/* Title: Pure/Thy/store.scala
Author: Makarius
Persistent store for session content: within file-system and/or SQL database.
*/
package isabelle
import java.sql.SQLException
object Store {
def apply(options: Options, cache: Term.Cache = Term.Cache.make()): Store =
new Store(options, cache)
/* session build info */
sealed case class Build_Info(
sources: SHA1.Shasum,
input_heaps: SHA1.Shasum,
output_heap: SHA1.Shasum,
return_code: Int,
uuid: String
) {
def ok: Boolean = return_code == 0
}
/* session sources */
sealed case class Source_File(
name: String,
digest: SHA1.Digest,
compressed: Boolean,
body: Bytes,
cache: Compress.Cache
) {
override def toString: String = name
def bytes: Bytes = if (compressed) body.uncompress(cache = cache) else body
}
object Sources {
def load(session_base: Sessions.Base, cache: Compress.Cache = Compress.Cache.none): Sources =
new Sources(
session_base.session_sources.foldLeft(Map.empty) {
case (sources, (path, digest)) =>
def err(): Nothing = error("Incoherent digest for source file: " + path)
val name = File.symbolic_path(path)
sources.get(name) match {
case Some(source_file) =>
if (source_file.digest == digest) sources else err()
case None =>
val bytes = Bytes.read(path)
if (bytes.sha1_digest == digest) {
val (compressed, body) =
bytes.maybe_compress(Compress.Options_Zstd(), cache = cache)
val file = Source_File(name, digest, compressed, body, cache)
sources + (name -> file)
}
else err()
}
})
}
class Sources private(rep: Map[String, Source_File]) extends Iterable[Source_File] {
override def toString: String = rep.values.toList.sortBy(_.name).mkString("Sources(", ", ", ")")
override def iterator: Iterator[Source_File] = rep.valuesIterator
def get(name: String): Option[Source_File] = rep.get(name)
def apply(name: String): Source_File =
get(name).getOrElse(error("Missing session sources entry " + quote(name)))
}
/* SQL data model */
object Data extends SQL.Data() {
override lazy val tables = SQL.Tables(Session_Info.table, Sources.table)
object Session_Info {
val session_name = SQL.Column.string("session_name").make_primary_key
// Build_Log.Session_Info
val session_timing = SQL.Column.bytes("session_timing")
val command_timings = SQL.Column.bytes("command_timings")
val theory_timings = SQL.Column.bytes("theory_timings")
val ml_statistics = SQL.Column.bytes("ml_statistics")
val task_statistics = SQL.Column.bytes("task_statistics")
val errors = SQL.Column.bytes("errors")
val build_log_columns =
List(session_name, session_timing, command_timings, theory_timings,
ml_statistics, task_statistics, errors)
// Build_Info
val sources = SQL.Column.string("sources")
val input_heaps = SQL.Column.string("input_heaps")
val output_heap = SQL.Column.string("output_heap")
val return_code = SQL.Column.int("return_code")
val uuid = SQL.Column.string("uuid")
val build_columns = List(sources, input_heaps, output_heap, return_code, uuid)
val table = SQL.Table("isabelle_session_info", build_log_columns ::: build_columns)
}
object Sources {
val session_name = SQL.Column.string("session_name").make_primary_key
val name = SQL.Column.string("name").make_primary_key
val digest = SQL.Column.string("digest")
val compressed = SQL.Column.bool("compressed")
val body = SQL.Column.bytes("body")
val table =
SQL.Table("isabelle_sources", List(session_name, name, digest, compressed, body))
def where_equal(session_name: String, name: String = ""): SQL.Source =
SQL.where_and(
Sources.session_name.equal(session_name),
if_proper(name, Sources.name.equal(name)))
}
def read_bytes(db: SQL.Database, name: String, column: SQL.Column): Bytes =
db.execute_query_statementO[Bytes](
Session_Info.table.select(List(column), sql = Session_Info.session_name.where_equal(name)),
res => res.bytes(column)
).getOrElse(Bytes.empty)
def read_properties(
db: SQL.Database, name: String, column: SQL.Column, cache: Term.Cache
): List[Properties.T] = Properties.uncompress(read_bytes(db, name, column), cache = cache)
def read_session_timing(db: SQL.Database, name: String, cache: Term.Cache): Properties.T =
