;;======================================================================
;; Copyright 2006-2013, Matthew Welland.
;;
;; This file is part of Megatest.
;;
;; Megatest is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;;
;; Megatest 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 General Public License for more details.
;;
;; You should have received a copy of the GNU General Public License
;; along with Megatest. If not, see <http://www.gnu.org/licenses/>.
;;
;;======================================================================
;;======================================================================
;; Database access
;;======================================================================
(require-extension (srfi 18) extras tcp)
(use sqlite3 srfi-1 posix regex regex-case srfi-69 csv-xml s11n md5 message-digest base64)
(import (prefix sqlite3 sqlite3:))
(import (prefix base64 base64:))
(declare (unit tdb))
(declare (uses common))
(declare (uses keys))
(declare (uses client))
(declare (uses mt))
(declare (uses db))
(declare (uses commonmod))
(import commonmod)
(declare (uses dbmod))
(import dbmod)
(declare (uses ods))
(import ods)
(include "common_records.scm")
(include "db_records.scm")
(include "key_records.scm")
(include "run_records.scm")
;;======================================================================
;;
;; T E S T D A T A B A S E S
;;
;;======================================================================
;;======================================================================
;; T E S T S P E C I F I C D B
;;======================================================================
;; Create the sqlite db for the individual test(s)
;;
;; Moved these tables into <runid>.db
;; THIS CODE TO BE REMOVED
;;
(define (open-test-db work-area)
(debug:print-info 11 *default-log-port* "open-test-db " work-area)
(if (and work-area
(directory? work-area)
(file-read-access? work-area))
(let* ((dbpath (conc work-area "/testdat.db"))
(dbexists (common:file-exists? dbpath))
(work-area-writeable (file-write-access? work-area))
(db (handle-exceptions ;; open the db if area writeable or db pre-existing. open in-mem otherwise. if exception, open in-mem
exn
(begin
(print-call-chain (current-error-port))
(debug:print 2 *default-log-port* "ERROR: problem accessing test db " work-area ", you probably should clean and re-run this test"
((condition-property-accessor 'exn 'message) exn))
(set! dbexists #f) ;; must force re-creation of tables, more tom-foolery
(sqlite3:open-database ":memory:")) ;; open an in-memory db to allow readonly access
(if (or work-area-writeable
dbexists)
(sqlite3:open-database dbpath)
(sqlite3:open-database ":memory:"))))
(tdb-writeable (and (file-write-access? work-area)
(file-write-access? dbpath)))
(handler (sqlite3:make-busy-timeout (if (args:get-arg "-override-timeout")
(string->number (args:get-arg "-override-timeout"))
136000))))
(if (and tdb-writeable
*db-write-access*)
(sqlite3:set-busy-handler! db handler))
(if (not dbexists)
(begin
(db:set-sync db) ;; (sqlite3:execute db "PRAGMA synchronous = FULL;")
(debug:print-info 11 *default-log-port* "Initialized test database " dbpath)
(tdb:testdb-initialize db)))
;; (sqlite3:execute db "PRAGMA synchronous = 0;")
(debug:print-info 11 *default-log-port* "open-test-db END (sucessful)" work-area)
;; now let's test that everything is correct
(handle-exceptions
exn
(begin
(print-call-chain (current-error-port))
(debug:print-error 0 *default-log-port* "problem accessing test db " work-area ", you probably should clean and re-run this test or remove the file "
dbpath ".\n "
((condition-property-accessor 'exn 'message) exn))
#f)
;; Is there a cheaper single line operation that will check for existance of a table
;; and raise an exception ?
(sqlite3:execute db "SELECT id FROM test_data LIMIT 1;"))
db)
;; no work-area or not readable - create a placeholder to fake rest of world out
(let ((baddb (sqlite3:open-database ":memory:")))
(debug:print-info 11 *default-log-port* "open-test-db END (unsucessful)" work-area)
;; provide an in-mem db (this is dangerous!)
