;;======================================================================
;; Copyright 2006-2012, 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
;;======================================================================
(require-extension (srfi 18) extras tcp) ;; rpc)
;; (import (prefix rpc rpc:))
(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:))
;; Note, try to remove this dependency
;; (use zmq)
(declare (unit db))
(declare (uses common))
(declare (uses keys))
(declare (uses ods))
(declare (uses fs-transport))
(declare (uses client))
(include "common_records.scm")
(include "db_records.scm")
(include "key_records.scm")
(include "run_records.scm")
;; timestamp type (val1 val2 ...)
;; type: meta-info, step
(define *incoming-writes* '())
(define *completed-writes* (make-hash-table))
(define *incoming-last-time* (current-seconds))
(define *incoming-mutex* (make-mutex))
(define *completed-mutex* (make-mutex))
(define *cache-on* #f)
(define (db:set-sync db)
(let* ((syncval (config-lookup *configdat* "setup" "synchronous"))
(val (cond ;; 0 | OFF | 1 | NORMAL | 2 | FULL;
((not syncval) #f)
((string->number syncval)
(let ((val (string->number syncval)))
(if (member val '(0 1 2)) val #f)))
((string-match (regexp "yes" #t) syncval) 1)
((string-match (regexp "no" #t) syncval) 0)
((string-match (regexp "(off|normal|full)" #t) syncval) syncval)
(else
(debug:print 0 "ERROR: synchronous must be 0,1,2,OFF,NORMAL or FULL, you provided: " syncval)
#f))))
(if val
(begin
(debug:print-info 9 "db:set-sync, setting pragma synchronous to " val)
(sqlite3:execute db (conc "PRAGMA synchronous = '" val "';"))))))
(define (open-db) ;; (conc *toppath* "/megatest.db") (car *configinfo*)))
(if (not *toppath*)
(if (not (setup-for-run))
(begin
(debug:print 0 "ERROR: Attempted to open db when not in megatest area. Exiting.")
(exit))))
(let* ((dbpath (conc *toppath* "/megatest.db")) ;; fname)
(dbexists (file-exists? dbpath))
(db (sqlite3:open-database dbpath)) ;; (never-give-up-open-db dbpath))
(handler (make-busy-timeout (if (args:get-arg "-override-timeout")
(string->number (args:get-arg "-override-timeout"))
136000)))) ;; 136000))) ;; 136000 = 2.2 minutes
(debug:print-info 11 "open-db, dbpath=" dbpath " argv=" (argv))
(sqlite3:set-busy-handler! db handler)
(if (not dbexists)
(db:initialize db))
(db:set-sync db)
db))
;; keeping it around for debugging purposes only
(define (open-run-close-no-exception-handling proc idb . params)
(debug:print-info 11 "open-run-close-no-exception-handling START given a db=" (if idb "yes " "no ") ", params=" params)
(let* ((db (if idb
(if (procedure? idb)
(idb)
idb)
(open-db)))
(res #f))
(set! res (apply proc db params))
(if (not idb)(sqlite3:finalize! db))
(debug:print-info 11 "open-run-close-no-exception-handling END" )
res))
(define (open-run-close-exception-handling proc idb . params)
(handle-exceptions
exn
(begin
(debug:print 0 "EXCEPTION: database probably overloaded?")
(debug:print 0 " " ((condition-property-accessor 'exn 'message) exn))
(print-call-chain)
(thread-sleep! (random 120))
(debug:print-info 0 "trying db call one more time....")
(apply open-run-close-no-exception-handling proc idb params))
(apply open-run-close-no-exception-handling proc idb params)))
;; (define open-run-close open-run-close-exception-handling)
(define open-run-close open-run-close-no-exception-handling)
(define *global-delta* 0)
(define *last-global-delta-printed* 0)
(define (open-run-close-measure proc idb . params)
(debug:print-info 11 "open-run-close-measure START, idb=" idb ", params=" params)
(let* ((start-ms (current-milliseconds))
(db (if idb idb (open-db)))
(throttle (string->number (config-lookup *configdat* "setup" "throttle"))))
;; (db:set-sync db)
(set! res (apply proc db params))
(if (not idb)(sqlite3:finalize! db))
;; scale by 10, average with current value.
(set! *global-delta* (/ (+ *global-delta* (* (- (current-milliseconds) start-ms)
(if throttle throttle 0.01)))
2))
(if (> (abs (- *last-global-delta-printed* *global-delta*)) 0.08) ;; don't print all the time, only if it changes a bit
(begin
(debug:print-info 1 "launch throttle factor=" *global-delta*)
(set! *last-global-delta-printed* *global-delta*)))
(debug:print-info 11 "open-run-close-measure END" )
res))
(define (db:initialize db)
(debug:print-info 11 "db:initialize START")
(let* ((configdat (car *configinfo*)) ;; tut tut, global warning...
(keys (config-get-fields configdat))
(havekeys (> (length keys) 0))
(keystr (keys->keystr keys))
(fieldstr (keys->key/field keys)))
(for-each (lambda (key)
(let ((keyn (vector-ref key 0)))
(if (member (string-downcase keyn)
(list "runname" "state" "status" "owner" "event_time" "comment" "fail_count"
"pass_count"))
(begin
(print "ERROR: your key cannot be named " keyn " as this conflicts with the same named field in the runs table")
(system (conc "rm -f " dbpath))
(exit 1)))))
keys)
;; (sqlite3:execute db "PRAGMA synchronous = OFF;")
(db:set-sync db)
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS 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 IF NOT EXISTS 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 '',"
"fail_count INTEGER DEFAULT 0,"
"pass_count INTEGER DEFAULT 0,"
"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 IF NOT EXISTS tests
(id INTEGER PRIMARY KEY,
run_id INTEGER,
testname TEXT,
host TEXT DEFAULT 'n/a',
cpuload REAL DEFAULT -1,
diskfree INTEGER DEFAULT -1,
uname TEXT DEFAULT 'n/a',
rundir TEXT DEFAULT 'n/a',
shortdir TEXT DEFAULT '',
item_path TEXT DEFAULT '',
state TEXT DEFAULT 'NOT_STARTED',
status TEXT DEFAULT 'FAIL',
attemptnum INTEGER DEFAULT 0,
final_logf TEXT DEFAULT 'logs/final.log',
logdat BLOB,
run_duration INTEGER DEFAULT 0,
comment TEXT DEFAULT '',
event_time TIMESTAMP,
fail_count INTEGER DEFAULT 0,
pass_count INTEGER DEFAULT 0,
archived INTEGER DEFAULT 0, -- 0=no, 1=in progress, 2=yes
CONSTRAINT testsconstraint UNIQUE (run_id, testname, item_path)
);")
(sqlite3:execute db "CREATE INDEX tests_index ON tests (run_id, testname, item_path);")
(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 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));")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS extradat (id INTEGER PRIMARY KEY, run_id INTEGER, key TEXT, val TEXT);")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS metadat (id INTEGER PRIMARY KEY, var TEXT, val TEXT,
CONSTRAINT metadat_constraint UNIQUE (var));")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS access_log (id INTEGER PRIMARY KEY, user TEXT, accessed TIMESTAMP, args TEXT);")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS test_meta (id INTEGER PRIMARY KEY,
testname TEXT DEFAULT '',
author TEXT DEFAULT '',
owner TEXT DEFAULT '',
description TEXT DEFAULT '',
reviewed TIMESTAMP,
iterated TEXT DEFAULT '',
avg_runtime REAL,
avg_disk REAL,
tags TEXT DEFAULT '',
jobgroup TEXT DEFAULT 'default',
CONSTRAINT test_meta_constraint UNIQUE (testname));")
(sqlite3:execute db "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));")
;; Must do this *after* running patch db !! No more.
