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;;; Nar Herder
;;;
;;; Copyright © 2021 Christopher Baines <mail@cbaines.net>
;;;
;;; This program is free software: you can redistribute it and/or
;;; modify it under the terms of the GNU Affero General Public License
;;; as published by the Free Software Foundation, either version 3 of
;;; the License, or (at your option) any later version.
;;;
;;; This program is distributed in the hope that it will be useful,
;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
;;; Affero General Public License for more details.
;;;
;;; You should have received a copy of the GNU Affero General Public
;;; License along with this program.  If not, see
;;; <http://www.gnu.org/licenses/>.

(define-module (nar-herder database)
  #:use-module (srfi srfi-1)
  #:use-module (srfi srfi-9)
  #:use-module (srfi srfi-19)
  #:use-module (ice-9 match)
  #:use-module (ice-9 format)
  #:use-module (ice-9 threads)
  #:use-module (ice-9 exceptions)
  #:use-module (web uri)
  #:use-module (sqlite3)
  #:use-module (fibers)
  #:use-module (prometheus)
  #:use-module (guix narinfo)
  #:use-module (guix derivations)
  #:use-module (nar-herder utils)
  #:export (setup-database

            database-optimize
            database-spawn-fibers

            database-call-with-transaction

            dump-database

            database-insert-narinfo
            database-remove-narinfo
            database-select-narinfo-contents-by-hash

            database-select-recent-changes
            database-select-latest-recent-change-datetime
            database-get-recent-changes-id-for-deletion
            database-delete-recent-changes-with-id-below

            database-select-narinfo-for-file
            database-select-narinfo-files

            database-map-all-narinfo-files))

(define-record-type <database>
  (make-database database-file reader-thread-channel writer-thread-channel
                 metrics-registry)
  database?
  (database-file          database-file)
  (reader-thread-channel  database-reader-thread-channel)
  (writer-thread-channel  database-writer-thread-channel)
  (metrics-registry       database-metrics-registry))

(define* (db-open database
                  #:key (write? #t))
  (define flags
    `(,@(if write?
            (list SQLITE_OPEN_READWRITE
                  SQLITE_OPEN_CREATE)

            (list SQLITE_OPEN_READONLY))
      ,SQLITE_OPEN_NOMUTEX))

  (sqlite-open database (apply logior flags)))

(define (perform-initial-database-setup db)
  (define schema
    "
CREATE TABLE narinfos (
  id INTEGER PRIMARY KEY ASC,
  store_path TEXT NOT NULL,
  nar_hash TEXT NOT NULL,
  nar_size INTEGER NOT NULL,
  deriver TEXT,
  system TEXT,
  contents NOT NULL
);

CREATE UNIQUE INDEX narinfos_store_hash ON narinfos (substr(store_path, 12, 32));

CREATE TABLE narinfo_files (
  narinfo_id INTEGER NOT NULL REFERENCES narinfos (id),
  size INTEGER NOT NULL,
  compression TEXT,
  url TEXT NOT NULL
);

CREATE INDEX narinfo_files_narinfo_id ON narinfo_files (narinfo_id);

CREATE TABLE narinfo_references (
  narinfo_id INTEGER NOT NULL REFERENCES narinfos (id),
  store_path TEXT NOT NULL
);

CREATE TABLE tags (
  id INTEGER PRIMARY KEY ASC,
  key TEXT NOT NULL,
  value TEXT NOT NULL
);

CREATE UNIQUE INDEX tags_index ON tags (key, value);

CREATE TABLE narinfo_tags (
  narinfo_id INTEGER NOT NULL REFERENCES narinfos (id),
  tag_id INTEGER NOT NULL REFERENCES tags (id)
);

CREATE TABLE recent_changes (
  id INTEGER PRIMARY KEY ASC,
  datetime TEXT NOT NULL,
  change TEXT NOT NULl,
  data TEXT NOT NULL
);")