(tdb:testdb-initialize baddb)
baddb)))
;; find and open the testdat.db file for an existing test
(define (tdb:open-test-db-by-test-id test-id #!key (work-area #f))
(let* ((test-path (if work-area
work-area
(rmt:test-get-rundir-from-test-id test-id))))
(debug:print 3 *default-log-port* "TEST PATH: " test-path)
(open-test-db test-path)))
;; find and open the testdat.db file for an existing test
(define (tdb:open-test-db-by-test-id-local dbstruct run-id test-id #!key (work-area #f))
(let* ((test-path (if work-area
work-area
(db:test-get-rundir-from-test-id dbstruct run-id test-id))))
(debug:print 3 *default-log-port* "TEST PATH: " test-path)
(open-test-db test-path)))
;; find and open the testdat.db file for an existing test
(define (tdb:open-run-close-db-by-test-id-local dbstruct run-id test-id work-area proc . params)
(let* ((test-path (if work-area
work-area
(db:test-get-rundir-from-test-id dbstruct run-id test-id)))
(tdb (open-test-db test-path)))
(apply proc tdb params)))
(define (tdb:testdb-initialize db)
(debug:print 11 *default-log-port* "db:testdb-initialize START")
(sqlite3:with-transaction
db
(lambda ()
(for-each
(lambda (sqlcmd)
(sqlite3:execute db sqlcmd))
(list "CREATE TABLE IF NOT EXISTS test_rundat (
id INTEGER PRIMARY KEY,
update_time TIMESTAMP,
cpuload INTEGER DEFAULT -1,
diskfree INTEGER DEFAULT -1,
diskusage INTGER DEFAULT -1,
run_duration INTEGER DEFAULT 0);"
"CREATE TABLE IF NOT EXISTS test_data (
id INTEGER PRIMARY KEY,
test_id INTEGER,
category TEXT DEFAULT '',
variable TEXT,
value REAL,
expected REAL,
tol REAL,
units TEXT,
comment TEXT DEFAULT '',
status TEXT DEFAULT 'n/a',
type TEXT DEFAULT '',
CONSTRAINT test_data_constraint UNIQUE (test_id,category,variable));"
"CREATE TABLE IF NOT EXISTS 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 '',
logfile TEXT DEFAULT '',
CONSTRAINT test_steps_constraint UNIQUE (test_id,stepname,state));"
;; test_meta can be used for handing commands to the test
;; e.g. KILLREQ
;; the ackstate is set to 1 once the command has been completed
"CREATE TABLE IF NOT EXISTS test_meta (
id INTEGER PRIMARY KEY,
var TEXT,
val TEXT,
ackstate INTEGER DEFAULT 0,
CONSTRAINT metadat_constraint UNIQUE (var));"))))
(debug:print 11 *default-log-port* "db:testdb-initialize END"))
;; This routine moved to db:read-test-data
;;
(define (tdb:read-test-data tdb test-id categorypatt)
(let ((res '()))
(sqlite3:for-each-row
(lambda (id test_id category variable value expected tol units comment status type)
(set! res (cons (vector id test_id category variable value expected tol units comment status type) res)))
tdb
"SELECT id,test_id,category,variable,value,expected,tol,units,comment,status,type FROM test_data WHERE test_id=? AND category LIKE ? ORDER BY category,variable;" test-id categorypatt)
(sqlite3:finalize! tdb)
(reverse res)))
;;======================================================================
;; T E S T D A T A
;;======================================================================
;; ;; get a list of test_data records matching categorypatt
;; (define (tdb:read-test-data test-id categorypatt #!key (work-area #f))
;; (let ((tdb (tdb:open-test-db-by-test-id test-id work-area: work-area)))
;; (if (sqlite3:database? tdb)
;; (let ((res '()))
;; (sqlite3:for-each-row
;; (lambda (id test_id category variable value expected tol units comment status type)
;; (set! res (cons (vector id test_id category variable value expected tol units comment status type) res)))
;; tdb
;; "SELECT id,test_id,category,variable,value,expected,tol,units,comment,status,type FROM test_data WHERE test_id=? AND category LIKE ? ORDER BY category,variable;" test-id categorypatt)
;; (sqlite3:finalize! tdb)
;; (reverse res))
;; '())))
;; NOTE: Run this local with #f for db !!!