(db:set-var db "MEGATEST_VERSION" megatest-version)
(debug:print-info 11 "db:initialize END")
))
;;======================================================================
;; T E S T S P E C I F I C D B
;;======================================================================
;; Create the sqlite db for the individual test(s)
(define (open-test-db work-area)
(debug:print-info 11 "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 (file-exists? dbpath))
(handler (make-busy-timeout (if (args:get-arg "-override-timeout")
(string->number (args:get-arg "-override-timeout"))
136000))))
(handle-exceptions
exn
(begin
(debug:print 0 "ERROR: problem accessing test db " work-area ", you probably should clean and re-run this test"
((condition-property-accessor 'exn 'message) exn))
#f)
(set! db (sqlite3:open-database dbpath)))
(sqlite3:set-busy-handler! db handler)
(if (not dbexists)
(begin
(sqlite3:execute db "PRAGMA synchronous = FULL;")
(debug:print-info 11 "Initialized test database " dbpath)
(db:testdb-initialize db)))
;; (sqlite3:execute db "PRAGMA synchronous = 0;")
(debug:print-info 11 "open-test-db END (sucessful)" work-area)
;; now let's test that everything is correct
(handle-exceptions
exn
(begin
(debug:print 0 "ERROR: problem accessing test db " work-area ", you probably should clean and re-run this test"
((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)
(begin
(debug:print-info 11 "open-test-db END (unsucessful)" work-area)
#f)))
;; find and open the testdat.db file for an existing test
(define (db:open-test-db-by-test-id db test-id #!key (work-area #f))
(let* ((test-path (if work-area
work-area
(cdb:remote-run db:test-get-rundir-from-test-id db test-id))))
(debug:print 3 "TEST PATH: " test-path)
(open-test-db test-path)))
(define (db:testdb-initialize db)
(debug:print 11 "db:testdb-initialize START")
(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 "db:testdb-initialize END"))
;;======================================================================
;; L O G G I N G D B
;;======================================================================
(define (open-logging-db) ;; (conc *toppath* "/megatest.db") (car *configinfo*)))
(let* ((dbpath (conc (if *toppath* (conc *toppath* "/") "") "logging.db")) ;; fname)
(dbexists (file-exists? dbpath))
(db (sqlite3:open-database dbpath)) ;; (never-give-up-open-db dbpath))
(handler (make-busy-timeout (if (args:get-arg "-override-timeout")
(string->number (args:get-arg "-override-timeout"))
136000)))) ;; 136000)))
(sqlite3:set-busy-handler! db handler)
(if (not dbexists)
(begin
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS log (id INTEGER PRIMARY KEY,event_time TIMESTAMP DEFAULT (strftime('%s','now')),logline TEXT,pwd TEXT,cmdline TEXT,pid INTEGER);")
(sqlite3:execute db (conc "PRAGMA synchronous = 0;"))))
db))
(define (db:log-local-event . loglst)
(let ((logline (apply conc loglst))
(pwd (current-directory))
(cmdline (string-intersperse (argv) " "))
(pid (current-process-id)))
(db:log-event logline pwd cmdline pid)))
(define (db:log-event logline pwd cmdline pid)
(let ((db (open-logging-db)))
(sqlite3:execute db "INSERT INTO log (logline,pwd,cmdline,pid) VALUES (?,?,?,?);" logline (current-directory)(string-intersperse (argv) " ")(current-process-id))
(sqlite3:finalize! db)
logline))
;;======================================================================
;; TODO:
;; put deltas into an assoc list with version numbers
;; apply all from last to current
;;======================================================================
(define (patch-db db)
(handle-exceptions
exn
(begin
(print "Exception: " exn)
(print "ERROR: Possible out of date schema, attempting to add table metadata...")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS metadat (id INTEGER, var TEXT, val TEXT,
CONSTRAINT metadat_constraint UNIQUE (var));")
(if (not (db:get-var db "MEGATEST_VERSION"))
(db:set-var db "MEGATEST_VERSION" 1.17)))
(let ((mver (db:get-var db "MEGATEST_VERSION"))
(test-meta-def "CREATE TABLE IF NOT EXISTS test_meta (id INTEGER PRIMARY KEY,
testname TEXT DEFAULT '',
author TEXT DEFAULT '',
owner TEXT DEFAULT '',
description TEXT DEFAULT '',
reviewed TIMESTAMP,
iterated TEXT DEFAULT '',
avg_runtime REAL,
avg_disk REAL,
tags TEXT DEFAULT '',
CONSTRAINT test_meta_constraint UNIQUE (testname));"))
(print "Current schema version: " mver " current megatest version: " megatest-version)
(cond
((not mver)
(print "Adding megatest-version to metadata") ;; Need to recreate the table
(sqlite3:execute db "DROP TABLE IF EXISTS metadat;")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS metadat (id INTEGER, var TEXT, val TEXT,
CONSTRAINT metadat_constraint UNIQUE (var));")
(db:set-var db "MEGATEST_VERSION" 1.17)
(patch-db))
((< mver 1.21)
(sqlite3:execute db "DROP TABLE IF EXISTS metadat;")
(sqlite3:execute db "CREATE TABLE IF NOT EXISTS metadat (id INTEGER, var TEXT, val TEXT,
CONSTRAINT metadat_constraint UNIQUE (var));")
(db:set-var db "MEGATEST_VERSION" 1.21) ;; set before, just in case the changes are already applied
(sqlite3:execute db test-meta-def)
;(for-each
; (lambda (stmt)
; (sqlite3:execute db stmt))
; (list
; "ALTER TABLE tests ADD COLUMN first_err TEXT;"
; "ALTER TABLE tests ADD COLUMN first_warn TEXT;"
; ))
(patch-db))
((< mver 1.24)
(db:set-var db "MEGATEST_VERSION" 1.24)
(sqlite3:execute db "DROP TABLE IF EXISTS test_data;")
(sqlite3:execute db "DROP TABLE IF EXISTS test_meta;")
(sqlite3:execute db test-meta-def)
(sqlite3:execute db "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',
CONSTRAINT test_data UNIQUE (test_id,category,variable));")
(print "WARNING: Table test_data and test_meta were recreated. Please do megatest -update-meta")
(patch-db))
((< mver 1.27)
(db:set-var db "MEGATEST_VERSION" 1.27)
(sqlite3:execute db "ALTER TABLE test_data ADD COLUMN type TEXT DEFAULT '';")
(patch-db))
((< mver 1.29)
(db:set-var db "MEGATEST_VERSION" 1.29)
(sqlite3:execute db "ALTER TABLE test_steps ADD COLUMN logfile TEXT DEFAULT '';")
(sqlite3:execute db "ALTER TABLE tests ADD COLUMN shortdir TEXT DEFAULT '';"))
((< mver 1.36)
(db:set-var db "MEGATEST_VERSION" 1.36)
(sqlite3:execute db "ALTER TABLE test_meta ADD COLUMN jobgroup TEXT DEFAULT 'default';"))
((< mver 1.37)
(db:set-var db "MEGATEST_VERSION" 1.37)
(sqlite3:execute db "ALTER TABLE tests ADD COLUMN archived INTEGER DEFAULT 0;"))
((< mver megatest-version)
(db:set-var db "MEGATEST_VERSION" megatest-version))))))
;;======================================================================
;; meta get and set vars
;;======================================================================
;; returns number if string->number is successful, string otherwise
;; also updates *global-delta*
(define (db:get-var db var)
(debug:print-info 11 "db:get-var START " var)
(let* ((start-ms (current-milliseconds))
(throttle (let ((t (config-lookup *configdat* "setup" "throttle")))
(if t (string->number t) t)))
(res #f))
(sqlite3:for-each-row
(lambda (val)
(set! res val))
db "SELECT val FROM metadat WHERE var=?;" var)
;; convert to number if can
(if (string? res)
(let ((valnum (string->number res)))
(if valnum (set! res valnum))))
;; scale by 10, average with current value.
(set! *global-delta* (/ (+ *global-delta* (* (- (current-milliseconds) start-ms)
(if throttle throttle 0.01)))
2))
(if (> (abs (- *last-global-delta-printed* *global-delta*)) 0.08) ;; don't print all the time, only if it changes a bit
(begin
(debug:print-info 4 "launch throttle factor=" *global-delta*)
(set! *last-global-delta-printed* *global-delta*)))
(debug:print-info 11 "db:get-var END " var " val=" res)
res))
(define (db:set-var db var val)
(debug:print-info 11 "db:set-var START " var " " val)
(sqlite3:execute db "INSERT OR REPLACE INTO metadat (var,val) VALUES (?,?);" var val)
(debug:print-info 11 "db:set-var END " var " " val))
(define (db:del-var db var)
(debug:print-info 11 "db:del-var START " var)
(sqlite3:execute db "DELETE FROM metadat WHERE var=?;" var)
(debug:print-info 11 "db:del-var END " var))
;; use a global for some primitive caching, it is just silly to re-read the db
;; over and over again for the keys since they never change
(define (db:get-keys db)
(if *db-keys* *db-keys*
(let ((res '()))
(debug:print-info 11 "db:get-keys START (cache miss)")
(sqlite3:for-each-row
(lambda (key keytype)
(set! res (cons (vector key keytype) res)))
db
"SELECT fieldname,fieldtype FROM keys ORDER BY id DESC;")
(set! *db-keys* res)
(debug:print-info 11 "db:get-keys END (cache miss)")
res)))
(define (db:get-value-by-header row header field)
(debug:print-info 4 "db:get-value-by-header row: " row " header: " header " field: " 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)))))))
;;======================================================================
;; R U N S
;;======================================================================
(define (db:get-run-name-from-id db run-id)
(let ((res #f))
(sqlite3:for-each-row
(lambda (runname)
(set! res runname))
db
"SELECT runname FROM runs WHERE id=?;"
run-id)
res))
(define (db:get-run-key-val db run-id key)
(let ((res #f))
(sqlite3:for-each-row
(lambda (val)
(set! res val))
db
(conc "SELECT " (key:get-fieldname key) " FROM runs WHERE id=?;")
run-id)
res))
;; keys list to key1,key2,key3 ...
(define (runs:get-std-run-fields keys remfields)
(let* ((header (append (map key:get-fieldname keys)
remfields))
(keystr (conc (keys->keystr keys) ","
(string-intersperse remfields ","))))
(list keystr header)))
;; make a query (fieldname like 'patt1' OR fieldname
(define (db:patt->like fieldname pattstr #!key (comparator " OR "))
(let ((patts (if (string? pattstr)
(string-split pattstr ",")
'("%"))))
(string-intersperse (map (lambda (patt)
(let ((wildtype (if (substring-index "%" patt) "LIKE" "GLOB")))
(conc fieldname " " wildtype " '" patt "'")))
(if (null? patts)
'("")
patts))
comparator)))
;; register a test run with the db
(define (db:register-run db keys keyvallst runname state status user)
(debug:print 3 "runs:register-run, keys: " keys " keyvallst: " keyvallst " runname: " runname " state: " state " status: " status " user: " user)
(let* ((keystr (keys->keystr keys))
(comma (if (> (length keys) 0) "," ""))
(andstr (if (> (length keys) 0) " AND " ""))
(valslots (keys->valslots keys)) ;; ?,?,? ...
(keyvals (map cadr keyvallst))
(allvals (append (list runname state status user) keyvals))
(qryvals (append (list runname) keyvals))
(key=?str (string-intersperse (map (lambda (k)(conc (key:get-fieldname k) "=?")) keys) " AND ")))
(debug:print 3 "keys: " keys " allvals: " allvals " keyvals: " keyvals)
(debug:print 2 "NOTE: using target " (string-intersperse keyvals "/") " for this run")
(if (and runname (null? (filter (lambda (x)(not x)) keyvals))) ;; there must be a better way to "apply and"
(let ((res #f))
(apply sqlite3:execute db (conc "INSERT OR IGNORE INTO runs (runname,state,status,owner,event_time" comma keystr ") VALUES (?,?,?,?,strftime('%s','now')" comma valslots ");")
allvals)
(apply sqlite3:for-each-row
(lambda (id)
(set! res id))
db
(let ((qry (conc "SELECT id FROM runs WHERE (runname=? " andstr key=?str ");")))
;(debug:print 4 "qry: " qry)
qry)
qryvals)
(sqlite3:execute db "UPDATE runs SET state=?,status=? WHERE id=?;" state status res)
res)
(begin
(debug:print 0 "ERROR: Called without all necessary keys")
#f))))
;; replace header and keystr with a call to runs:get-std-run-fields
;;
;; keypatts: ( (KEY1 "abc%def")(KEY2 "%") )
;; runpatts: patt1,patt2 ...
;;
(define (db:get-runs db runpatt count offset keypatts)
(let* ((res '())
(keys (db:get-keys db))
(runpattstr (db:patt->like "runname" runpatt))
(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 ",")))
(qrystr (conc "SELECT " keystr " FROM runs WHERE (" runpattstr ") " ;; runname LIKE ? "
;; Generate: " AND x LIKE 'keypatt' ..."
