions: Map[String, Session_Entry])
{
def finished_sessions: List[String] = for ((a, b) <- sessions.toList if b.finished) yield a
def failed_sessions: List[String] = for ((a, b) <- sessions.toList if b.failed) yield a
}
private def parse_build_info(log_file: Log_File, parse_ml_statistics: Boolean): Build_Info =
{
object Chapter_Name
{
def unapply(s: String): Some[(String, String)] =
space_explode('/', s) match {
case List(chapter, name) => Some((chapter, name))
case _ => Some(("", s))
}
}
val Session_No_Groups = new Regex("""^Session (\S+)$""")
val Session_Groups = new Regex("""^Session (\S+) \((.*)\)$""")
val Session_Finished1 =
new Regex("""^Finished (\S+) \((\d+):(\d+):(\d+) elapsed time, (\d+):(\d+):(\d+) cpu time.*$""")
val Session_Finished2 =
new Regex("""^Finished ([^\s/]+) \((\d+):(\d+):(\d+) elapsed time.*$""")
val Session_Timing =
new Regex("""^Timing (\S+) \((\d+) threads, (\d+\.\d+)s elapsed time, (\d+\.\d+)s cpu time, (\d+\.\d+)s GC time.*$""")
val Session_Started = new Regex("""^(?:Running|Building) (\S+) \.\.\.$""")
val Sources = new Regex("""^Sources (\S+) (\S{""" + SHA1.digest_length + """})$""")
val Heap = new Regex("""^Heap (\S+) \((\d+) bytes\)$""")
object Theory_Timing
{
def unapply(line: String): Option[(String, (String, Timing))] =
Protocol.Theory_Timing_Marker.unapply(line.replace('~', '-')).map(log_file.parse_props)
match {
case Some((SESSION_NAME, session) :: props) =>
for (theory <- Markup.Name.unapply(props))
yield (session, theory -> Markup.Timing_Properties.parse(props))
case _ => None
}
}
var chapter = Map.empty[String, String]
var groups = Map.empty[String, List[String]]
var threads = Map.empty[String, Int]
var timing = Map.empty[String, Timing]
var ml_timing = Map.empty[String, Timing]
var started = Set.empty[String]
var sources = Map.empty[String, String]
var heap_sizes = Map.empty[String, Long]
var theory_timings = Map.empty[String, Map[String, Timing]]
var ml_statistics = Map.empty[String, List[Properties.T]]
var errors = Map.empty[String, List[String]]
def all_sessions: Set[String] =
chapter.keySet ++ groups.keySet ++ threads.keySet ++ timing.keySet ++ ml_timing.keySet ++
started ++ sources.keySet ++ heap_sizes.keySet ++
theory_timings.keySet ++ ml_statistics.keySet
for (line <- log_file.lines) {
line match {
case Session_No_Groups(Chapter_Name(chapt, name)) =>
chapter += (name -> chapt)
groups += (name -> Nil)
case Session_Groups(Chapter_Name(chapt, name), grps) =>
chapter += (name -> chapt)
groups += (name -> Word.explode(grps))
case Session_Started(name) =>
started += name
case Session_Finished1(name,
Value.Int(e1), Value.Int(e2), Value.Int(e3),
Value.Int(c1), Value.Int(c2), Value.Int(c3)) =>
val elapsed = Time.hms(e1, e2, e3)
val cpu = Time.hms(c1, c2, c3)
timing += (name -> Timing(elapsed, cpu, Time.zero))
case Session_Finished2(name,
Value.Int(e1), Value.Int(e2), Value.Int(e3)) =>
val elapsed = Time.hms(e1, e2, e3)
timing += (name -> Timing(elapsed, Time.zero, Time.zero))
case Session_Timing(name,
Value.Int(t), Value.Double(e), Value.Double(c), Value.Double(g)) =>
val elapsed = Time.seconds(e)
val cpu = Time.seconds(c)
val gc = Time.seconds(g)
ml_timing += (name -> Timing(elapsed, cpu, gc))