(define (tdb:load-test-data run-id test-id)
(let loop ((lin (read-line)))
(if (not (eof-object? lin))
(begin
(debug:print 4 *default-log-port* lin)
;;(when lin ;; this when blocked stack dump caused by .dat file from logpro being 0-byte. fixed by upgrading logpro
(rmt:csv->test-data run-id test-id lin)
;;)
(loop (read-line)))))
;; roll up the current results.
;; FIXME: Add the status too
(rmt:test-data-rollup run-id test-id #f))
;; NOTE: Run this local with #f for db !!!
(define (tdb:load-logpro-data run-id test-id)
(let loop ((lin (read-line)))
(if (not (eof-object? lin))
(begin
(debug:print 4 *default-log-port* lin)
;;(when lin ;; this when blocked stack dump caused by .dat file from logpro being 0-byte. fixed by upgrading logpro
(rmt:csv->test-data run-id test-id lin)
;;)
(loop (read-line)))))
;; roll up the current results.
;; FIXME: Add the status too
(rmt:test-data-rollup run-id test-id #f))
;;======================================================================
;; S T E P S
;;======================================================================
(define (tdb:step-get-time-as-string vec)
(seconds->time-string (tdb:step-get-event_time vec)))
;; get a pretty table to summarize steps
;;
;; NOT USED, WILL BE REMOVED
;;
(define (tdb:get-steps-table steps);; organise the steps for better readability
(let ((res (make-hash-table)))
(for-each
(lambda (step)
(debug:print 6 *default-log-port* "step=" step)
(let ((record (hash-table-ref/default
res
(tdb:step-get-stepname step)
;; stepname start end status Duration Logfile
(vector (tdb:step-get-stepname step) "" "" "" "" ""))))
(debug:print 6 *default-log-port* "record(before) = " record
"\nid: " (tdb:step-get-id step)
"\nstepname: " (tdb:step-get-stepname step)
"\nstate: " (tdb:step-get-state step)
"\nstatus: " (tdb:step-get-status step)
"\ntime: " (tdb:step-get-event_time step))
(case (string->symbol (tdb:step-get-state step))
((start)(vector-set! record 1 (tdb:step-get-event_time step))
(vector-set! record 3 (if (equal? (vector-ref record 3) "")
(tdb:step-get-status step)))
(if (> (string-length (tdb:step-get-logfile step))
0)
(vector-set! record 5 (tdb:step-get-logfile step))))
((end)
(vector-set! record 2 (any->number (tdb:step-get-event_time step)))
(vector-set! record 3 (tdb:step-get-status step))
(vector-set! record 4 (let ((startt (any->number (vector-ref record 1)))
(endt (any->number (vector-ref record 2))))
(debug:print 4 *default-log-port* "record[1]=" (vector-ref record 1)
", startt=" startt ", endt=" endt
", get-status: " (tdb:step-get-status step))
(if (and (number? startt)(number? endt))
(seconds->hr-min-sec (- endt startt)) "-1")))
(if (> (string-length (tdb:step-get-logfile step))
0)
(vector-set! record 5 (tdb:step-get-logfile step))))
(else
(vector-set! record 2 (tdb:step-get-state step))
(vector-set! record 3 (tdb:step-get-status step))
(vector-set! record 4 (tdb:step-get-event_time step))))
(hash-table-set! res (tdb:step-get-stepname step) record)
(debug:print 6 *default-log-port* "record(after) = " record
"\nid: " (tdb:step-get-id step)
"\nstepname: " (tdb:step-get-stepname step)
"\nstate: " (tdb:step-get-state step)
"\nstatus: " (tdb:step-get-status step)
"\ntime: " (tdb:step-get-event_time step))))
;; (else (vector-set! record 1 (tdb:step-get-event_time step)))
(sort steps (lambda (a b)
(cond
((< (tdb:step-get-event_time a)(tdb:step-get-event_time b)) #t)
((eq? (tdb:step-get-event_time a)(tdb:step-get-event_time b))
(< (tdb:step-get-id a) (tdb:step-get-id b)))
(else #f)))))
res))
;; Move this to steps.scm