(if (null? keypatts) ""
(conc " AND "
(string-join
(map (lambda (keypatt)
(let ((key (car keypatt))
(patt (cadr keypatt)))
(db:patt->like key patt)))
keypatts)
" AND ")))
" ORDER BY event_time DESC "
(if (number? count)
(conc " LIMIT " count)
"")
(if (number? offset)
(conc " OFFSET " offset)
""))))
(debug:print-info 11 "db:get-runs START qrystr: " qrystr " keypatts: " keypatts " offset: " offset " limit: " count)
(sqlite3:for-each-row
(lambda (a . x)
(set! res (cons (apply vector a x) res)))
db
qrystr
)
(debug:print-info 11 "db:get-runs END qrystr: " qrystr " keypatts: " keypatts " offset: " offset " limit: " count)
(vector header res)))
;; just get count of runs
(define (db:get-num-runs db runpatt)
(let ((numruns 0))
(debug:print-info 11 "db:get-num-runs START " runpatt)
(sqlite3:for-each-row
(lambda (count)
(set! numruns count))
db
"SELECT COUNT(id) FROM runs WHERE runname LIKE ?;" runpatt)
(debug:print-info 11 "db:get-num-runs END " runpatt)
numruns))
;; use (get-value-by-header (db:get-header runinfo)(db:get-row runinfo))
(define (db:get-run-info db run-id)
;;(if (hash-table-ref/default *run-info-cache* run-id #f)
;; (hash-table-ref *run-info-cache* 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 ","))))
(debug:print-info 11 "db:get-run-info run-id: " run-id " header: " header " keystr: " keystr)
(sqlite3:for-each-row
(lambda (a . x)
(set! res (apply vector a x)))
db
(conc "SELECT " keystr " FROM runs WHERE id=?;")
run-id)
(debug:print-info 11 "db:get-run-info run-id: " run-id " header: " header " keystr: " keystr)
(let ((finalres (vector header res)))
;; (hash-table-set! *run-info-cache* run-id finalres)
finalres)))
(define (db:set-comment-for-run db run-id comment)
(debug:print-info 11 "db:set-comment-for-run START run-id: " run-id " comment: " comment)
(sqlite3:execute db "UPDATE runs SET comment=? WHERE id=?;" comment run-id)
(debug:print-info 11 "db:set-comment-for-run END run-id: " run-id " comment: " comment))
;; does not (obviously!) removed dependent data. But why not!!?
(define (db:delete-run db run-id)
(common:clear-caches) ;; don't trust caches after doing any deletion
(sqlite3:execute db "DELETE FROM runs WHERE id=?;" run-id))
(define (db:update-run-event_time db run-id)
(debug:print-info 11 "db:update-run-event_time START run-id: " run-id)
(sqlite3:execute db "UPDATE runs SET event_time=strftime('%s','now') WHERE id=?;" run-id)
(debug:print-info 11 "db:update-run-event_time END run-id: " run-id))
(define (db:lock/unlock-run db run-id lock unlock user)
(let ((newlockval (if lock "locked"
(if unlock
"unlocked"
"locked")))) ;; semi-failsafe
(sqlite3:execute db "UPDATE runs SET state=? WHERE id=?;" newlockval run-id)
(sqlite3:execute db "INSERT INTO access_log (user,accessed,args) VALUES(?,strftime('%s','now'),?);"
user (conc newlockval " " run-id))
(debug:print-info 1 "" newlockval " run number " run-id)))
;;======================================================================
;; K E Y S
;;======================================================================
;; get key val pairs for a given run-id
;; ( (FIELDNAME1 keyval1) (FIELDNAME2 keyval2) ... )
(define (db:get-key-val-pairs db run-id)
(let* ((keys (get-keys db))
(res '()))
(debug:print-info 11 "db:get-key-val-pairs START keys: " keys " run-id: " run-id)
(for-each
(lambda (key)
(let ((qry (conc "SELECT " (key:get-fieldname key) " FROM runs WHERE id=?;")))
;; (debug:print 0 "qry: " qry)
(sqlite3:for-each-row
(lambda (key-val)
(set! res (cons (list (key:get-fieldname key) key-val) res)))
db qry run-id)))
keys)
(debug:print-info 11 "db:get-key-val-pairs END keys: " keys " run-id: " run-id)
(reverse res)))
;; get key vals for a given run-id
(define (db:get-key-vals db run-id)
(let ((mykeyvals (hash-table-ref/default *keyvals* run-id #f)))
(if mykeyvals
mykeyvals
(let* ((keys (get-keys db))
(res '()))
(debug:print-info 11 "db:get-key-vals START keys: " keys " run-id: " run-id)
(for-each
(lambda (key)
(let ((qry (conc "SELECT " (key:get-fieldname key) " FROM runs WHERE id=?;")))
;; (debug:print 0 "qry: " qry)
(sqlite3:for-each-row
(lambda (key-val)
(set! res (cons key-val res)))
db qry run-id)))
keys)
(debug:print-info 11 "db:get-key-vals END keys: " keys " run-id: " run-id)
(let ((final-res (reverse res)))
(hash-table-set! *keyvals* run-id final-res)
final-res)))))
;; The target is keyval1/keyval2..., cached in *target* as it is used often
(define (db:get-target db run-id)
(let ((mytarg (hash-table-ref/default *target* run-id #f)))
(if mytarg
mytarg
(let* ((keyvals (db:get-key-vals db run-id))
(thekey (string-intersperse (map (lambda (x)(if x x "-na-")) keyvals) "/")))
(hash-table-set! *target* run-id thekey)
thekey))))
;;======================================================================
;; T E S T S
;;======================================================================
;; states and statuses are lists, turn them into ("PASS","FAIL"...) and use NOT IN
;; i.e. these lists define what to NOT show.
;; states and statuses are required to be lists, empty is ok
;; not-in #t = above behaviour, #f = must match
(define (db:get-tests-for-run db run-id testpatt states statuses
#!key (not-in #t)
(sort-by #f) ;; 'rundir 'event_time
(qryvals "id,run_id,testname,state,status,event_time,host,cpuload,diskfree,uname,rundir,item_path,run_duration,final_logf,comment")
)
(debug:print-info 11 "db:get-tests-for-run START run-id=" run-id ", testpatt=" testpatt ", states=" states ", statuses=" statuses ", not-in=" not-in ", sort-by=" sort-by)
(let* ((res '())
;; if states or statuses are null then assume match all when not-in is false
(states-qry (if (null? states)
#f
(conc " state "
(if not-in "NOT" "")
" IN ('"
(string-intersperse states "','")
"')")))
(statuses-qry (if (null? statuses)
#f
(conc " status "
(if not-in "NOT" "")
" IN ('"
(string-intersperse statuses "','")
"')")))
(tests-match-qry (tests:match->sqlqry testpatt))
(qry (conc "SELECT " qryvals
" FROM tests WHERE run_id=? "
(if states-qry (conc " AND " states-qry) "")
(if statuses-qry (conc " AND " statuses-qry) "")
(if tests-match-qry (conc " AND (" tests-match-qry ") ") "")
(case sort-by
((rundir) " ORDER BY length(rundir) DESC;")
((event_time) " ORDER BY event_time ASC;")
(else ";"))
)))
(debug:print-info 8 "db:get-tests-for-run qry=" qry)
(sqlite3:for-each-row
(lambda (a . b) ;; id run-id testname state status event-time host cpuload diskfree uname rundir item-path run-duration final-logf comment)
(set! res (cons (apply vector a b) res))) ;; id run-id testname state status event-time host cpuload diskfree uname rundir item-path run-duration final-logf comment) res)))
db
qry
run-id
)
(debug:print-info 11 "db:get-tests-for-run START run-id=" run-id ", testpatt=" testpatt ", states=" states ", statuses=" statuses ", not-in=" not-in ", sort-by=" sort-by)
res))
;; get a useful subset of the tests data (used in dashboard
;; use db:mintests-get-{id ,run_id,testname ...}
(define (db:get-tests-for-runs-mindata db run-ids testpatt states status)
(db:get-tests-for-runs db run-ids testpatt states status qryvals: "id,run_id,testname,state,status,event_time,item_path"))
;; NB // This is get tests for "runs" (note the plural!!)
;;
;; states and statuses are lists, turn them into ("PASS","FAIL"...) and use NOT IN
;; i.e. these lists define what to NOT show.