threads += (name -> t)
case Sources(name, s) =>
sources += (name -> s)
case Heap(name, Value.Long(size)) =>
heap_sizes += (name -> size)
case _ if Protocol.Theory_Timing_Marker.test_yxml(line) =>
line match {
case Theory_Timing(name, theory_timing) =>
theory_timings += (name -> (theory_timings.getOrElse(name, Map.empty) + theory_timing))
case _ => log_file.err("malformed theory_timing " + quote(line))
}
case _ if parse_ml_statistics && Protocol.ML_Statistics_Marker.test_yxml(line) =>
Protocol.ML_Statistics_Marker.unapply(line).map(log_file.parse_props) match {
case Some((SESSION_NAME, name) :: props) =>
ml_statistics += (name -> (props :: ml_statistics.getOrElse(name, Nil)))
case _ => log_file.err("malformed ML_statistics " + quote(line))
}
case _ if Protocol.Error_Message_Marker.test_yxml(line) =>
Protocol.Error_Message_Marker.unapply(line).map(log_file.parse_props) match {
case Some(List((SESSION_NAME, name), (Markup.CONTENT, msg))) =>
errors += (name -> (msg :: errors.getOrElse(name, Nil)))
case _ => log_file.err("malformed error message " + quote(line))
}
case _ =>
}
}
val sessions =
Map(
(for (name <- all_sessions.toList) yield {
val status =
if (timing.isDefinedAt(name) || ml_timing.isDefinedAt(name))
Session_Status.finished
else if (started(name)) Session_Status.failed
else Session_Status.existing
val entry =
Session_Entry(
chapter = chapter.getOrElse(name, ""),
groups = groups.getOrElse(name, Nil),
threads = threads.get(name),
timing = timing.getOrElse(name, Timing.zero),
ml_timing = ml_timing.getOrElse(name, Timing.zero),
sources = sources.get(name),
heap_size = heap_sizes.get(name),
status = Some(status),
errors = errors.getOrElse(name, Nil).reverse,
theory_timings = theory_timings.getOrElse(name, Map.empty),
ml_statistics = ml_statistics.getOrElse(name, Nil).reverse)
(name -> entry)
}):_*)
Build_Info(sessions)
}
/** session info: produced by isabelle build as session database **/
sealed case class Session_Info(
session_timing: Properties.T,
command_timings: List[Properties.T],
theory_timings: List[Properties.T],
ml_statistics: List[Properties.T],
task_statistics: List[Properties.T],
errors: List[String])
{
def error(s: String): Session_Info =
copy(errors = errors ::: List(s))
}
private def parse_session_info(
log_file: Log_File,
command_timings: Boolean,
theory_timings: Boolean,
ml_statistics: Boolean,
task_statistics: Boolean): Session_Info =
{
Session_Info(
session_timing = log_file.find_props(Protocol.Session_Timing_Marker) getOrElse Nil,
command_timings =
if (command_timings) log_file.filter_props(Protocol.Command_Timing_Marker) else Nil,
theory_timings =
if (theory_timings) log_file.filter_props(Protocol.Theory_Timing_Marker) else Nil,
ml_statistics =
if (ml_statistics) log_file.filter_props(Protocol.ML_Statistics_Marker) else Nil,
task_statistics =
if (task_statistics) log_file.filter_props(Protocol.Task_Statistics_Marker) else Nil,
errors = log_file.filter(Protocol.Error_Message_Marker))
}
def compress_errors(errors: List[String], cache: XZ.Cache = XZ.Cache()): Option[Bytes] =
if (errors.isEmpty) None
else {
Some(Bytes(YXML.string_of_body(XML.Encode.list(XML.Encode.string)(errors))).