;;
;; get a pretty table to summarize steps
;;
(define (tdb:get-steps-table-list steps)
;; organise the steps for better readability
(let ((res (make-hash-table)))
(for-each
(lambda (step)
(debug:print 6 *default-log-port* "step=" step)
(let ((record (hash-table-ref/default
res
(tdb:step-get-stepname step)
;; stepname start end status
(vector (tdb:step-get-stepname step) "" "" "" "" ""))))
(debug:print 6 *default-log-port* "record(before) = " record
"\nid: " (tdb:step-get-id step)
"\nstepname: " (tdb:step-get-stepname step)
"\nstate: " (tdb:step-get-state step)
"\nstatus: " (tdb:step-get-status step)
"\ntime: " (tdb:step-get-event_time step))
(case (string->symbol (tdb:step-get-state step))
((start)(vector-set! record 1 (tdb:step-get-event_time step))
(vector-set! record 3 (if (equal? (vector-ref record 3) "")
(tdb:step-get-status step)))
(if (> (string-length (tdb:step-get-logfile step))
0)
(vector-set! record 5 (tdb:step-get-logfile step))))
((end)
(vector-set! record 2 (any->number (tdb:step-get-event_time step)))
(vector-set! record 3 (tdb:step-get-status step))
(vector-set! record 4 (let ((startt (any->number (vector-ref record 1)))
(endt (any->number (vector-ref record 2))))
(debug:print 4 *default-log-port* "record[1]=" (vector-ref record 1)
", startt=" startt ", endt=" endt
", get-status: " (tdb:step-get-status step))
(if (and (number? startt)(number? endt))
(seconds->hr-min-sec (- endt startt)) "-1")))
(if (> (string-length (tdb:step-get-logfile step))
0)
(vector-set! record 5 (tdb:step-get-logfile step))))
(else
(vector-set! record 2 (tdb:step-get-state step))
(vector-set! record 3 (tdb:step-get-status step))
(vector-set! record 4 (tdb:step-get-event_time step))))
(hash-table-set! res (tdb:step-get-stepname step) record)
(debug:print 6 *default-log-port* "record(after) = " record
"\nid: " (tdb:step-get-id step)
"\nstepname: " (tdb:step-get-stepname step)
"\nstate: " (tdb:step-get-state step)
"\nstatus: " (tdb:step-get-status step)
"\ntime: " (tdb:step-get-event_time step))))
;; (else (vector-set! record 1 (tdb:step-get-event_time step)))
(sort steps (lambda (a b)
(cond
((< (tdb:step-get-event_time a)(tdb:step-get-event_time b)) #t)
((eq? (tdb:step-get-event_time a)(tdb:step-get-event_time b))
(< (tdb:step-get-id a) (tdb:step-get-id b)))
(else #f)))))
res))
;;
;; Move to steps.scm
;;
(define (tdb:get-compressed-steps comprsteps) ;; from tdb:get-steps-table
(map (lambda (x)
;; take advantage of the \n on time->string
(vector
(vector-ref x 0)
(let ((s (vector-ref x 1)))
(if (number? s)(seconds->time-string s) s))
(let ((s (vector-ref x 2)))
(if (number? s)(seconds->time-string s) s))
(vector-ref x 3) ;; status
(vector-ref x 4)
(vector-ref x 5))) ;; time delta
(sort (hash-table-values comprsteps)
(lambda (a b)
(let ((time-a (vector-ref a 1))
(time-b (vector-ref b 1)))
(if (and (number? time-a)(number? time-b))
(if (< time-a time-b)
#t
(if (eq? time-a time-b)
(string<? (conc (vector-ref a 2))
(conc (vector-ref b 2)))
#f))
(string<? (conc time-a)(conc time-b))))))))
;;
(define (tdb:remote-update-testdat-meta-info run-id test-id work-area cpuload diskfree minutes)
(let ((tdb (rmt:open-test-db-by-test-id run-id test-id work-area: work-area)))
(if (sqlite3:database? tdb)
(begin
(sqlite3:execute tdb "INSERT INTO test_rundat (update_time,cpuload,diskfree,run_duration) VALUES (strftime('%s','now'),?,?,?);"
cpuload diskfree minutes)
(sqlite3:finalize! tdb))
(debug:print 2 *default-log-port* "Can't update testdat.db for test " test-id " read-only or non-existant"))))