;; states and statuses are required to be lists, empty is ok
;; not-in #t = above behaviour, #f = must match
;; run-ids is a list of run-ids or a single number
(define (db:get-tests-for-runs db run-ids testpatt states statuses
#!key (not-in #t)
(sort-by #f)
(qryvals "id,run_id,testname,state,status,event_time,host,cpuload,diskfree,uname,rundir,item_path,run_duration,final_logf,comment")) ;; 'rundir 'event_time
(debug:print-info 11 "db:get-tests-for-run START run-ids=" run-ids ", testpatt=" testpatt ", states=" states ", statuses=" statuses ", not-in=" not-in ", sort-by=" sort-by)
(let* ((res '())
;; if states or statuses are null then assume match all when not-in is false
(states-qry (if (null? states)
#f
(conc " state "
(if not-in "NOT" "")
" IN ('"
(string-intersperse states "','")
"')")))
(statuses-qry (if (null? statuses)
#f
(conc " status "
(if not-in "NOT" "")
" IN ('"
(string-intersperse statuses "','")
"')")))
(tests-match-qry (tests:match->sqlqry testpatt))
(qry (conc "SELECT " qryvals
" FROM tests WHERE "
(if run-ids
(if (list? run-ids)
(conc " run_id in (" (string-intersperse (map conc run-ids) ",") ") ")
(conc "run_id=" run-ids " "))
" ") ;; #f => run-ids don't filter on run-ids
(if states-qry (conc " AND " states-qry) "")
(if statuses-qry (conc " AND " statuses-qry) "")
(if tests-match-qry (conc " AND (" tests-match-qry ") ") "")
(case sort-by
((rundir) " ORDER BY length(rundir) DESC;")
((event_time) " ORDER BY event_time ASC;")
(else ";"))
)))
(debug:print-info 8 "db:get-tests-for-run qry=" qry)
(sqlite3:for-each-row
(lambda (a . b) ;; id run-id testname state status event-time host cpuload diskfree uname rundir item-path run-duration final-logf comment)
(set! res (cons (apply vector a b) res))) ;; id run-id testname state status event-time host cpuload diskfree uname rundir item-path run-duration final-logf comment) res)))
db
qry
)
(debug:print-info 11 "db:get-tests-for-run START run-ids=" run-ids ", testpatt=" testpatt ", states=" states ", statuses=" statuses ", not-in=" not-in ", sort-by=" sort-by)
res))
;; this one is a bit broken BUG FIXME
(define (db:delete-test-step-records db test-id #!key (work-area #f))
;; Breaking it into two queries for better file access interleaving
(let* ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area)))
;; test db's can go away - must check every time
(if tdb
(begin
(sqlite3:execute tdb "DELETE FROM test_steps;")
(sqlite3:execute tdb "DELETE FROM test_data;")
(sqlite3:finalize! tdb)))))
;;
(define (db:delete-test-records db tdb test-id #!key (force #f))
(common:clear-caches)
(if tdb
(begin
(sqlite3:execute tdb "DELETE FROM test_steps;")
(sqlite3:execute tdb "DELETE FROM test_data;")))
;; (sqlite3:execute db "DELETE FROM tests WHERE id=?;" test-id))
(if db
(begin
(sqlite3:execute db "DELETE FROM test_steps WHERE test_id=?;" test-id)
(sqlite3:execute db "DELETE FROM test_data WHERE test_id=?;" test-id)
(if force
(sqlite3:execute db "DELETE FROM tests WHERE id=?;" test-id)
(sqlite3:execute db "UPDATE tests SET state='DELETED',status='n/a' WHERE id=?;" test-id)))))
(define (db:delete-tests-for-run db run-id)
(common:clear-caches)
(sqlite3:execute db "DELETE FROM tests WHERE run_id=?;" run-id))
(define (db:delete-old-deleted-test-records db)
(let ((targtime (- (current-seconds)(* 30 24 60 60)))) ;; one month in the past
(sqlite3:execute db "DELETE FROM tests WHERE state='DELETED' AND event_time<?;" targtime)))
;; set tests with state currstate and status currstatus to newstate and newstatus
;; use currstate = #f and or currstatus = #f to apply to any state or status respectively
;; WARNING: SQL injection risk. NB// See new but not yet used "faster" version below
;;
(define (db:set-tests-state-status db run-id testnames currstate currstatus newstate newstatus)
(for-each (lambda (testname)
(let ((qry (conc "UPDATE tests SET state=?,status=? WHERE "
(if currstate (conc "state='" currstate "' AND ") "")
(if currstatus (conc "status='" currstatus "' AND ") "")
" run_id=? AND testname=? AND NOT (item_path='' AND testname in (SELECT DISTINCT testname FROM tests WHERE testname=? AND item_path != ''));")))
;;(debug:print 0 "QRY: " qry)
(sqlite3:execute db qry run-id newstate newstatus testname testname)))
testnames))
(define (cdb:set-tests-state-status-faster serverdat run-id testnames currstate currstatus newstate newstatus)
;; Convert #f to wildcard %
(if (null? testnames)
#t
(let ((currstate (if currstate currstate "%"))
(currstatus (if currstatus currstatus "%")))
(let loop ((hed (car testnames))
(tal (cdr testnames))
(thr '()))
(let ((th1 (if newstate (create-thread (cbd:client-call serverdat 'update-test-state #t *default-numtries* newstate currstate run-id testname testname)) #f))
(th2 (if newstatus (create-thread (cbd:client-call serverdat 'update-test-status #t *default-numtries* newstatus currstatus run-id testname testname)) #f)))
(thread-start! th1)
(thread-start! th2)
(if (null? tal)
(loop (car tal)(cdr tal)(cons th1 (cons th2 thr)))
(for-each
(lambda (th)
(if th (thread-join! th)))
thr)))))))
(define (cdb:delete-tests-in-state serverdat run-id state)
(cdb:client-call serverdat 'delete-tests-in-state #t *default-numtries* run-id state))
(define (cdb:tests-update-cpuload-diskfree serverdat test-id cpuload diskfree)
(cdb:client-call serverdat 'update-cpuload-diskfree #t *default-numtries* cpuload diskfree test-id))
(define (cdb:tests-update-run-duration serverdat test-id minutes)
(cdb:client-call serverdat 'update-run-duration #t *default-numtries* minutes test-id))
(define (cdb:tests-update-uname-host serverdat test-id uname hostname)
(cdb:client-call serverdat 'update-uname-host #t *default-numtries* test-id uname hostname))
;; speed up for common cases with a little logic
(define (db:test-set-state-status-by-id db test-id newstate newstatus newcomment)
(cond
((and newstate newstatus newcomment)
(sqlite3:exectute db "UPDATE tests SET state=?,status=?,comment=? WHERE id=?;" newstate newstatus test-id))
((and newstate newstatus)
(sqlite3:execute db "UPDATE tests SET state=?,status=? WHERE id=?;" newstate newstatus test-id))
(else
(if newstate (sqlite3:execute db "UPDATE tests SET state=? WHERE id=?;" newstate test-id))
(if newstatus (sqlite3:execute db "UPDATE tests SET status=? WHERE id=?;" newstatus test-id))
(if newcomment (sqlite3:execute db "UPDATE tests SET comment=? WHERE id=?;" newcomment test-id)))))
(define (db:test-set-state-status-by-run-id-testname db run-id test-name item-path status state)
(sqlite3:execute db "UPDATE tests SET state=?,status=?,event_time=strftime('%s','now') WHERE run_id=? AND testname=? AND item_path=?;"
state status run-id test-name item-path))
(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 in ('RUNNING','LAUNCHED','REMOTEHOSTSTART');")
res))
(define (db:get-count-tests-running-in-jobgroup db jobgroup)
(if (not jobgroup)
0 ;;
(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'
AND testname in (SELECT testname FROM test_meta WHERE jobgroup=?;"
jobgroup)
res)))
;; done with run when:
;; 0 tests in LAUNCHED, NOT_STARTED, REMOTEHOSTSTART, RUNNING
(define (db:estimated-tests-remaining db run-id)
(let ((res 0))
(sqlite3:for-each-row
(lambda (count)
(set! res count))
db ;; NB// KILLREQ means the jobs is still probably running
"SELECT count(id) FROM tests WHERE state in ('LAUNCHED','NOT_STARTED','REMOTEHOSTSTART','RUNNING','KILLREQ') AND run_id=?;" run-id)
res))
;; map run-id, testname item-path to test-id
(define (db:get-test-id-cached db run-id testname item-path)
(let* ((test-key (conc run-id "-" testname "-" item-path))
(res (hash-table-ref/default *test-ids* test-key #f)))
(if res
res
(begin
(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 id)) ;; (vector id run-id testname state status event-time host cpuload diskfree uname rundir item-path run_duration final_logf comment )))
db
"SELECT id FROM tests WHERE run_id=? AND testname=? AND item_path=?;"
run-id testname item-path)
(hash-table-set! *test-ids* test-key res)
res))))
;; map run-id, testname item-path to test-id
(define (db:get-test-id-not-cached db run-id testname item-path)
(let* ((res #f))
(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 id)) ;; (vector id run-id testname state status event-time host cpuload diskfree uname rundir item-path run_duration final_logf comment )))
db
"SELECT id FROM tests WHERE run_id=? AND testname=? AND item_path=?;"
run-id testname item-path)
res))
(define db:get-test-id db:get-test-id-not-cached)
;; given a test-info record, patch in the latest data from the testdat.db file
;; found in the test run directory
;;
;; NOT USED
;;
(define (db:patch-tdb-data-into-test-info db test-id res #!key (work-area #f))
(let ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area)))
;; get state and status from megatest.db in real time
;; other fields that perhaps should be updated:
;; fail_count
;; pass_count
;; final_logf
(sqlite3:for-each-row
(lambda (state status final_logf)
(db:test-set-state! res state)
(db:test-set-status! res status)
(db:test-set-final_logf! res final_logf))
db
"SELECT state,status,final_logf FROM tests WHERE id=?;"
test-id)
(if tdb
(begin
(sqlite3:for-each-row
(lambda (update_time cpuload disk_free run_duration)
(db:test-set-cpuload! res cpuload)
(db:test-set-diskfree! res disk_free)
(db:test-set-run_duration! res run_duration))
tdb
"SELECT update_time,cpuload,diskfree,run_duration FROM test_rundat ORDER BY id DESC LIMIT 1;")
(sqlite3:finalize! tdb))
;; if the test db is not found what to do?
;; 1. set state to DELETED
;; 2. set status to n/a
(begin
(db:test-set-state! res "NOT_STARTED")
(db:test-set-status! res "n/a")))))
(define *last-test-cache-delete* (current-seconds))
(define (db:clean-all-caches)
(set! *test-info* (make-hash-table))
(set! *test-id-cache* (make-hash-table)))
;; Use db:test-get* to access
;;
;; Get test data using test_id
(define (db:get-test-info-by-id db test-id)
(if (not test-id)
(begin
(debug:print-info 4 "db:get-test-info-by-id called with test-id=" test-id)
#f)
(let ((res #f))
(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)
;; 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
(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 id=?;"
test-id)
res)))
;; Use db:test-get* to access
;;
;; Get test data using test_ids
(define (db:get-test-info-by-ids db test-ids)
(if (null? test-ids)
(begin
(debug:print-info 4 "db:get-test-info-by-ids called with test-ids=" test-ids)
'())
(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)
;; 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
(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
(conc "SELECT id,run_id,testname,state,status,event_time,host,cpuload,diskfree,uname,rundir,item_path,run_duration,final_logf,comment FROM tests WHERE id in ("
(string-intersperse (map conc test-ids) ",") ");"))
res)))
(define (db:get-test-info db run-id testname item-path)
(db:get-test-info-by-id db (db:get-test-id db run-id testname item-path)))
(define (db:test-set-comment db test-id comment)
(sqlite3:execute
db
"UPDATE tests SET comment=? WHERE id=?;"
comment test-id))
(define (cdb:test-set-rundir! serverdat run-id test-name item-path rundir)
(cdb:client-call serverdat 'test-set-rundir #t *default-numtries* rundir run-id test-name item-path))
(define (cdb:test-set-rundir-by-test-id serverdat test-id rundir)
(cdb:client-call serverdat 'test-set-rundir-by-test-id #t *default-numtries* rundir test-id))
(define (db:test-get-rundir-from-test-id db test-id)
(let ((res #f)) ;; (hash-table-ref/default *test-paths* test-id #f)))
;; (if res
;; res
;; (begin
(sqlite3:for-each-row
(lambda (tpath)
(set! res tpath))
db
"SELECT rundir FROM tests WHERE id=?;"
test-id)
;; (hash-table-set! *test-paths* test-id res)
res)) ;; ))
(define (cdb:test-set-log! serverdat test-id logf)
(if (string? logf)(cdb:client-call serverdat 'test-set-log #f *default-numtries* logf test-id)))
;;======================================================================
;; Misc. test related queries
;;======================================================================
;; MUST BE CALLED local!