compress(cache = cache))
}
def uncompress_errors(bytes: Bytes, cache: XML.Cache = XML.Cache.make()): List[String] =
if (bytes.is_empty) Nil
else {
XML.Decode.list(YXML.string_of_body)(
YXML.parse_body(bytes.uncompress(cache = cache.xz).text, cache = cache))
}
/** persistent store **/
/* SQL data model */
object Data
{
def build_log_table(name: String, columns: List[SQL.Column], body: String = ""): SQL.Table =
SQL.Table("isabelle_build_log_" + name, columns, body)
/* main content */
val log_name = SQL.Column.string("log_name").make_primary_key
val session_name = SQL.Column.string("session_name").make_primary_key
val theory_name = SQL.Column.string("theory_name").make_primary_key
val chapter = SQL.Column.string("chapter")
val groups = SQL.Column.string("groups")
val threads = SQL.Column.int("threads")
val timing_elapsed = SQL.Column.long("timing_elapsed")
val timing_cpu = SQL.Column.long("timing_cpu")
val timing_gc = SQL.Column.long("timing_gc")
val timing_factor = SQL.Column.double("timing_factor")
val ml_timing_elapsed = SQL.Column.long("ml_timing_elapsed")
val ml_timing_cpu = SQL.Column.long("ml_timing_cpu")
val ml_timing_gc = SQL.Column.long("ml_timing_gc")
val ml_timing_factor = SQL.Column.double("ml_timing_factor")
val theory_timing_elapsed = SQL.Column.long("theory_timing_elapsed")
val theory_timing_cpu = SQL.Column.long("theory_timing_cpu")
val theory_timing_gc = SQL.Column.long("theory_timing_gc")
val heap_size = SQL.Column.long("heap_size")
val status = SQL.Column.string("status")
val errors = SQL.Column.bytes("errors")
val sources = SQL.Column.string("sources")
val ml_statistics = SQL.Column.bytes("ml_statistics")
val known = SQL.Column.bool("known")
val meta_info_table =
build_log_table("meta_info", log_name :: Prop.all_props ::: Settings.all_settings)
val sessions_table =
build_log_table("sessions",
List(log_name, session_name, chapter, groups, threads, timing_elapsed, timing_cpu,
timing_gc, timing_factor, ml_timing_elapsed, ml_timing_cpu, ml_timing_gc, ml_timing_factor,
heap_size, status, errors, sources))
val theories_table =
build_log_table("theories",
List(log_name, session_name, theory_name, theory_timing_elapsed, theory_timing_cpu,
theory_timing_gc))
val ml_statistics_table =
build_log_table("ml_statistics", List(log_name, session_name, ml_statistics))
/* AFP versions */
val isabelle_afp_versions_table: SQL.Table =
{
val version1 = Prop.isabelle_version
val version2 = Prop.afp_version
build_log_table("isabelle_afp_versions", List(version1.make_primary_key, version2),
SQL.select(List(version1, version2), distinct = true) + meta_info_table +
" WHERE " + version1.defined + " AND " + version2.defined)
}
/* earliest pull date for repository version (PostgreSQL queries) */
def pull_date(afp: Boolean = false): SQL.Column =
if (afp) SQL.Column.date("afp_pull_date")
else SQL.Column.date("pull_date")
def pull_date_table(afp: Boolean = false): SQL.Table =
{
val (name, versions) =
if (afp) ("afp_pull_date", List(Prop.isabelle_version, Prop.afp_version))
else ("pull_date", List(Prop.isabelle_version))
build_log_table(name, versions.map(_.make_primary_key) ::: List(pull_date(afp)),
"SELECT " + versions.mkString(", ") +
", min(" + Prop.build_start + ") AS " + pull_date(afp) +
" FROM " + meta_info_table +
" WHERE " + (versions ::: List(Prop.build_start)).map(_.defined).mkString(" AND ") +
" GROUP BY " + versions.mkString(", "))
}
/* recent entries */
def recent_time(days: Int): SQL.Source =
"now() - INTERVAL '" + days.max(0) + " days'"
def recent_pull_date_table(
days: Int, rev: String = "", afp_rev: Option[String] = None): SQL.Table =
{
val afp = afp_rev.isDefined
val rev2 = afp_rev.getOrElse("")
val table = pull_date_table(afp)
val version1 = Prop.isabelle_version
val version2 = Prop.afp_version
val eq1 = version1(table) + " = " + SQL.string(rev)
val eq2 = version2(table) + " = " + SQL.string(rev2)
SQL.Table("recent_pull_date", table.columns,
table.select(table.columns,
"WHERE " + pull_date(afp)(table) + " > " + recent_time(days) +
(if (rev != "" && rev2 == "") " OR " + eq1
else if (rev == "" && rev2 != "") " OR " + eq2