  (sqlite-exec db schema))

(define (update-schema db)
  (let ((statement
         (sqlite-prepare
          db
          "
SELECT name FROM sqlite_master WHERE type = 'table' AND name = :name")))

    (sqlite-bind-arguments
     statement
     #:name "narinfos")

    (match (sqlite-step statement)
      (#f (perform-initial-database-setup db))
      (_ #f))

    (sqlite-finalize statement))

  (sqlite-exec
   db
   "CREATE INDEX IF NOT EXISTS narinfo_files_narinfo_id
      ON narinfo_files (narinfo_id);"))

(define (setup-database database-file metrics-registry)
  (let ((db (db-open database-file)))
    (sqlite-exec db "PRAGMA journal_mode=WAL;")
    (sqlite-exec db "PRAGMA optimize;")
    (sqlite-exec db "PRAGMA wal_checkpoint(TRUNCATE);")

    (update-schema db)

    (sqlite-close db))

  (let ((reader-thread-channel
         (make-worker-thread-channel
          (lambda ()
            (let ((db
                   (db-open database-file #:write? #f)))
              (sqlite-exec db "PRAGMA busy_timeout = 5000;")
              (list db)))
          #:destructor
          (lambda (db)
            (sqlite-close db))
          #:lifetime 50000

          ;; Use a minimum of 2 and a maximum of 8 threads
          #:parallelism
          (min (max (current-processor-count)
                    2)
               64)
          #:delay-logger (let ((delay-metric
                                (make-histogram-metric
                                 metrics-registry
                                 "database_read_delay_seconds")))
                           (lambda (seconds-delayed)
                             (metric-observe delay-metric seconds-delayed)
                             (when (> seconds-delayed 1)
                               (format
                                (current-error-port)
                                "warning: database read delayed by ~1,2f seconds~%"
                                seconds-delayed))))))

        (writer-thread-channel
         (make-worker-thread-channel
          (lambda ()
            (let ((db
                   (db-open database-file)))
              (sqlite-exec db "PRAGMA busy_timeout = 5000;")
              (sqlite-exec db "PRAGMA foreign_keys = ON;")
              (list db)))
          #:destructor
          (lambda (db)
            (db-optimize db
                         database-file)

            (sqlite-close db))
          #:lifetime 500

          ;; SQLite doesn't support parallel writes
          #:parallelism 1
          #:delay-logger (let ((delay-metric
                                (make-histogram-metric
                                 metrics-registry
                                 "database_write_delay_seconds")))
                           (lambda (seconds-delayed)
                             (metric-observe delay-metric seconds-delayed)
                             (when (> seconds-delayed 1)
                               (format
                                (current-error-port)
                                "warning: database write delayed by ~1,2f seconds~%"
                                seconds-delayed)))))))

    (make-database database-file
                   reader-thread-channel
                   writer-thread-channel
                   metrics-registry)))

(define (db-optimize db db-filename)
  (define (wal-size)
    (let ((db-wal-filename
           (string-append db-filename "-wal")))

      (stat:size (stat db-wal-filename))))

  (define MiB (* (expt 2 20) 1.))
  (define wal-size-threshold
    (* 5 MiB))

  (when (> (wal-size) wal-size-threshold)
    (sqlite-exec db "PRAGMA wal_checkpoint(TRUNCATE);")

    (sqlite-exec db
                 "
PRAGMA analysis_limit=1000;
PRAGMA optimize;")))

(define (database-optimize database)
  (retry-on-error
   (lambda ()
     (call-with-worker-thread
      (database-writer-thread-channel database)
      (lambda (db)
        (db-optimize
         db
         (database-file database)))))
   #:times 5
   #:delay 5))