(define (db:test-get-paths-matching db keynames target fnamepatt #!key (res '()))
;; BUG: Move the values derived from args to parameters and push to megatest.scm
(let* ((testpatt (if (args:get-arg "-testpatt")(args:get-arg "-testpatt") "%"))
(statepatt (if (args:get-arg ":state") (args:get-arg ":state") "%"))
(statuspatt (if (args:get-arg ":status") (args:get-arg ":status") "%"))
(runname (if (args:get-arg ":runname") (args:get-arg ":runname") "%"))
(paths-from-db (cdb:remote-run db:test-get-paths-matching-keynames-target db keynames target res
testpatt: testpatt
statepatt: statepatt
statuspatt: statuspatt
runname: runname)))
(if fnamepatt
(apply append
(map (lambda (p)
(if (directory-exists? p)
(glob (conc p "/" fnamepatt))
'()))
paths-from-db))
paths-from-db)))
(define (db:test-get-paths-matching-keynames-target db keynames target res
#!key
(testpatt "%")
(statepatt "%")
(statuspatt "%")
(runname "%"))
(let* ((keystr (string-intersperse
(map (lambda (key val)
(conc "r." key " like '" val "'"))
keynames
(string-split target "/"))
" AND "))
(testqry (tests:match->sqlqry testpatt))
(qrystr (conc "SELECT t.rundir FROM tests AS t INNER JOIN runs AS r ON t.run_id=r.id WHERE "
keystr " AND r.runname LIKE '" runname "' AND " testqry
" AND t.state LIKE '" statepatt "' AND t.status LIKE '" statuspatt
"' ORDER BY t.event_time ASC;")))
(debug:print 3 "qrystr: " qrystr)
(sqlite3:for-each-row
(lambda (p)
(set! res (cons p res)))
db
qrystr)
res))
;; look through tests from matching runs for a file
(define (db:test-get-first-path-matching db keynames target fname)
;; [refpaths] is the section where references to other megatest databases are stored
(let ((mt-paths (configf:get-section "refpaths"))
(res (db:test-get-paths-matching db keynames target fname)))
(let loop ((pathdat (if (null? paths) #f (car mt-paths)))
(tal (if (null? paths) '()(cdr mt-paths))))
(if (not (null? res))
(car res) ;; return first found
(if path
(let* ((db (open-db path: (cadr pathdat)))
(newres (db:test-get-paths-matching db keynames target fname)))
(debug:print-info 4 "Trying " (car pathdat) " at " (cadr pathdat))
(sqlite3:finalize! db)
(if (not (null? newres))
(car newres)
(if (null? tal)
#f
(loop (car tal)(cdr tal))))))))))
;;======================================================================
;; QUEUE UP META, TEST STATUS AND STEPS REMOTE ACCESS
;;======================================================================
;; NOTE: Can remove the regex and base64 encoding for zmq
(define (db:obj->string obj)
(case *transport-type*
((fs) obj)
((http)
(string-substitute
(regexp "=") "_"
(base64:base64-encode (with-output-to-string (lambda ()(serialize obj))))
#t))
((zmq)(with-output-to-string (lambda ()(serialize obj))))
(else obj)))
(define (db:string->obj msg)
(case *transport-type*
((fs) msg)
((http)
(with-input-from-string
(base64:base64-decode
(string-substitute
(regexp "_") "=" msg #t))
(lambda ()(deserialize))))
((zmq)(with-input-from-string msg (lambda ()(deserialize))))
(else msg)))
(define (cdb:use-non-blocking-mode proc)
(set! *client-non-blocking-mode* #t)
(let ((res (proc)))
(set! *client-non-blocking-mode* #f)
res))
;; params = 'target cached remparams
;;
;; make-vector-record cdb packet client-sig qtype immediate query-sig params qtime
;;
;; cdb:client-call is the unified interface to all the transports. It dispatches the
;; query to a server routine (e.g. server:client-send-recieve) that
;; transports the data to the server where it is passed to db:process-queue-item
;; which either returns the data to the calling server routine or
;; directly calls the returning procedure (e.g. zmq).
;;
(define (cdb:client-call serverdat qtype immediate numretries . params)
(debug:print-info 11 "cdb:client-call serverdat=" serverdat ", qtype=" qtype ", immediate=" immediate ", numretries=" numretries ", params=" params)
(case *transport-type*
((fs)
(let ((packet (vector "na" qtype immediate "na" params 0)))
(fs:process-queue-item packet)))
((http)
(let* ((client-sig (client:get-signature))
(query-sig (message-digest-string (md5-primitive) (conc qtype immediate params)))
(zdat (db:obj->string (vector client-sig qtype immediate query-sig params (current-seconds))))) ;; (with-output-to-string (lambda ()(serialize params))))
(debug:print-info 11 "zdat=" zdat)
(let* ((res #f)
(rawdat (http-transport:client-send-receive serverdat zdat))
(tmp #f))
(debug:print-info 11 "Sent " zdat ", received " rawdat)
(if rawdat
(begin
(set! tmp (db:string->obj rawdat))
(vector-ref tmp 2))
(begin
(debug:print 0 "ERROR: Communication with the server failed. Exiting if possible")
(exit 1))))))
((zmq)
(handle-exceptions
exn
(begin
(debug:print-info 0 "cdb:client-call timeout or error. Trying again in 5 seconds")
(thread-sleep! 5)
(if (> numretries 0)(apply cdb:client-call serverdat qtype immediate (- numretries 1) params)))
(let* ((push-socket (vector-ref serverdat 0))
(sub-socket (vector-ref serverdat 1))
(client-sig (client:get-signature))
(query-sig (message-digest-string (md5-primitive) (conc qtype immediate params)))
(zdat (db:obj->string (vector client-sig qtype immediate query-sig params (current-seconds)))) ;; (with-output-to-string (lambda ()(serialize params))))
(res #f)
(send-receive (lambda ()
(debug:print-info 11 "sending message")
(send-message push-socket zdat)
(debug:print-info 11 "message sent")
(let loop ()
;; get the sender info
;; this should match (client:get-signature)
;; we will need to process "all" messages here some day
(receive-message* sub-socket)
;; now get the actual message
(let ((myres (db:string->obj (receive-message* sub-socket))))
(if (equal? query-sig (vector-ref myres 1))
(set! res (vector-ref myres 2))
(loop)))))))
;; (timeout (lambda ()
;; (let loop ((n numretries))
;; (thread-sleep! 15)
;; (if (not res)
;; (if (> numretries 0)
;; (begin
;; (debug:print 2 "WARNING: no reply to query " params ", trying resend")
;; (debug:print-info 11 "re-sending message")
;; (send-message push-socket zdat)
;; (debug:print-info 11 "message re-sent")
;; (loop (- n 1)))
;; ;; (apply cdb:client-call *runremote* qtype immediate (- numretries 1) params))
;; (begin
;; (debug:print 0 "ERROR: cdb:client-call timed out " params ", exiting.")
;; (exit 5))))))))
(debug:print-info 11 "Starting threads")
(let ((th1 (make-thread send-receive "send receive"))
;; (th2 (make-thread timeout "timeout"))
)
(thread-start! th1)
;; (thread-start! th2)
(thread-join! th1)
(debug:print-info 11 "cdb:client-call returning res=" res)
res))))))
(define (cdb:set-verbosity serverdat val)
(cdb:client-call serverdat 'set-verbosity #f *default-numtries* val))
(define (cdb:login serverdat keyval signature)
(cdb:client-call serverdat 'login #t *default-numtries* keyval megatest-version signature))
(define (cdb:logout serverdat keyval signature)
(cdb:client-call serverdat 'logout #t *default-numtries* keyval signature))
(define (cdb:num-clients serverdat)
(cdb:client-call serverdat 'numclients #t *default-numtries*))
(define (cdb:test-set-status-state serverdat test-id status state msg)
(if msg
(cdb:client-call serverdat 'state-status-msg #t *default-numtries* state status msg test-id)
(cdb:client-call serverdat 'state-status #t *default-numtries* state status test-id))) ;; run-id test-name item-path minutes cpuload diskfree tmpfree)
(define (cdb:test-rollup-test_data-pass-fail serverdat test-id)
(cdb:client-call serverdat 'test_data-pf-rollup #t *default-numtries* test-id test-id test-id test-id))
(define (cdb:pass-fail-counts serverdat test-id fail-count pass-count)
(cdb:client-call serverdat 'pass-fail-counts #t *default-numtries* fail-count pass-count test-id))
(define (cdb:tests-register-test serverdat run-id test-name item-path)
(cdb:client-call serverdat 'register-test #t *default-numtries* run-id test-name item-path))
(define (cdb:flush-queue serverdat)
(cdb:client-call serverdat 'flush #f *default-numtries*))
(define (cdb:kill-server serverdat)
(cdb:client-call serverdat 'killserver #t *default-numtries*))
(define (cdb:roll-up-pass-fail-counts serverdat run-id test-name item-path status)
(cdb:client-call serverdat 'immediate #f *default-numtries* open-run-close db:roll-up-pass-fail-counts #f run-id test-name item-path status))
(define (cdb:get-test-info serverdat run-id test-name item-path)
(cdb:client-call serverdat 'immediate #f *default-numtries* open-run-close db:get-test-info #f run-id test-name item-path))
(define (cdb:get-test-info-by-id serverdat test-id)
(cdb:client-call serverdat 'immediate #f *default-numtries* open-run-close db:get-test-info-by-id #f test-id))
;; db should be db open proc or #f
(define (cdb:remote-run proc db . params)
(apply cdb:client-call *runremote* 'immediate #f *default-numtries* open-run-close proc #f params))
(define (db:test-get-logfile-info db run-id test-name)
(let ((res #f))
(sqlite3:for-each-row
(lambda (path final_logf)
(set! logf final_logf)
(set! res (list path final_logf))
(if (directory? path)
(debug:print 2 "Found path: " path)
(debug:print 2 "No such path: " path)))
db
"SELECT rundir,final_logf FROM tests WHERE run_id=? AND testname=? AND item_path='';"
run-id test-name)
res))
;;======================================================================
;; A G R E G A T E D T R A N S A C T I O N D B W R I T E S
;;======================================================================
(define db:queries
(list '(register-test "INSERT OR IGNORE INTO tests (run_id,testname,event_time,item_path,state,status) VALUES (?,?,strftime('%s','now'),?,'NOT_STARTED','n/a');")
'(state-status "UPDATE tests SET state=?,status=? WHERE id=?;")
'(state-status-msg "UPDATE tests SET state=?,status=?,comment=? WHERE id=?;")
'(pass-fail-counts "UPDATE tests SET fail_count=?,pass_count=? WHERE id=?;")
;; test_data-pf-rollup is used to set a tests PASS/FAIL based on the pass/fail info from the steps
'(test_data-pf-rollup "UPDATE tests
SET status=CASE WHEN (SELECT fail_count FROM tests WHERE id=?) > 0
THEN 'FAIL'
WHEN (SELECT pass_count FROM tests WHERE id=?) > 0 AND
(SELECT status FROM tests WHERE id=?) NOT IN ('WARN','FAIL')
THEN 'PASS'
ELSE status
END WHERE id=?;")
'(test-set-log "UPDATE tests SET final_logf=? WHERE id=?;")
'(test-set-rundir-by-test-id "UPDATE tests SET rundir=? WHERE id=?")