else if (rev != "" && rev2 != "") " OR (" + eq1 + " AND " + eq2 + ")"
else "")))
}
def select_recent_log_names(days: Int): SQL.Source =
{
val table1 = meta_info_table
val table2 = recent_pull_date_table(days)
table1.select(List(log_name), distinct = true) + SQL.join_inner + table2.query_named +
" ON " + Prop.isabelle_version(table1) + " = " + Prop.isabelle_version(table2)
}
def select_recent_versions(days: Int,
rev: String = "", afp_rev: Option[String] = None, sql: SQL.Source = ""): SQL.Source =
{
val afp = afp_rev.isDefined
val version = Prop.isabelle_version
val table1 = recent_pull_date_table(days, rev = rev, afp_rev = afp_rev)
val table2 = meta_info_table
val aux_table = SQL.Table("aux", table2.columns, table2.select(sql = sql))
val columns =
table1.columns.map(c => c(table1)) :::
List(known.copy(expr = log_name(aux_table).defined))
SQL.select(columns, distinct = true) +
table1.query_named + SQL.join_outer + aux_table.query_named +
" ON " + version(table1) + " = " + version(aux_table) +
" ORDER BY " + pull_date(afp)(table1) + " DESC"
}
/* universal view on main data */
val universal_table: SQL.Table =
{
val afp_pull_date = pull_date(afp = true)
val version1 = Prop.isabelle_version
val version2 = Prop.afp_version
val table1 = meta_info_table
val table2 = pull_date_table(afp = true)
val table3 = pull_date_table()
val a_columns = log_name :: afp_pull_date :: table1.columns.tail
val a_table =
SQL.Table("a", a_columns,
SQL.select(List(log_name, afp_pull_date) ::: table1.columns.tail.map(_.apply(table1))) +
table1 + SQL.join_outer + table2 +
" ON " + version1(table1) + " = " + version1(table2) +
" AND " + version2(table1) + " = " + version2(table2))
val b_columns = log_name :: pull_date() :: a_columns.tail
val b_table =
SQL.Table("b", b_columns,
SQL.select(
List(log_name(a_table), pull_date()(table3)) ::: a_columns.tail.map(_.apply(a_table))) +
a_table.query_named + SQL.join_outer + table3 +
" ON " + version1(a_table) + " = " + version1(table3))
val c_columns = b_columns ::: sessions_table.columns.tail
val c_table =
SQL.Table("c", c_columns,
SQL.select(log_name(b_table) :: c_columns.tail) +
b_table.query_named + SQL.join_inner + sessions_table +
" ON " + log_name(b_table) + " = " + log_name(sessions_table))
SQL.Table("isabelle_build_log", c_columns ::: List(ml_statistics),
{
SQL.select(c_columns.map(_.apply(c_table)) ::: List(ml_statistics)) +
c_table.query_named + SQL.join_outer + ml_statistics_table +
" ON " + log_name(c_table) + " = " + log_name(ml_statistics_table) +
" AND " + session_name(c_table) + " = " + session_name(ml_statistics_table)
})
}
}
/* database access */
def store(options: Options, cache: XML.Cache = XML.Cache.make()): Store =
new Store(options, cache)
class Store private[Build_Log](options: Options, val cache: XML.Cache)
{
def open_database(
user: String = options.string("build_log_database_user"),
password: String = options.string("build_log_database_password"),
database: String = options.string("build_log_database_name"),
host: String = options.string("build_log_database_host"),
port: Int = options.int("build_log_database_port"),
ssh_host: String = options.string("build_log_ssh_host"),
ssh_user: String = options.string("build_log_ssh_user"),
ssh_port: Int = options.int("build_log_ssh_port")): PostgreSQL.Database =
{
PostgreSQL.open_database(
user = user, password = password, database = database, host = host, port = port,
ssh =
if (ssh_host == "") None
else Some(SSH.open_session(options, host = ssh_host, user = ssh_user, port = ssh_port)),
ssh_close = true)
}
def update_database(
db: PostgreSQL.Database, dirs: List[Path], ml_statistics: Boolean = false): Unit =
{
val log_files =
dirs.flatMap(dir =>
File.find_files(dir.file, pred = Log_File.is_log(_), follow_links = true))
write_info(db, log_files, ml_statistics = ml_statistics)
db.create_view(Data.pull_date_table())
db.create_view(Data.pull_date_table(afp = true))
db.create_view(Data.universal_table)
}
def snapshot_database(db: PostgreSQL.Database, sqlite_database: Path,
days: Int = 100, ml_statistics: Boolean = false): Unit =
{
Isabelle_System.make_directory(sqlite_database.dir)