(define (database-spawn-fibers database)
  (spawn-fiber
   (lambda ()
     (while #t
       (sleep (* 60 5))                 ; 5 minutes
       (with-exception-handler
           (lambda (exn)
             (simple-format (current-error-port)
                            "exception when performing WAL checkpoint: ~A\n"
                            exn))
         (lambda ()
           (database-optimize database))
         #:unwind? #t)))
   #:parallel? #t))

(define (call-with-time-tracking database thing thunk)
  (define registry (database-metrics-registry database))
  (define metric-name
    (string-append "database_" thing "_duration_seconds"))

  (if registry
      (let* ((metric
              (or (metrics-registry-fetch-metric registry metric-name)
                  (make-histogram-metric registry
                                         metric-name)))
             (start-time (get-internal-real-time)))
        (let ((result (thunk)))
          (metric-observe metric
                          (/ (- (get-internal-real-time) start-time)
                             internal-time-units-per-second))
          result))
      (thunk)))

(define %current-transaction-proc
  (make-parameter #f))

(define* (database-call-with-transaction database proc
                                          #:key
                                          readonly?)
  (define (run-proc-within-transaction db)
    (if (%current-transaction-proc)
        (proc db)                       ; already in transaction
        (begin
          (sqlite-exec db "BEGIN TRANSACTION;")
          (with-exception-handler
              (lambda (exn)
                (simple-format (current-error-port)
                               "error: sqlite rolling back transaction\n")
                (sqlite-exec db "ROLLBACK TRANSACTION;")
                (raise-exception exn))
            (lambda ()
              (call-with-values
                  (lambda ()
                    (parameterize ((%current-transaction-proc proc))
                      (proc db)))
                (lambda vals
                  (sqlite-exec db "COMMIT TRANSACTION;")
                  (apply values vals))))))))

  (match (call-with-worker-thread
          ((if readonly?
               database-reader-thread-channel
               database-writer-thread-channel)
           database)
          (lambda (db)
            (let ((start-time (get-internal-real-time)))
              (call-with-values
                  (lambda ()
                    (run-proc-within-transaction db))
                (lambda vals
                  (let ((duration-seconds
                         (/ (- (get-internal-real-time) start-time)
                            internal-time-units-per-second)))
                    (when (and (not readonly?)
                               (> duration-seconds 2))
                      (display
                       (format
                        #f
                        "warning: ~a:\n  took ~4f seconds in transaction\n"
                        proc
                        duration-seconds)
                       (current-error-port)))

                    (cons duration-seconds vals)))))))
    ((duration vals ...)
     (apply values vals))))

(define (dump-database database name)
  (call-with-worker-thread
   (database-reader-thread-channel database)
   (lambda (db)
     (sqlite-exec
      db
      (string-append "VACUUM INTO '" name "';")))))

(define (last-insert-rowid db)
  (let ((statement
         (sqlite-prepare
          db
          "SELECT last_insert_rowid();"
          #:cache? #t)))
    (let ((id
           (vector-ref (sqlite-step statement)
                       0)))

      (sqlite-reset statement)

      id)))

(define (changes db)
  (let ((statement
         (sqlite-prepare
          db
          "SELECT changes()"
          #:cache? #t)))
    (let ((id
           (vector-ref (sqlite-step statement)
                       0)))

      (sqlite-reset statement)

      id)))

(define (tag->tag-id db key value)
  (define (insert-tag)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO tags (key, value) VALUES (:key, :value)"
            #:cache? #t)))

      (sqlite-bind-arguments
       statement
       #:key key
       #:value value)

      (sqlite-step statement)
      (sqlite-reset statement)

      (last-insert-rowid db)))

  (let ((statement
         (sqlite-prepare
          db
          "
SELECT id FROM tags WHERE key = :key AND value = :value"
          #:cache? #t)))

    (sqlite-bind-arguments
     statement
     #:key key
     #:value value)

    (match (let ((result (sqlite-step statement)))
             (sqlite-reset statement)
             result)
      (#f
       (insert-tag))
      (#(id)
       id))))