'(test-set-rundir "UPDATE tests SET rundir=? WHERE run_id=? AND testname=? AND item_path=?;")
'(delete-tests-in-state "DELETE FROM tests WHERE state=? AND run_id=?;")
'(tests:test-set-toplog "UPDATE tests SET final_logf=? WHERE run_id=? AND testname=? AND item_path='';")
'(update-cpuload-diskfree "UPDATE tests SET cpuload=?,diskfree=? WHERE id=?;")
'(update-run-duration "UPDATE tests SET run_duration=? WHERE id=?;")
'(update-uname-host "UPDATE tests SET uname=?,host=? WHERE id=?;")
'(update-test-state "UPDATE tests SET state=? WHERE state=? AND run_id=? AND testname=? AND NOT (item_path='' AND testname IN (SELECT DISTINCT testname FROM tests WHERE testname=? AND item_path != ''));")
'(update-test-status "UPDATE tests SET status=? WHERE status like ? AND run_id=? AND testname=? AND NOT (item_path='' AND testname IN (SELECT DISTINCT testname FROM tests WHERE testname=? AND item_path != ''));")
))
;; do not run these as part of the transaction
(define db:special-queries '(rollup-tests-pass-fail
db:roll-up-pass-fail-counts
login
immediate
flush
sync
set-verbosity
killserver
))
;; not used, intended to indicate to run in calling process
(define db:run-local-queries '()) ;; rollup-tests-pass-fail))
(define (db:process-cached-writes db)
(let ((queries (make-hash-table))
(data #f))
(mutex-lock! *incoming-mutex*)
;; data is a list of query packets <vector qry-sig query params
(set! data (reverse *incoming-writes*)) ;; (sort ... (lambda (a b)(< (vector-ref a 1)(vector-ref b 1)))))
(set! *server:last-write-flush* (current-milliseconds))
(set! *incoming-writes* '())
(mutex-unlock! *incoming-mutex*)
(if (> (length data) 0)
;; Process if we have data
(begin
(debug:print-info 7 "Writing cached data " data)
;; Prepare the needed sql statements
;;
(for-each (lambda (request-item)
(let ((stmt-key (vector-ref request-item 0))
(query (vector-ref request-item 1)))
(hash-table-set! queries stmt-key (sqlite3:prepare db query))))
data)
;; No outer loop needed. Single loop for write items only. Reads trigger flush of queue
;; and then are executed.
(sqlite3:with-transaction
db
(lambda ()
(for-each
(lambda (hed)
(let* ((params (vector-ref hed 2))
(stmt-key (vector-ref hed 0))
(stmt (hash-table-ref/default queries stmt-key #f)))
(if stmt
(apply sqlite3:execute stmt params)
(debug:print 0 "ERROR: Problem Executing " stmt-key " for " params))))
data)))
;; let all the waiting calls know all is done
(mutex-lock! *completed-mutex*)
(for-each (lambda (item)
(let ((qry-sig (cdb:packet-get-client-sig item)))
(debug:print-info 7 "Registering query " qry-sig " as done")
(hash-table-set! *completed-writes* qry-sig #t)))
data)
(mutex-unlock! *completed-mutex*)
;; Finalize the statements. Should this be done inside the mutex above?
;; I think sqlite3 mutexes will keep the data safe
(for-each (lambda (stmt-key)
(sqlite3:finalize! (hash-table-ref queries stmt-key)))
(hash-table-keys queries))
;; Do a little record keeping
(let ((cache-size (length data)))
(if (> cache-size *max-cache-size*)
(set! *max-cache-size* cache-size)))
#t)
#f)))
(define *db:process-queue-mutex* (make-mutex))
(define *number-of-writes* 0)
(define *writes-total-delay* 0)
(define *total-non-write-delay* 0)
(define *number-non-write-queries* 0)
;; The queue is a list of vectors where the zeroth slot indicates the type of query to
;; apply and the second slot is the time of the query and the third entry is a list of
;; values to be applied
;;
(define (db:queue-write-and-wait db qry-sig query params)
(let ((queue-len 0)
(res #f)
(got-it #f)
(qry-pkt (vector qry-sig query params))
(start-time (current-milliseconds))
(timeout (+ 10 (current-seconds)))) ;; set the time out to 10 secs in future
;; Put the item in the queue *incoming-writes*
(mutex-lock! *incoming-mutex*)
(set! *incoming-writes* (cons qry-pkt *incoming-writes*))
(set! queue-len (length *incoming-writes*))
(mutex-unlock! *incoming-mutex*)
(debug:print-info 7 "Current write queue length is " queue-len)
;; poll for the write to complete, timeout after 10 seconds
;; periodic flushing of the queue is taken care of by
;; db:flush-queue
(let loop ()
(thread-sleep! 0.001)
(mutex-lock! *completed-mutex*)
(if (hash-table-ref/default *completed-writes* qry-sig #f)
(begin
(hash-table-delete! *completed-writes* qry-sig)
(set! got-it #t)))
(mutex-unlock! *completed-mutex*)
(if (and (not got-it)
(< (current-seconds) timeout))
(begin
(thread-sleep! 0.01)
(loop))))
(set! *number-of-writes* (+ *number-of-writes* 1))
(set! *writes-total-delay* (+ *writes-total-delay* (- (current-milliseconds) start-time)))
got-it))
(define (db:process-queue-item db item)
(let* ((stmt-key (cdb:packet-get-qtype item))
(qry-sig (cdb:packet-get-query-sig item))
(return-address (cdb:packet-get-client-sig item))
(params (cdb:packet-get-params item))
(query (let ((q (alist-ref stmt-key db:queries)))
(if q (car q) #f))))
(debug:print-info 11 "Special queries/requests stmt-key=" stmt-key ", return-address=" return-address ", query=" query ", params=" params)
(if query
;; hand queries off to the write queue
(let ((response (case *transport-type*
((http)
(debug:print-info 7 "Queuing item " item " for wrapped write")
(db:queue-write-and-wait db qry-sig query params))
(else
(apply sqlite3:execute db query params)
#t))))
(debug:print-info 7 "Received " response " from wrapped write")
(server:reply return-address qry-sig response response))
;; otherwise if appropriate flush the queue (this is a read or complex query)
(begin
(cond
((member stmt-key db:special-queries)
(let ((starttime (current-milliseconds)))
(debug:print-info 9 "Handling special statement " stmt-key)
(case stmt-key
((immediate)
;; This is a read or mixed read-write query, must clear the cache
(case *transport-type*
((http)
(mutex-lock! *db:process-queue-mutex*)
(db:process-cached-writes db)
(mutex-unlock! *db:process-queue-mutex*)))
(let* ((proc (car params))
(remparams (cdr params))
;; we are being handed a procedure so call it
;; (debug:print-info 11 "Running (apply " proc " " remparams ")")
(result (server:reply return-address qry-sig #t (apply proc remparams))))
(set! *total-non-write-delay* (+ *total-non-write-delay* (- (current-milliseconds) starttime)))
(set! *number-non-write-queries* (+ *number-non-write-queries* 1))
result))
((login)
(if (< (length params) 3) ;; should get toppath, version and signature
(server:reply return-address qry-sig '(#f "login failed due to missing params")) ;; missing params
(let ((calling-path (car params))
(calling-vers (cadr params))
(client-key (caddr params)))
(if (and (equal? calling-path *toppath*)
(equal? megatest-version calling-vers))
(begin
(hash-table-set! *logged-in-clients* client-key (current-seconds))
(server:reply return-address qry-sig #t '(#t "successful login"))) ;; path matches - pass! Should vet the caller at this time ...
(server:reply return-address qry-sig #f (list #f (conc "Login failed due to mismatch paths: " calling-path ", " *toppath*)))))))
((flush sync)
(server:reply return-address qry-sig #t 1)) ;; (length data)))
((set-verbosity)
(set! *verbosity* (car params))
(server:reply return-address qry-sig #t '(#t *verbosity*)))
((killserver)
(debug:print 0 "WARNING: Server going down in 15 seconds by user request!")
(open-run-close tasks:server-deregister tasks:open-db
(car *runremote*)
pullport: (cadr *runremote*))
(thread-start! (make-thread (lambda ()(thread-sleep! 15)(exit))))
(server:reply return-address qry-sig #t '(#t "exit process started")))
(else ;; not a command, i.e. is a query
(debug:print 0 "ERROR: Unrecognised query/command " stmt-key)
(server:reply return-address qry-sig #f 'failed)))))
(else
(debug:print-info 11 "Executing " stmt-key " for " params)
(apply sqlite3:execute (hash-table-ref queries stmt-key) params)
(server:reply return-address qry-sig #t #t)))))))
(define (db:test-get-records-for-index-file db run-id test-name)
(let ((res '()))
(sqlite3:for-each-row
(lambda (id itempath state status run_duration logf comment)
(set! res (cons (vector id itempath state status run_duration logf comment) res)))
db
"SELECT id,item_path,state,status,run_duration,final_logf,comment FROM tests WHERE run_id=? AND testname=? AND item_path != '';"
run-id test-name)
res))
;; Rollup the pass/fail counts from itemized tests into fail_count and pass_count
;; NOTE: Is this duplicating (db:test-data-rollup db test-id status) ????
(define (db:roll-up-pass-fail-counts db run-id test-name item-path status)
;; (cdb:flush-queue *runremote*)
(if (and (not (equal? item-path ""))
(member status '("PASS" "WARN" "FAIL" "WAIVED" "RUNNING" "CHECK" "SKIP")))
(begin
(sqlite3:execute
db
"UPDATE tests
SET fail_count=(SELECT count(id) FROM tests WHERE run_id=? AND testname=? AND item_path != '' AND status IN ('FAIL','CHECK')),
pass_count=(SELECT count(id) FROM tests WHERE run_id=? AND testname=? AND item_path != '' AND status IN ('PASS','WARN','WAIVED'))
WHERE run_id=? AND testname=? AND item_path='';"
run-id test-name run-id test-name run-id test-name)
;; (thread-sleep! 0.1) ;; give other processes a chance here, no, better to be done ASAP?