sqlite_database.file.delete
using(SQLite.open_database(sqlite_database))(db2 =>
{
db.transaction {
db2.transaction {
// main content
db2.create_table(Data.meta_info_table)
db2.create_table(Data.sessions_table)
db2.create_table(Data.theories_table)
db2.create_table(Data.ml_statistics_table)
val recent_log_names =
db.using_statement(Data.select_recent_log_names(days))(stmt =>
stmt.execute_query().iterator(_.string(Data.log_name)).toList)
for (log_name <- recent_log_names) {
read_meta_info(db, log_name).foreach(meta_info =>
update_meta_info(db2, log_name, meta_info))
update_sessions(db2, log_name, read_build_info(db, log_name))
if (ml_statistics) {
update_ml_statistics(db2, log_name,
read_build_info(db, log_name, ml_statistics = true))
}
}
// pull_date
for (afp <- List(false, true))
{
val afp_rev = if (afp) Some("") else None
val table = Data.pull_date_table(afp)
db2.create_table(table)
db2.using_statement(table.insert())(stmt2 =>
{
db.using_statement(
Data.recent_pull_date_table(days, afp_rev = afp_rev).query)(stmt =>
{
val res = stmt.execute_query()
while (res.next()) {
for ((c, i) <- table.columns.zipWithIndex) {
stmt2.string(i + 1) = res.get_string(c)
}
stmt2.execute()
}
})
})
}
// full view
db2.create_view(Data.universal_table)
}
}
db2.rebuild
})
}
def domain(db: SQL.Database, table: SQL.Table, column: SQL.Column): Set[String] =
db.using_statement(table.select(List(column), distinct = true))(stmt =>
stmt.execute_query().iterator(_.string(column)).toSet)
def update_meta_info(db: SQL.Database, log_name: String, meta_info: Meta_Info): Unit =
{
val table = Data.meta_info_table
db.using_statement(db.insert_permissive(table))(stmt =>
{
stmt.string(1) = log_name
for ((c, i) <- table.columns.tail.zipWithIndex) {
if (c.T == SQL.Type.Date)
stmt.date(i + 2) = meta_info.get_date(c)
else
stmt.string(i + 2) = meta_info.get(c)
}
stmt.execute()
})
}
def update_sessions(db: SQL.Database, log_name: String, build_info: Build_Info): Unit =
{
val table = Data.sessions_table
db.using_statement(db.insert_permissive(table))(stmt =>
{
val sessions =
if (build_info.sessions.isEmpty) Build_Info.sessions_dummy
else build_info.sessions
for ((session_name, session) <- sessions) {
stmt.string(1) = log_name
stmt.string(2) = session_name
stmt.string(3) = proper_string(session.chapter)
stmt.string(4) = session.proper_groups
stmt.int(5) = session.threads
stmt.long(6) = session.timing.elapsed.proper_ms
stmt.long(7) = session.timing.cpu.proper_ms
stmt.long(8) = session.timing.gc.proper_ms
stmt.double(9) = session.timing.factor
stmt.long(10) = session.ml_timing.elapsed.proper_ms
stmt.long(11) = session.ml_timing.cpu.proper_ms
stmt.long(12) = session.ml_timing.gc.proper_ms
stmt.double(13) = session.ml_timing.factor
stmt.long(14) = session.heap_size
stmt.string(15) = session.status.map(_.toString)
stmt.bytes(16) = compress_errors(session.errors, cache = cache.xz)
stmt.string(17) = session.sources
stmt.execute()
}
})
}
def update_theories(db: SQL.Database, log_name: String, build_info: Build_Info): Unit =
{
val table = Data.theories_table
db.using_statement(db.insert_permissive(table))(stmt =>
{
val sessions =
if (build_info.sessions.forall({ case (_, session) => session.theory_timings.isEmpty }))
Build_Info.sessions_dummy
else build_info.sessions
for {
(session_name, session) <- sessions
(theory_name, timing) <- session.theory_timings
} {
stmt.string(1) = log_name
stmt.string(2) = session_name
stmt.string(3) = theory_name
stmt.long(4) = timing.elapsed.ms
stmt.long(5) = timing.cpu.ms
stmt.long(6) = timing.gc.ms
stmt.execute()
}
})
}
def update_ml_statistics(db: SQL.Database, log_name: String, build_info: Build_Info): Unit =
{
val table = Data.ml_statistics_table
db.using_statement(db.insert_permissive(table))(stmt =>
{
val ml_stats: List[(String, Option[Bytes])] =
Par_List.map[(String, Session_Entry), (String, Option[Bytes])](
{ case (a, b) => (a, Properties.compress(b.ml_statistics, cache = cache.xz).proper) },
build_info.sessions.iterator.filter(p => p._2.ml_statistics.nonEmpty).toList)
val entries = if (ml_stats.nonEmpty) ml_stats else List("" -> None)