(define* (database-insert-narinfo database narinfo
                                  #:key change-datetime
                                  (tags '()))
  (define (insert-narinfo-record db)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO narinfos (
  store_path, nar_hash, nar_size, deriver, system, contents
) VALUES (
  :store_path, :nar_hash, :nar_size, :deriver, :system, :contents
)"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:store_path (narinfo-path narinfo)
       #:nar_hash (narinfo-hash narinfo)
       #:nar_size (narinfo-size narinfo)
       #:deriver (narinfo-deriver narinfo)
       #:system (narinfo-system narinfo)
       #:contents (narinfo-contents narinfo))

      (sqlite-step statement)
      (sqlite-reset statement)

      (last-insert-rowid db)))

  (define (insert-narinfo-file db narinfo-id size compression url)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO narinfo_files (
  narinfo_id, size, compression, url
) VALUES (
  :narinfo_id, :size, :compression, :url
)"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:narinfo_id narinfo-id
       #:size size
       #:compression compression
       #:url url)

      (sqlite-step statement)
      (sqlite-reset statement)))

  (define (insert-narinfo-references db narinfo-id store-path)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO narinfo_references (
  narinfo_id, store_path
) VALUES (
  :narinfo_id, :store_path
)"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:narinfo_id narinfo-id
       #:store_path store-path)

      (sqlite-step statement)
      (sqlite-reset statement)))

  (define (insert-change db contents)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO recent_changes (
  datetime, change, data
) VALUES (
  datetime('now'), 'addition', :contents
)"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:contents contents)

      (sqlite-step statement)
      (sqlite-reset statement)))

  (define (insert-change-with-datetime db contents datetime)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO recent_changes (
  datetime, change, data
) VALUES (
  :datetime, 'addition', :contents
)"
             #:cache? #t)))
          (sqlite-bind-arguments
           statement
           #:contents contents
           #:datetime datetime)

          (sqlite-step statement)
          (sqlite-reset statement)))

  (define (insert-tags db narinfo-id tags)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO narinfo_tags (narinfo_id, tag_id) VALUES (:narinfo_id, :tag_id)"
            #:cache? #t)))

      (map (match-lambda
             ((key . value)
              (let ((tag-id (tag->tag-id db key value)))
                (sqlite-bind-arguments
                 statement
                 #:narinfo_id narinfo-id
                 #:tag_id tag-id)

                (sqlite-step statement)
                (sqlite-reset statement))))
           tags)))

  (database-call-with-transaction
   database
   (lambda (db)
     (let ((narinfo-id (insert-narinfo-record db)))
       (let ((len (length (narinfo-uris narinfo))))
         (for-each insert-narinfo-file
                   (make-list len db)
                   (make-list len narinfo-id)
                   (narinfo-file-sizes narinfo)
                   (narinfo-compressions narinfo)
                   (map uri-path (narinfo-uris narinfo))))

       (let ((references (narinfo-references narinfo)))
         (for-each insert-narinfo-references
                   (make-list (length references) db)
                   (make-list (length references) narinfo-id)
                   references))

       (if change-datetime
           (insert-change-with-datetime db (narinfo-contents narinfo)
                                        change-datetime)
           (insert-change db (narinfo-contents narinfo)))

       (unless (null? tags)
         (insert-tags db narinfo-id tags))

       narinfo-id))))

(define* (database-remove-narinfo database store-path
                                  #:key change-datetime)
  (define (store-path->narinfo-id db)
    (let ((statement
           (sqlite-prepare
            db
            "
SELECT id FROM narinfos WHERE store_path = :store_path"
            #:cache? #t)))

      (sqlite-bind-arguments
       statement
       #:store_path store-path)

      (let ((result (vector-ref (sqlite-step statement) 0)))
        (sqlite-reset statement)

        result)))

  (define (remove-narinfo-record db id)
    (let ((statement
           (sqlite-prepare
            db
            "
DELETE FROM narinfos WHERE id = :id"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:id id)