(if (equal? status "RUNNING") ;; running takes priority over all other states, force the test state to RUNNING
(sqlite3:execute db "UPDATE tests SET state=? WHERE run_id=? AND testname=? AND item_path='';" "RUNNING" run-id test-name)
(sqlite3:execute
db
"UPDATE tests
SET state=CASE
WHEN (SELECT count(id) FROM tests
WHERE run_id=? AND testname=?
AND item_path != ''
AND state in ('RUNNING','NOT_STARTED')) > 0 THEN 'RUNNING'
ELSE 'COMPLETED' END,
status=CASE
WHEN fail_count > 0 THEN 'FAIL'
WHEN pass_count > 0 AND fail_count=0 THEN 'PASS'
WHEN (SELECT count(id) FROM tests
WHERE run_id=? AND testname=?
AND item_path != ''
AND status = 'SKIP') > 0 THEN 'SKIP'
ELSE 'UNKNOWN' END
WHERE run_id=? AND testname=? AND item_path='';"
run-id test-name run-id test-name run-id test-name))
#f)
#f))
;;======================================================================
;; Tests meta data
;;======================================================================
;; read the record given a testname
(define (db:testmeta-get-record db testname)
(let ((res #f))
(sqlite3:for-each-row
(lambda (id testname author owner description reviewed iterated avg_runtime avg_disk tags)
(set! res (vector id testname author owner description reviewed iterated avg_runtime avg_disk tags)))
db "SELECT id,testname,author,owner,description,reviewed,iterated,avg_runtime,avg_disk,tags FROM test_meta WHERE testname=?;"
testname)
res))
;; create a new record for a given testname
(define (db:testmeta-add-record db testname)
(sqlite3:execute db "INSERT OR IGNORE INTO test_meta (testname,author,owner,description,reviewed,iterated,avg_runtime,avg_disk,tags) VALUES (?,'','','','','','','','');" testname))
;; update one of the testmeta fields
(define (db:testmeta-update-field db testname field value)
(sqlite3:execute db (conc "UPDATE test_meta SET " field "=? WHERE testname=?;") value testname))
;;======================================================================
;; T E S T D A T A
;;======================================================================
(define (db:csv->test-data db test-id csvdata #!key (work-area #f))
(debug:print 4 "test-id " test-id ", csvdata: " csvdata)
(let ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area)))
(if tdb
(let ((csvlist (csv->list (make-csv-reader
(open-input-string csvdata)
'((strip-leading-whitespace? #t)
(strip-trailing-whitespace? #t)) )))) ;; (csv->list csvdata)))
(for-each
(lambda (csvrow)
(let* ((padded-row (take (append csvrow (list #f #f #f #f #f #f #f #f #f)) 9))
(category (list-ref padded-row 0))
(variable (list-ref padded-row 1))
(value (any->number-if-possible (list-ref padded-row 2)))
(expected (any->number-if-possible (list-ref padded-row 3)))
(tol (any->number-if-possible (list-ref padded-row 4))) ;; >, <, >=, <=, or a number
(units (list-ref padded-row 5))
(comment (list-ref padded-row 6))
(status (let ((s (list-ref padded-row 7)))
(if (and (string? s)(or (string-match (regexp "^\\s*$") s)
(string-match (regexp "^n/a$") s)))
#f
s))) ;; if specified on the input then use, else calculate
(type (list-ref padded-row 8)))
;; look up expected,tol,units from previous best fit test if they are all either #f or ''
(debug:print 4 "BEFORE: category: " category " variable: " variable " value: " value
", expected: " expected " tol: " tol " units: " units " status: " status " comment: " comment " type: " type)
(if (and (or (not expected)(equal? expected ""))
(or (not tol) (equal? expected ""))
(or (not units) (equal? expected "")))
(let-values (((new-expected new-tol new-units)(db:get-prev-tol-for-test db test-id category variable)))
(set! expected new-expected)
(set! tol new-tol)
(set! units new-units)))
(debug:print 4 "AFTER: category: " category " variable: " variable " value: " value
", expected: " expected " tol: " tol " units: " units " status: " status " comment: " comment)
;; calculate status if NOT specified
(if (and (not status)(number? expected)(number? value)) ;; need expected and value to be numbers
(if (number? tol) ;; if tol is a number then we do the standard comparison
(let* ((max-val (+ expected tol))
(min-val (- expected tol))
(result (and (>= value min-val)(<= value max-val))))
(debug:print 4 "max-val: " max-val " min-val: " min-val " result: " result)
(set! status (if result "pass" "fail")))
(set! status ;; NB// need to assess each one (i.e. not return operator since need to act if not valid op.
(case (string->symbol tol) ;; tol should be >, <, >=, <=
((>) (if (> value expected) "pass" "fail"))
((<) (if (< value expected) "pass" "fail"))
((>=) (if (>= value expected) "pass" "fail"))
((<=) (if (<= value expected) "pass" "fail"))
(else (conc "ERROR: bad tol comparator " tol))))))
(debug:print 4 "AFTER2: category: " category " variable: " variable " value: " value
", expected: " expected " tol: " tol " units: " units " status: " status " comment: " comment)
(sqlite3:execute tdb "INSERT OR REPLACE INTO test_data (test_id,category,variable,value,expected,tol,units,comment,status,type) VALUES (?,?,?,?,?,?,?,?,?,?);"
test-id category variable value expected tol units (if comment comment "") status type)))
csvlist)
(sqlite3:finalize! tdb)))))
;; get a list of test_data records matching categorypatt
(define (db:read-test-data db test-id categorypatt #!key (work-area #f))
(let ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area)))
(if 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 (db:load-test-data db test-id #!key (work-area #f))
(let loop ((lin (read-line)))
(if (not (eof-object? lin))
(begin
(debug:print 4 lin)
(db:csv->test-data db test-id lin work-area: work-area)
(loop (read-line)))))
;; roll up the current results.
;; FIXME: Add the status to
(db:test-data-rollup db test-id #f work-area: work-area))
;; WARNING: Do NOT call this for the parent test on an iterated test
;; Roll up test_data pass/fail results
;; look at the test_data status field,
;; if all are pass (any case) and the test status is PASS or NULL or '' then set test status to PASS.
;; if one or more are fail (any case) then set test status to PASS, non "pass" or "fail" are ignored
(define (db:test-data-rollup db test-id status #!key (work-area #f))
(let ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area))
(fail-count 0)
(pass-count 0))
(if tdb
(begin
(sqlite3:for-each-row
(lambda (fcount pcount)
(set! fail-count fcount)
(set! pass-count pcount))
tdb
"SELECT (SELECT count(id) FROM test_data WHERE test_id=? AND status like 'fail') AS fail_count,
(SELECT count(id) FROM test_data WHERE test_id=? AND status like 'pass') AS pass_count;"
test-id test-id)
(sqlite3:finalize! tdb)
;; Now rollup the counts to the central megatest.db
(cdb:pass-fail-counts *runremote* test-id fail-count pass-count)
;; (sqlite3:execute db "UPDATE tests SET fail_count=?,pass_count=? WHERE id=?;"
;; fail-count pass-count test-id)
;; The flush is not needed with the transaction based write agregation enabled. Remove these commented lines
;; next time you read this!
;;
;; (cdb:flush-queue *runremote*)
;; (thread-sleep! 1) ;; play nice with the queue by ensuring the rollup is at least 10ms later than the set
;; if the test is not FAIL then set status based on the fail and pass counts.
(cdb:test-rollup-test_data-pass-fail *runremote* test-id)
;; (sqlite3:execute
;; db ;;; NOTE: Should this be WARN,FAIL? A WARN is not a FAIL????? BUG FIXME
;; "UPDATE tests
;; SET status=CASE WHEN (SELECT fail_count FROM tests WHERE id=?) > 0
;; THEN 'FAIL'
;; WHEN (SELECT pass_count FROM tests WHERE id=?) > 0 AND
;; (SELECT status FROM tests WHERE id=?) NOT IN ('WARN','FAIL')
;; THEN 'PASS'
;; ELSE status
;; END WHERE id=?;"
;; test-id test-id test-id test-id)
))))
(define (db:get-prev-tol-for-test db test-id category variable)
;; Finish me?