for ((session_name, ml_statistics) <- entries) {
stmt.string(1) = log_name
stmt.string(2) = session_name
stmt.bytes(3) = ml_statistics
stmt.execute()
}
})
}
def write_info(db: SQL.Database, files: List[JFile], ml_statistics: Boolean = false): Unit =
{
abstract class Table_Status(table: SQL.Table)
{
db.create_table(table)
private var known: Set[String] = domain(db, table, Data.log_name)
def required(file: JFile): Boolean = !known(Log_File.plain_name(file.getName))
def update_db(db: SQL.Database, log_file: Log_File): Unit
def update(log_file: Log_File): Unit =
{
if (!known(log_file.name)) {
update_db(db, log_file)
known += log_file.name
}
}
}
val status =
List(
new Table_Status(Data.meta_info_table) {
override def update_db(db: SQL.Database, log_file: Log_File): Unit =
update_meta_info(db, log_file.name, log_file.parse_meta_info())
},
new Table_Status(Data.sessions_table) {
override def update_db(db: SQL.Database, log_file: Log_File): Unit =
update_sessions(db, log_file.name, log_file.parse_build_info())
},
new Table_Status(Data.theories_table) {
override def update_db(db: SQL.Database, log_file: Log_File): Unit =
update_theories(db, log_file.name, log_file.parse_build_info())
},
new Table_Status(Data.ml_statistics_table) {
override def update_db(db: SQL.Database, log_file: Log_File): Unit =
if (ml_statistics) {
update_ml_statistics(db, log_file.name,
log_file.parse_build_info(ml_statistics = true))
}
})
for (file_group <-
files.filter(file => status.exists(_.required(file))).
grouped(options.int("build_log_transaction_size") max 1))
{
val log_files = Par_List.map[JFile, Log_File](Log_File.apply, file_group)
db.transaction { log_files.foreach(log_file => status.foreach(_.update(log_file))) }
}
}
def read_meta_info(db: SQL.Database, log_name: String): Option[Meta_Info] =
{
val table = Data.meta_info_table
val columns = table.columns.tail
db.using_statement(table.select(columns, Data.log_name.where_equal(log_name)))(stmt =>
{
val res = stmt.execute_query()
if (!res.next) None
else {
val results =
columns.map(c => c.name ->
(if (c.T == SQL.Type.Date)
res.get_date(c).map(Log_File.Date_Format(_))
else
res.get_string(c)))
val n = Prop.all_props.length
val props = for ((x, Some(y)) <- results.take(n)) yield (x, y)
val settings = for ((x, Some(y)) <- results.drop(n)) yield (x, y)
Some(Meta_Info(props, settings))
}
})
}
def read_build_info(
db: SQL.Database,
log_name: String,
session_names: List[String] = Nil,
ml_statistics: Boolean = false): Build_Info =
{
val table1 = Data.sessions_table
val table2 = Data.ml_statistics_table
val where_log_name =
Data.log_name(table1).where_equal(log_name) + " AND " +
Data.session_name(table1) + " <> ''"
val where =
if (session_names.isEmpty) where_log_name
else where_log_name + " AND " + SQL.member(Data.session_name(table1).ident, session_names)
val columns1 = table1.columns.tail.map(_.apply(table1))
val (columns, from) =
if (ml_statistics) {
val columns = columns1 ::: List(Data.ml_statistics(table2))
val join =
table1 + SQL.join_outer + table2 + " ON " +
Data.log_name(table1) + " = " + Data.log_name(table2) + " AND " +
Data.session_name(table1) + " = " + Data.session_name(table2)
(columns, SQL.enclose(join))
}
else (columns1, table1.ident)
val sessions =
db.using_statement(SQL.select(columns) + from + " " + where)(stmt =>
{
stmt.execute_query().iterator(res =>
{
val session_name = res.string(Data.session_name)
val session_entry =
Session_Entry(
chapter = res.string(Data.chapter),
groups = split_lines(res.string(Data.groups)),
threads = res.get_int(Data.threads),
timing = res.timing(Data.timing_elapsed, Data.timing_cpu, Data.timing_gc),
ml_timing =
res.timing(Data.ml_timing_elapsed, Data.ml_timing_cpu, Data.ml_timing_gc),
sources = res.get_string(Data.sources),
heap_size = res.get_long(Data.heap_size),
status = res.get_string(Data.status).map(Session_Status.withName),
errors = uncompress_errors(res.bytes(Data.errors), cache = cache),
ml_statistics =
if (ml_statistics) {
Properties.uncompress(res.bytes(Data.ml_statistics), cache = cache)
}
else Nil)
session_name -> session_entry
}).toMap
})
Build_Info(sessions)
}
}
}