      (sqlite-step statement)
      (sqlite-reset statement)))

  (define (remove-narinfo-files db narinfo-id)
    (let ((statement
           (sqlite-prepare
            db
            "
DELETE FROM narinfo_files WHERE narinfo_id = :narinfo_id"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:narinfo_id narinfo-id)

      (sqlite-map (const #t) statement)
      (sqlite-reset statement)))

  (define (remove-narinfo-references db narinfo-id)
    (let ((statement
           (sqlite-prepare
            db
            "
DELETE FROM narinfo_references WHERE narinfo_id = :narinfo_id"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:narinfo_id narinfo-id)

      (sqlite-map (const #t) statement)
      (sqlite-reset statement)))

  (define (insert-change db contents)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO recent_changes (
  datetime, change, data
) VALUES (
  datetime('now'), 'removal', :store_path
)"
            #:cache? #t)))
      (sqlite-bind-arguments
       statement
       #:store_path store-path)

      (sqlite-step statement)
      (sqlite-reset statement)))

  (define (insert-change-with-datetime db store-path datetime)
    (let ((statement
           (sqlite-prepare
            db
            "
INSERT INTO recent_changes (
  datetime, change, data
) VALUES (
  :datetime, 'removal', :store_path
)"
             #:cache? #t)))
          (sqlite-bind-arguments
           statement
           #:store_path store-path
           #:datetime datetime)

          (sqlite-step statement)
          (sqlite-reset statement)))

  (define (remove-tags db narinfo-id)
    (let ((statement
           (sqlite-prepare
            db
            "
DELETE FROM narinfo_tags WHERE narinfo_id = :narinfo_id"
            #:cache? #t)))

      (sqlite-bind-arguments
       statement
       #:narinfo_id narinfo-id)

      (sqlite-map (const #t) statement)
      (sqlite-reset statement)))

  (database-call-with-transaction
   database
   (lambda (db)
     (let ((narinfo-id (store-path->narinfo-id db)))
       (if change-datetime
           (insert-change-with-datetime db store-path
                                        change-datetime)
           (insert-change db store-path))

       (remove-narinfo-files db narinfo-id)
       (remove-narinfo-references db narinfo-id)
       (remove-tags db narinfo-id)
       (remove-narinfo-record db narinfo-id)

       #t))))

(define (database-select-narinfo-contents-by-hash database hash)
  (call-with-time-tracking
   database
   "select_narinfo_contents_by_hash"
   (lambda ()
     (call-with-worker-thread
      (database-reader-thread-channel database)
      (lambda (db)
        (let ((statement
               (sqlite-prepare
                db
                "
SELECT contents FROM narinfos WHERE substr(store_path, 12, 32) = :hash"
                #:cache? #t)))
          (sqlite-bind-arguments
           statement
           #:hash hash)

          (match (let ((result (sqlite-step statement)))
                   (sqlite-reset statement)
                   result)
            (#(contents) contents)
            (_ #f))))))))

(define* (database-select-recent-changes database after-date #:key (limit 8192))
  (call-with-worker-thread
   (database-reader-thread-channel database)
   (lambda (db)
     (let ((statement
            (sqlite-prepare
             db
             "
SELECT datetime, change, data FROM recent_changes WHERE datetime >= :datetime LIMIT :limit"
             #:cache? #t)))
       (sqlite-bind-arguments
        statement
        #:datetime after-date
        #:limit limit)

       (let loop ((row (sqlite-step statement))
                  (result '()))
         (match row
           (#(datetime change data)
            (loop (sqlite-step statement)
                  (cons `((datetime . ,datetime)
                          (change   . ,change)
                          (data     . ,data))
                        result)))
           (#f
            (sqlite-reset statement)

            (reverse result))))))))

