;;======================================================================
;; Copyright 2006-2011, Matthew Welland.
;;
;; This program is made available under the GNU GPL version 2.0 or
;; greater. See the accompanying file COPYING for details.
;;
;; This program is distributed WITHOUT ANY WARRANTY; without even the
;; implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
;; PURPOSE.
;;======================================================================
;;======================================================================
;; Database access
;;======================================================================
(define (open-db) ;; (conc *toppath* "/megatest.db") (car *configinfo*)))
(let* ((dbpath (conc *toppath* "/megatest.db")) ;; fname)
(configdat (car *configinfo*))
(dbexists (file-exists? dbpath))
(db (sqlite3:open-database dbpath)) ;; (never-give-up-open-db dbpath))
(handler (make-busy-timeout 36000)))
(sqlite3:set-busy-handler! db handler)
(if (not dbexists)
(let* ((keys (config-get-fields configdat))
(havekeys (> (length keys) 0))
(keystr (keys->keystr keys))
(fieldstr (keys->key/field keys)))
;; (sqlite3:execute db "PRAGMA synchronous = OFF;")
(sqlite3:execute db "CREATE TABLE keys (id INTEGER PRIMARY KEY, fieldname TEXT, fieldtype TEXT, CONSTRAINT keyconstraint UNIQUE (fieldname));")
(for-each (lambda (key)
(sqlite3:execute db "INSERT INTO keys (fieldname,fieldtype) VALUES (?,?);" (key:get-fieldname key)(key:get-fieldtype key)))
keys)
(sqlite3:execute db (conc
"CREATE TABLE runs (id INTEGER PRIMARY KEY, "
fieldstr (if havekeys "," "")
"runname TEXT,"
"state TEXT DEFAULT '',"
"status TEXT DEFAULT '',"
"owner TEXT DEFAULT '',"
"event_time TIMESTAMP,"
"comment TEXT DEFAULT '',"
"CONSTRAINT runsconstraint UNIQUE (runname" (if havekeys "," "") keystr "));"))
(sqlite3:execute db (conc "CREATE INDEX runs_index ON runs (runname" (if havekeys "," "") keystr ");"))
(sqlite3:execute db
"CREATE TABLE tests
(id INTEGER PRIMARY KEY,
run_id INTEGER,
testname TEXT,
itempath TEXT,
host TEXT DEFAULT 'n/a',
cpuload REAL DEFAULT -1,
diskfree INTEGER DEFAULT -1,
uname TEXT DEFAULT 'n/a',
rundir TEXT DEFAULT 'n/a',
item_path TEXT DEFAULT '',
state TEXT DEFAULT 'NOT_STARTED',
status TEXT DEFAULT 'n/a',
attemptnum INTEGER DEFAULT 0,
final_logf TEXT DEFAULT 'logs/final.log',
logdat BLOB,
run_duration INTEGER DEFAULT 0,
comment TEXT DEFAULT '',
event_time TIMESTAMP,
CONSTRAINT testsconstraint UNIQUE (run_id, testname, item_path)
);")
(sqlite3:execute db "CREATE INDEX tests_index ON tests (run_id, testname);")
(sqlite3:execute db "CREATE VIEW runs_tests AS SELECT * FROM runs INNER JOIN tests ON runs.id=tests.run_id;")
(sqlite3:execute db "CREATE TABLE test_steps
(id INTEGER PRIMARY KEY,
test_id INTEGER,
stepname TEXT,
state TEXT DEFAULT 'NOT_STARTED',
status TEXT DEFAULT 'n/a',event_time TIMESTAMP,
comment TEXT DEFAULT '',
CONSTRAINT test_steps_constraint UNIQUE (test_id,stepname,state));")
(sqlite3:execute db "CREATE TABLE extradat (id INTEGER PRIMARY KEY, run_id INTEGER, key TEXT, val TEXT);")
(sqlite3:execute db "CREATE TABLE access_log (id INTEGER PRIMARY KEY, user TEXT, accessed TIMESTAMP, args TEXT);")))
db))
;; (if (args:get-arg "-db")
;; (set! db (open-db (args:get-arg "-db"))))
;; TODO
;;
;; 1. Implement basic registering of records
;; 2. Implement basic querying of records
;; eh?