Properties.decode(read_bytes(db, name, Session_Info.session_timing), cache = cache)
def read_command_timings(db: SQL.Database, name: String): Bytes =
read_bytes(db, name, Session_Info.command_timings)
def read_theory_timings(db: SQL.Database, name: String, cache: Term.Cache): List[Properties.T] =
read_properties(db, name, Session_Info.theory_timings, cache)
def read_ml_statistics(db: SQL.Database, name: String, cache: Term.Cache): List[Properties.T] =
read_properties(db, name, Session_Info.ml_statistics, cache)
def read_task_statistics(db: SQL.Database, name: String, cache: Term.Cache): List[Properties.T] =
read_properties(db, name, Session_Info.task_statistics, cache)
def read_errors(db: SQL.Database, name: String, cache: Term.Cache): List[String] =
Build_Log.uncompress_errors(read_bytes(db, name, Session_Info.errors), cache = cache)
def read_build(db: SQL.Database, name: String): Option[Store.Build_Info] = {
if (db.tables.contains(Session_Info.table.name)) {
db.execute_query_statementO[Store.Build_Info](
Session_Info.table.select(sql = Session_Info.session_name.where_equal(name)),
{ res =>
val uuid =
try { Option(res.string(Session_Info.uuid)).getOrElse("") }
catch { case _: SQLException => "" }
Store.Build_Info(
SHA1.fake_shasum(res.string(Session_Info.sources)),
SHA1.fake_shasum(res.string(Session_Info.input_heaps)),
SHA1.fake_shasum(res.string(Session_Info.output_heap)),
res.int(Session_Info.return_code),
uuid)
}
)
}
else None
}
def write_session_info(
db: SQL.Database,
cache: Compress.Cache,
session_name: String,
build_log: Build_Log.Session_Info,
build: Build_Info
): Unit = {
db.execute_statement(Session_Info.table.insert(), body =
{ stmt =>
stmt.string(1) = session_name
stmt.bytes(2) = Properties.encode(build_log.session_timing)
stmt.bytes(3) = Properties.compress(build_log.command_timings, cache = cache)
stmt.bytes(4) = Properties.compress(build_log.theory_timings, cache = cache)
stmt.bytes(5) = Properties.compress(build_log.ml_statistics, cache = cache)
stmt.bytes(6) = Properties.compress(build_log.task_statistics, cache = cache)
stmt.bytes(7) = Build_Log.compress_errors(build_log.errors, cache = cache)
stmt.string(8) = build.sources.toString
stmt.string(9) = build.input_heaps.toString
stmt.string(10) = build.output_heap.toString
stmt.int(11) = build.return_code
stmt.string(12) = build.uuid
})
}
def write_sources(db: SQL.Database, session_name: String, sources: Sources): Unit =
for (source_file <- sources) {
db.execute_statement(Sources.table.insert(), body =
{ stmt =>
stmt.string(1) = session_name
stmt.string(2) = source_file.name
stmt.string(3) = source_file.digest.toString
stmt.bool(4) = source_file.compressed
stmt.bytes(5) = source_file.body
})
}
def read_sources(
db: SQL.Database,
session_name: String,
name: String,
cache: Compress.Cache
): List[Source_File] = {
db.execute_query_statement(
Sources.table.select(
sql = Sources.where_equal(session_name, name = name) + SQL.order_by(List(Sources.name))),
List.from[Source_File],
{ res =>
val res_name = res.string(Sources.name)
val digest = SHA1.fake_digest(res.string(Sources.digest))
val compressed = res.bool(Sources.compressed)
val body = res.bytes(Sources.body)
Source_File(res_name, digest, compressed, body, cache)
}
)
}
}
}
class Store private(val options: Options, val cache: Term.Cache) {
store =>
override def toString: String = "Store(output_dir = " + output_dir.absolute + ")"
/* directories */
val system_output_dir: Path = Path.explode("$ISABELLE_HEAPS_SYSTEM/$ML_IDENTIFIER")
val user_output_dir: Path = Path.explode("$ISABELLE_HEAPS/$ML_IDENTIFIER")
def system_heaps: Boolean = options.bool("system_heaps")
val output_dir: Path =
if (system_heaps) system_output_dir else user_output_dir
val input_dirs: List[Path] =
if (system_heaps) List(system_output_dir)
else List(user_output_dir, system_output_dir)
def presentation_dir: Path =
if (system_heaps) Path.explode("$ISABELLE_BROWSER_INFO_SYSTEM")
else Path.explode("$ISABELLE_BROWSER_INFO")