(define (database-select-latest-recent-change-datetime database)
  (call-with-worker-thread
   (database-reader-thread-channel database)
   (lambda (db)
     (let ((statement
            (sqlite-prepare
             db
             "
SELECT datetime FROM recent_changes ORDER BY datetime DESC LIMIT 1"
             #:cache? #t)))

       (let ((result (match (sqlite-step statement)
                       (#(date) date)
                       (#f #f))))
         (sqlite-reset statement)

         result)))))

(define (database-get-recent-changes-id-for-deletion database limit)
  (call-with-worker-thread
   (database-reader-thread-channel database)
   (lambda (db)
     (let ((statement
            (sqlite-prepare
             db
             "
SELECT id FROM recent_changes ORDER BY datetime DESC LIMIT 1 OFFSET :offset"
             #:cache? #t)))

       (sqlite-bind-arguments
        statement
        #:offset limit)

       (let ((result (match (sqlite-step statement)
                       (#(id) id)
                       (#f #f))))
         (sqlite-reset statement)

         result)))))

(define (database-delete-recent-changes-with-id-below database id)
  (call-with-worker-thread
   (database-writer-thread-channel database)
   (lambda (db)
     (let ((statement
            (sqlite-prepare
             db
             "
DELETE FROM recent_changes WHERE id < :id"
             #:cache? #t)))

       (sqlite-bind-arguments
        statement
        #:id id)

       (sqlite-step statement)
       (sqlite-reset statement)

       (changes db)))))

(define (database-select-narinfo-for-file database narinfo-file-url)
  (call-with-worker-thread
   (database-reader-thread-channel database)
   (lambda (db)
     (let ((statement
            (sqlite-prepare
             db
             "
SELECT narinfos.store_path, narinfos.nar_hash, narinfos.nar_size,
       narinfos.deriver, narinfos.system, narinfos.contents
FROM narinfos
INNER JOIN narinfo_files
  ON narinfos.id = narinfo_files.narinfo_id
WHERE narinfo_files.url = :url"
             #:cache? #t)))

       (sqlite-bind-arguments
        statement
        #:url narinfo-file-url)

       (match (sqlite-step statement)
         (#(store-path nar-hash nar-size deriver system contents)
          (sqlite-reset statement)

          `((store-path . ,store-path)
            (nar-hash   . ,nar-hash)
            (nar-size   . ,nar-size)
            (deriver    . ,deriver)
            (system     . ,system)
            (contents   . ,contents))))))))

(define (database-select-narinfo-files database hash)
  (call-with-time-tracking
   database
   "select_narinfo_files"
   (lambda ()
     (call-with-worker-thread
      (database-reader-thread-channel database)
      (lambda (db)
        (let ((statement
               (sqlite-prepare
                db
                "
SELECT narinfo_files.size, narinfo_files.compression, narinfo_files.url
FROM narinfos
INNER JOIN narinfo_files
  ON narinfos.id = narinfo_files.narinfo_id
WHERE substr(narinfos.store_path, 12, 32) = :hash"
                #:cache? #t)))

          (sqlite-bind-arguments
           statement
           #:hash hash)

          (let ((result
                 (sqlite-map
                  (match-lambda
                    (#(size compression url)
                     `((size        . ,size)
                       (compression . ,compression)
                       (url         . ,url))))
                  statement)))
            (sqlite-reset statement)

            result)))))))

(define (database-map-all-narinfo-files database proc)
  (call-with-worker-thread
   (database-reader-thread-channel database)
   (lambda (db)
     (let ((statement
            (sqlite-prepare
             db
             "
SELECT size, compression, url
FROM narinfo_files"
             #:cache? #t)))
       (let ((result-list
              (sqlite-fold
               (lambda (row result)
                 (match row
                   (#(size compression url)
                    (cons (proc `((size        . ,size)
                                  (compression . ,compression)
                                  (url         . ,url)))
                          result))))
               '()
               statement)))
         (sqlite-reset statement)

         result-list)))))