(define (db-get-keys db)
(let ((res '()))
(sqlite3:for-each-row
(lambda (key keytype)
(set! res (cons (vector key keytype) res)))
db
"SELECT fieldname,fieldtype FROM keys ORDER BY id DESC;")
res))
(define-inline (db:get-header vec)(vector-ref vec 0))
(define-inline (db:get-rows vec)(vector-ref vec 1))
(define (db-get-value-by-header row header field)
(if (null? header) #f
(let loop ((hed (car header))
(tal (cdr header))
(n 0))
(if (equal? hed field)
(vector-ref row n)
(if (null? tal) #f (loop (car tal)(cdr tal)(+ n 1)))))))
(define (db-get-runs db runpatt . count)
(let* ((res '())
(keys (db-get-keys db))
(remfields (list "id" "runname" "state" "status" "owner" "event_time"))
(header (append (map key:get-fieldname keys)
remfields))
(keystr (conc (keys->keystr keys) ","
(string-intersperse remfields ","))))
(sqlite3:for-each-row
(lambda (a . x)
(set! res (cons (apply vector a x) res)))
db
(conc "SELECT " keystr " FROM runs WHERE runname LIKE ? ORDER BY event_time DESC "
(if (and (not (null? count))
(number? (car count)))
(conc " LIMIT " (car count))
"")
(if (and (> (length count) 1)
(number? (cadr count)))
(conc " OFFSET " (cadr count))
""))
runpatt)
(vector header res)))
;; use this one for db-get-run-info
(define-inline (db:get-row vec)(vector-ref vec 1))
;; use (get-value-by-header (db:get-header runinfo)(db:get-row runinfo))
(define (db-get-run-info db run-id)
(let* ((res #f)
(keys (db-get-keys db))
(remfields (list "id" "runname" "state" "status" "owner" "event_time"))
(header (append (map key:get-fieldname keys)
remfields))
(keystr (conc (keys->keystr keys) ","
(string-intersperse remfields ","))))
(sqlite3:for-each-row
(lambda (a . x)
(set! res (apply vector a x)))
db
(conc "SELECT " keystr " FROM runs WHERE id=?;")
run-id)
(vector header res)))
;;======================================================================
;; T E S T S
;;======================================================================
(define (make-db:test)(make-vector 6))
(define-inline (db:test-get-id vec) (vector-ref vec 0))
(define-inline (db:test-get-run_id vec) (vector-ref vec 1))
(define-inline (db:test-get-testname vec) (vector-ref vec 2))
(define-inline (db:test-get-state vec) (vector-ref vec 3))
(define-inline (db:test-get-status vec) (vector-ref vec 4))
(define-inline (db:test-get-event_time vec) (vector-ref vec 5))
(define-inline (db:test-get-host vec) (vector-ref vec 6))
(define-inline (db:test-get-cpuload vec) (vector-ref vec 7))
(define-inline (db:test-get-diskfree vec) (vector-ref vec 8))
(define-inline (db:test-get-uname vec) (vector-ref vec 9))
(define-inline (db:test-get-rundir vec) (vector-ref vec 10))
(define-inline (db:test-get-item-path vec) (vector-ref vec 11))
(define-inline (db:test-get-run_duration vec) (vector-ref vec 12))
(define-inline (db:test-get-final_logf vec) (vector-ref vec 13))
(define-inline (db:test-get-comment vec) (vector-ref vec 14))
(define (db-get-tests-for-run db run-id . params)
(let ((res '())
(testpatt (if (or (null? params)(not (car params))) "%" (car params)))
(itempatt (if (> (length params) 1)(cadr params) "%")))
(sqlite3:for-each-row
(lambda (id run-id testname state status event-time host cpuload diskfree uname rundir item-path run-duration final-logf comment)
(set! res (cons (vector id run-id testname state status event-time host cpuload diskfree uname rundir item-path run-duration final-logf comment) res)))
db
"SELECT id,run_id,testname,state,status,event_time,host,cpuload,diskfree,uname,rundir,item_path,run_duration,final_logf,comment FROM tests WHERE run_id=? AND testname like ? AND item_path LIKE ? ORDER BY id DESC;"
run-id testpatt (if itempatt itempatt "%"))
res))
(define (db:delete-test-step-records db run-id test-name)
(sqlite3:execute db "DELETE FROM test_steps WHERE test_id in (SELECT id FROM tests WHERE run_id=? AND testname=?);" run-id test-name))
(define (db:get-count-tests-running db)
(let ((res 0))
(sqlite3:for-each-row
(lambda (count)
(set! res count))
db
"SELECT count(id) FROM tests WHERE state = 'RUNNING' OR state = 'LAUNCHED' OR state = 'REMOTEHOSTSTART';")