/* file names */
def heap(name: String): Path = Path.basic(name)
def database(name: String): Path = Path.basic("log") + Path.basic(name).db
def log(name: String): Path = Path.basic("log") + Path.basic(name)
def log_gz(name: String): Path = log(name).gz
def output_heap(name: String): Path = output_dir + heap(name)
def output_database(name: String): Path = output_dir + database(name)
def output_log(name: String): Path = output_dir + log(name)
def output_log_gz(name: String): Path = output_dir + log_gz(name)
/* heap */
def find_heap(name: String): Option[Path] =
input_dirs.map(_ + heap(name)).find(_.is_file)
def the_heap(name: String): Path =
find_heap(name) getOrElse
error("Missing heap image for session " + quote(name) + " -- expected in:\n" +
cat_lines(input_dirs.map(dir => " " + File.standard_path(dir))))
def heap_shasum(database_server: Option[SQL.Database], name: String): SHA1.Shasum = {
def get_database = database_server.flatMap(ML_Heap.get_entry(_, name))
def get_file = find_heap(name).flatMap(ML_Heap.read_file_digest)
get_database orElse get_file match {
case Some(digest) => SHA1.shasum(digest, name)
case None => SHA1.no_shasum
}
}
/* databases for build process and session content */
def find_database(name: String): Option[Path] =
input_dirs.map(_ + database(name)).find(_.is_file)
def build_database_server: Boolean = options.bool("build_database_server")
def build_database_test: Boolean = options.bool("build_database_test")
def open_server(): SSH.Server =
PostgreSQL.open_server(options,
host = options.string("build_database_host"),
port = options.int("build_database_port"),
ssh_host = options.string("build_database_ssh_host"),
ssh_port = options.int("build_database_ssh_port"),
ssh_user = options.string("build_database_ssh_user"))
def open_database_server(server: SSH.Server = SSH.no_server): PostgreSQL.Database =
PostgreSQL.open_database_server(options, server = server,
user = options.string("build_database_user"),
password = options.string("build_database_password"),
database = options.string("build_database_name"),
host = options.string("build_database_host"),
port = options.int("build_database_port"),
ssh_host = options.string("build_database_ssh_host"),
ssh_port = options.int("build_database_ssh_port"),
ssh_user = options.string("build_database_ssh_user"))
def maybe_open_database_server(): Option[SQL.Database] =
if (build_database_server) Some(open_database_server()) else None
def open_build_database(path: Path): SQL.Database =
if (build_database_server) open_database_server()
else SQLite.open_database(path, restrict = true)
def maybe_open_build_database(
path: Path = Path.explode("$ISABELLE_HOME_USER/build.db")
): Option[SQL.Database] = if (build_database_test) Some(open_build_database(path)) else None
def try_open_database(
name: String,
output: Boolean = false,
server_mode: Boolean = build_database_server
): Option[SQL.Database] = {
def check(db: SQL.Database): Option[SQL.Database] =
if (output || session_info_exists(db)) Some(db) else { db.close(); None }
if (server_mode) check(open_database_server())
else if (output) Some(SQLite.open_database(output_database(name)))
else {
(for {
dir <- input_dirs.view
path = dir + database(name) if path.is_file
db <- check(SQLite.open_database(path))
} yield db).headOption
}
}
def error_database(name: String): Nothing =
error("Missing build database for session " + quote(name))
def open_database(name: String, output: Boolean = false): SQL.Database =
try_open_database(name, output = output) getOrElse error_database(name)
def clean_output(
database_server: Option[SQL.Database],
name: String,
session_init: Boolean = false
): Option[Boolean] = {
val relevant_db =
database_server match {
case Some(db) =>
ML_Heap.clean_entry(db, name)
clean_session_info(db, name)
case None => false
}
val del =
for {
dir <-
(if (system_heaps) List(user_output_dir, system_output_dir) else List(user_output_dir))
file <- List(heap(name), database(name), log(name), log_gz(name))
path = dir + file if path.is_file
} yield path.file.delete
if (database_server.isEmpty && session_init) {
using(open_database(name, output = true))(clean_session_info(_, name))
}
if (relevant_db || del.nonEmpty) Some(del.forall(identity)) else None
}
def check_output(
name: String,
session_options: Options,
sources_shasum: SHA1.Shasum,
input_shasum: SHA1.Shasum,
fresh_build: Boolean,
store_heap: Boolean
): (Boolean, SHA1.Shasum) = {
try_open_database(name) match {
case Some(db) =>
using(db) { _ =>
read_build(db, name) match {
case Some(build) =>
val output_shasum = heap_shasum(if (db.is_postgresql) Some(db) else None, name)
val current =
!fresh_build &&
build.ok &&
Sessions.eq_sources(session_options, build.sources, sources_shasum) &&
build.input_heaps == input_shasum &&
build.output_heap == output_shasum &&
!(store_heap && output_shasum.is_empty)
(current, output_shasum)
case None => (false, SHA1.no_shasum)
}
}
case None => (false, SHA1.no_shasum)
}
}
/* session info */
def session_info_exists(db: SQL.Database): Boolean = {
val tables = db.tables
Store.Data.tables.forall(table => tables.contains(table.name))
}
def session_info_defined(db: SQL.Database, name: String): Boolean =
db.execute_query_statementB(
Store.Data.Session_Info.table.select(List(Store.Data.Session_Info.session_name),
sql = Store.Data.Session_Info.session_name.where_equal(name)))
def clean_session_info(db: SQL.Database, name: String): Boolean = {
Export.clean_session(db, name)
Document_Build.clean_session(db, name)
Store.Data.transaction_lock(db,
create = true,
synchronized = true,
label = "Store.clean_session_info"
) {
val already_defined = session_info_defined(db, name)
db.execute_statement(
Store.Data.Session_Info.table.delete(
sql = Store.Data.Session_Info.session_name.where_equal(name)))
db.execute_statement(Store.Data.Sources.table.delete(
sql = Store.Data.Sources.where_equal(name)))
already_defined
}
}
def write_session_info(
db: SQL.Database,
session_name: String,
sources: Store.Sources,
build_log: Build_Log.Session_Info,
build: Store.Build_Info
): Unit = {
Store.Data.transaction_lock(db, synchronized = true, label = "Store.write_session_info") {
Store.Data.write_sources(db, session_name, sources)
Store.Data.write_session_info(db, cache.compress, session_name, build_log, build)
}
}
def read_session_timing(db: SQL.Database, session: String): Properties.T =
Store.Data.transaction_lock(db, label = "Store.read_session_timing") {
Store.Data.read_session_timing(db, session, cache)
}
def read_command_timings(db: SQL.Database, session: String): Bytes =
Store.Data.transaction_lock(db, label = "Store.read_command_timings") {
Store.Data.read_command_timings(db, session)
}
def read_theory_timings(db: SQL.Database, session: String): List[Properties.T] =
Store.Data.transaction_lock(db, label = "Store.read_theory_timings") {
Store.Data.read_theory_timings(db, session, cache)
}
def read_ml_statistics(db: SQL.Database, session: String): List[Properties.T] =
Store.Data.transaction_lock(db, label = "Store.read_ml_statistics") {
Store.Data.read_ml_statistics(db, session, cache)
}
def read_task_statistics(db: SQL.Database, session: String): List[Properties.T] =
Store.Data.transaction_lock(db, label = "Store.read_task_statistics") {
Store.Data.read_task_statistics(db, session, cache)
}
def read_theories(db: SQL.Database, session: String): List[String] =
read_theory_timings(db, session).flatMap(Markup.Name.unapply)
def read_errors(db: SQL.Database, session: String): List[String] =
Store.Data.transaction_lock(db, label = "Store.read_errors") {
Store.Data.read_errors(db, session, cache)
}
def read_build(db: SQL.Database, session: String): Option[Store.Build_Info] =
Store.Data.transaction_lock(db, label = "Store.read_build") {
Store.Data.read_build(db, session)
}
def read_sources(db: SQL.Database, session: String, name: String = ""): List[Store.Source_File] =
Store.Data.transaction_lock(db, label = "Store.read_sources") {
Store.Data.read_sources(db, session, name, cache.compress)
}
}