res))
;; NB// Sync this with runs:get-test-info
(define (db:get-test-info db run-id testname item-path)
(let ((res '()))
(sqlite3:for-each-row
(lambda (id run-id testname state status event-time host cpuload diskfree uname rundir item-path run_duration final_logf comment)
(set! res (vector id run-id testname state status event-time host cpuload diskfree uname rundir item-path run_duration final_logf comment)))
db
"SELECT id,run_id,testname,state,status,event_time,host,cpuload,diskfree,uname,rundir,item_path,run_duration,final_logf,comment FROM tests WHERE run_id=? AND testname=? AND item_path=?;"
run-id testname item-path)
res))
;; Steps
;; Run steps
;; make-vector-record "Run steps" db step id test_id stepname step_complete step_pass event_time
(define (make-db:step)(make-vector 6))
(define-inline (db:step-get-id vec) (vector-ref vec 0))
(define-inline (db:step-get-test_id vec) (vector-ref vec 1))
(define-inline (db:step-get-stepname vec) (vector-ref vec 2))
(define-inline (db:step-get-state vec) (vector-ref vec 3))
(define-inline (db:step-get-status vec) (vector-ref vec 4))
(define-inline (db:step-get-event_time vec) (vector-ref vec 5))
(define-inline (db:step-set-id! vec val)(vector-set! vec 0 val))
(define-inline (db:step-set-test_id! vec val)(vector-set! vec 1 val))
(define-inline (db:step-set-stepname! vec val)(vector-set! vec 2 val))
(define-inline (db:step-set-state! vec val)(vector-set! vec 3 val))
(define-inline (db:step-set-status! vec val)(vector-set! vec 4 val))
(define-inline (db:step-set-event_time! vec val)(vector-set! vec 5 val))
(define (db-get-test-steps-for-run db test-id)
(let ((res '()))
(sqlite3:for-each-row
(lambda (id test-id stepname state status event-time)
(set! res (cons (vector id test-id stepname state status event-time) res)))
db
"SELECT id,test_id,stepname,state,status,event_time FROM test_steps WHERE test_id=? ORDER BY event_time DESC;"
test-id)
res))
;; check that *all* the prereqs are "COMPLETED"
(define (db-get-prereqs-met db run-id waiton)
(let ((res #f)
(not-complete 0)
(tests (db-get-tests-for-run db run-id)))
(for-each
(lambda (test-name)
(for-each
(lambda (test)
(if (equal? (db:test-get-testname test) test-name)
(begin
(set! res #t)
(if (not (equal? (db:test-get-state test) "COMPLETED"))
(set! not-complete (+ 1 not-complete))))))
tests))
waiton)
(and (or (null? waiton) res)
(eq? not-complete 0))))
;; USE: (lset-difference string=? '("a" "b" "c") '("d" "c" "e" "a"))
;;
;; Return a list of prereqs that were NOT met
;; Tests (and all items) in waiton list must be "COMPLETED" and "PASS"
(define (db-get-prereqs-not-met db run-id waiton)
(if (null? waiton)
'()
(let* ((unmet-pre-reqs '())
(tests (db-get-tests-for-run db run-id))
(result '()))
(for-each (lambda (waitontest-name)
(let ((ever-seen #f))
(for-each (lambda (test)
(if (equal? waitontest-name (db:test-get-testname test))
(begin
(set! ever-seen #t)
(if (not (and (equal? (db:test-get-state test) "COMPLETED")
(equal? (db:test-get-status test) "PASS")))
(set! result (cons waitontest-name result))))))
tests)
(if (not ever-seen)(set! result (cons waitontest-name result)))))
waiton)
(delete-duplicates result))))
;;
;; ;; subtract from the waiton list the "COMPLETED" tests
;; ;;(completed-tests (filter (lambda (x)
;; ;; (equal? (db:test-get-state x) "COMPLETED"))
;; ;; tests))
;; (completed-tests (let ((non-completed (make-hash-table)))
;; (for-each (lambda (x)
;; ;; could add check for PASS here
;; (if (not (and (equal? (db:test-get-state x) "COMPLETED")
;; (equal? (db:test-get-status x) "PASS")))
;; (hash-table-set! non-completed (db:test-get-testname x) x)))
;; ;; (print "Completed: " (db:test-get-testname x))))
;; tests)
;; (filter (lambda (x)
;; (not (hash-table-ref/default non-completed (db:test-get-testname x) #f)))
;; tests)))
;; (pre-dep-names (map db:test-get-testname completed-tests))
;; (result (lset-difference string=? waiton pre-dep-names)))
;; (print "pre-dep-names: " pre-dep-names " waiton: " waiton " result: " result)