(values #f #f #f))
;;======================================================================
;; S T E P S
;;======================================================================
(define (db:step-get-time-as-string vec)
(seconds->time-string (db:step-get-event_time vec)))
;; db-get-test-steps-for-run
(define (db:get-steps-for-test db test-id #!key (work-area #f))
(let* ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area))
(res '()))
(if tdb
(begin
(sqlite3:for-each-row
(lambda (id test-id stepname state status event-time logfile)
(set! res (cons (vector id test-id stepname state status event-time (if (string? logfile) logfile "")) res)))
tdb
"SELECT id,test_id,stepname,state,status,event_time,logfile FROM test_steps WHERE test_id=? ORDER BY id ASC;" ;; event_time DESC,id ASC;
test-id)
(sqlite3:finalize! tdb)
(reverse res))
'())))
;; get a pretty table to summarize steps
;;
(define (db:get-steps-table db test-id #!key (work-area #f))
(let ((steps (db:get-steps-for-test db test-id work-area: work-area)))
;; organise the steps for better readability
(let ((res (make-hash-table)))
(for-each
(lambda (step)
(debug:print 6 "step=" step)
(let ((record (hash-table-ref/default
res
(db:step-get-stepname step)
;; stepname start end status Duration Logfile
(vector (db:step-get-stepname step) "" "" "" "" ""))))
(debug:print 6 "record(before) = " record
"\nid: " (db:step-get-id step)
"\nstepname: " (db:step-get-stepname step)
"\nstate: " (db:step-get-state step)
"\nstatus: " (db:step-get-status step)
"\ntime: " (db:step-get-event_time step))
(case (string->symbol (db:step-get-state step))
((start)(vector-set! record 1 (db:step-get-event_time step))
(vector-set! record 3 (if (equal? (vector-ref record 3) "")
(db:step-get-status step)))
(if (> (string-length (db:step-get-logfile step))
0)
(vector-set! record 5 (db:step-get-logfile step))))
((end)
(vector-set! record 2 (any->number (db:step-get-event_time step)))
(vector-set! record 3 (db: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 "record[1]=" (vector-ref record 1)
", startt=" startt ", endt=" endt
", get-status: " (db:step-get-status step))
(if (and (number? startt)(number? endt))
(seconds->hr-min-sec (- endt startt)) "-1")))
(if (> (string-length (db:step-get-logfile step))
0)
(vector-set! record 5 (db:step-get-logfile step))))
(else
(vector-set! record 2 (db:step-get-state step))
(vector-set! record 3 (db:step-get-status step))
(vector-set! record 4 (db:step-get-event_time step))))
(hash-table-set! res (db:step-get-stepname step) record)
(debug:print 6 "record(after) = " record
"\nid: " (db:step-get-id step)
"\nstepname: " (db:step-get-stepname step)
"\nstate: " (db:step-get-state step)
"\nstatus: " (db:step-get-status step)
"\ntime: " (db:step-get-event_time step))))
;; (else (vector-set! record 1 (db:step-get-event_time step)))
(sort steps (lambda (a b)
(cond
((< (db:step-get-event_time a)(db:step-get-event_time b)) #t)
((eq? (db:step-get-event_time a)(db:step-get-event_time b))
(< (db:step-get-id a) (db:step-get-id b)))
(else #f)))))
res)))
;; get a pretty table to summarize steps
;;
(define (db:get-steps-table-list db test-id #!key (work-area #f))
(let ((steps (db:get-steps-for-test db test-id work-area: work-area)))
;; organise the steps for better readability
(let ((res (make-hash-table)))
(for-each
(lambda (step)
(debug:print 6 "step=" step)
(let ((record (hash-table-ref/default
res
(db:step-get-stepname step)
;; stepname start end status
(vector (db:step-get-stepname step) "" "" "" "" ""))))
(debug:print 6 "record(before) = " record
"\nid: " (db:step-get-id step)
"\nstepname: " (db:step-get-stepname step)
"\nstate: " (db:step-get-state step)
"\nstatus: " (db:step-get-status step)
"\ntime: " (db:step-get-event_time step))
(case (string->symbol (db:step-get-state step))
((start)(vector-set! record 1 (db:step-get-event_time step))
(vector-set! record 3 (if (equal? (vector-ref record 3) "")
(db:step-get-status step)))
(if (> (string-length (db:step-get-logfile step))
0)
(vector-set! record 5 (db:step-get-logfile step))))
((end)
(vector-set! record 2 (any->number (db:step-get-event_time step)))
(vector-set! record 3 (db: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 "record[1]=" (vector-ref record 1)
", startt=" startt ", endt=" endt
", get-status: " (db:step-get-status step))
(if (and (number? startt)(number? endt))
(seconds->hr-min-sec (- endt startt)) "-1")))
(if (> (string-length (db:step-get-logfile step))
0)
(vector-set! record 5 (db:step-get-logfile step))))
(else
(vector-set! record 2 (db:step-get-state step))
(vector-set! record 3 (db:step-get-status step))
(vector-set! record 4 (db:step-get-event_time step))))
(hash-table-set! res (db:step-get-stepname step) record)
(debug:print 6 "record(after) = " record
"\nid: " (db:step-get-id step)
"\nstepname: " (db:step-get-stepname step)
"\nstate: " (db:step-get-state step)
"\nstatus: " (db:step-get-status step)
"\ntime: " (db:step-get-event_time step))))
;; (else (vector-set! record 1 (db:step-get-event_time step)))
(sort steps (lambda (a b)
(cond
((< (db:step-get-event_time a)(db:step-get-event_time b)) #t)
((eq? (db:step-get-event_time a)(db:step-get-event_time b))
(< (db:step-get-id a) (db:step-get-id b)))
(else #f)))))
res)))
(define (db:get-compressed-steps test-id #!key (work-area #f))
(if (or (not work-area)
(file-exists? (conc work-area "/testdat.db")))
(let* ((comprsteps (open-run-close db:get-steps-table #f test-id work-area: work-area)))
(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))))))))
'()))
;;======================================================================
;; M I S C M A N A G E M E N T I T E M S
;;======================================================================
;; the new prereqs calculation, looks also at itempath if specified
;; all prereqs must be met:
;; if prereq test with itempath='' is COMPLETED and PASS, WARN, CHECK, or WAIVED then prereq is met
;; if prereq test with itempath=ref-item-path and COMPLETED with PASS, WARN, CHECK, or WAIVED then prereq is met
;;
;; Note: mode 'normal means that tests must be COMPLETED and ok (i.e. PASS, WARN, CHECK, SKIP or WAIVED)
;; mode 'toplevel means that tests must be COMPLETED only
;; mode 'itemmatch means that tests items must be COMPLETED and (PASS|WARN|WAIVED|CHECK) [[ NB// NOT IMPLEMENTED YET ]]
;;
(define (db:get-prereqs-not-met run-id waitons ref-item-path #!key (mode 'normal))
(if (or (not waitons)
(null? waitons))
'()
(let* ((unmet-pre-reqs '())
(result '()))
(for-each
(lambda (waitontest-name)
;; by getting the tests with matching name we are looking only at the matching test
;; and related sub items
(let ((tests (cdb:remote-run db:get-tests-for-run #f run-id waitontest-name '() '()))
(ever-seen #f)
(parent-waiton-met #f)
(item-waiton-met #f))
(for-each
(lambda (test)
;; (if (equal? waitontest-name (db:test-get-testname test)) ;; by defintion this had better be true ...
(let* ((state (db:test-get-state test))
(status (db:test-get-status test))
(item-path (db:test-get-item-path test))
(is-completed (equal? state "COMPLETED"))
(is-ok (member status '("PASS" "WARN" "CHECK" "WAIVED" "SKIP")))
(same-itempath (equal? ref-item-path item-path)))
(set! ever-seen #t)
(cond
;; case 1, non-item (parent test) is
((and (equal? item-path "") ;; this is the parent test
is-completed
(or is-ok (eq? mode 'toplevel)))
(set! parent-waiton-met #t))
((and same-itempath
is-completed
(or is-ok (eq? mode 'toplevel)))
(set! item-waiton-met #t)))))
tests)
(if (not (or parent-waiton-met item-waiton-met))
(set! result (append (if (null? tests) (list waitontest-name) tests) result)))
;; if the test is not found then clearly the waiton is not met...
;; (if (not ever-seen)(set! result (cons waitontest-name result)))))
(if (not ever-seen)
(set! result (append (if (null? tests)(list waitontest-name) tests) result)))))
waitons)
(delete-duplicates result))))
(define (db:teststep-set-status! db test-id teststep-name state-in status-in comment logfile #!key (work-area #f))
(debug:print 4 "test-id: " test-id " teststep-name: " teststep-name)
;; db:open-test-db-by-test-id does cdb:remote-run
(let* ((tdb (db:open-test-db-by-test-id db test-id work-area: work-area))
(state (items:check-valid-items "state" state-in))
(status (items:check-valid-items "status" status-in)))
(if (or (not state)(not status))
(debug:print 3 "WARNING: Invalid " (if status "status" "state")
" value \"" (if status state-in status-in) "\", update your validvalues section in megatest.config"))
(if tdb
(begin
(sqlite3:execute
tdb
"INSERT OR REPLACE into test_steps (test_id,stepname,state,status,event_time,comment,logfile) VALUES(?,?,?,?,?,?,?);"
test-id teststep-name state-in status-in (current-seconds) (if comment comment "") (if logfile logfile ""))
(sqlite3:finalize! tdb)
#t)
#f)))
;;======================================================================
;; Extract ods file from the db
;;======================================================================
;; runspatt is a comma delimited list of run patterns
;; keypatt-alist must contain *all* keys with an associated pattern: '( ("KEY1" "%") .. )
(define (db:extract-ods-file db outputfile keypatt-alist runspatt pathmod)
(let* ((keysstr (string-intersperse (map car keypatt-alist) ","))
(keyqry (string-intersperse (map (lambda (p)(conc (car p) " LIKE ? ")) keypatt-alist) " AND "))
(numkeys (length keypatt-alist))
(test-ids '())
(windows (and pathmod (substring-index "\\" pathmod)))
(tempdir (conc "/tmp/" (current-user-name) "/" runspatt "_" (random 10000) "_" (current-process-id)))
(runsheader (append (list "Run Id" "Runname") ; 0 1
(map car keypatt-alist) ; + N = length keypatt-alist
(list "Testname" ; 2
"Item Path" ; 3
"Description" ; 4
"State" ; 5
"Status" ; 6
"Final Log" ; 7
"Run Duration" ; 8
"When Run" ; 9
"Tags" ; 10
"Run Owner" ; 11
"Comment" ; 12
"Author" ; 13
"Test Owner" ; 14
"Reviewed" ; 15
"Diskfree" ; 16
"Uname" ; 17
"Rundir" ; 18
"Host" ; 19
"Cpu Load" ; 20
)))
(results (list runsheader))
(testdata-header (list "Run Id" "Testname" "Item Path" "Category" "Variable" "Value" "Expected" "Tol" "Units" "Status" "Comment"))
(mainqry (conc "SELECT
t.testname,r.id,runname," keysstr ",t.testname,
t.item_path,tm.description,t.state,t.status,
final_logf,run_duration,
strftime('%m/%d/%Y %H:%M:%S',datetime(t.event_time,'unixepoch'),'localtime'),
tm.tags,r.owner,t.comment,
author,
tm.owner,reviewed,
diskfree,uname,rundir,
host,cpuload
FROM tests AS t JOIN runs AS r ON t.run_id=r.id JOIN test_meta AS tm ON tm.testname=t.testname
WHERE runname LIKE ? AND " keyqry ";")))
(debug:print 2 "Using " tempdir " for constructing the ods file. keyqry: " keyqry " keystr: " keysstr " with keys: " (map cadr keypatt-alist)
"\n mainqry: " mainqry)
;; "Expected Value"
;; "Value Found"
;; "Tolerance"
(apply sqlite3:for-each-row
(lambda (test-id . b)
(set! test-ids (cons test-id test-ids)) ;; test-id is now testname
(set! results (append results ;; note, drop the test-id
(list
(if pathmod
(let* ((vb (apply vector b))
(keyvals (let loop ((i 0)
(res '()))
(if (>= i numkeys)
res
(loop (+ i 1)
(append res (list (vector-ref vb (+ i 2))))))))
(runname (vector-ref vb 1))
(testname (vector-ref vb (+ 2 numkeys)))
(item-path (vector-ref vb (+ 3 numkeys)))
(final-log (vector-ref vb (+ 7 numkeys)))
(run-dir (vector-ref vb (+ 18 numkeys)))
(log-fpath (conc run-dir "/" final-log))) ;; (string-intersperse keyvals "/") "/" testname "/" item-path "/"
(debug:print 4 "log: " log-fpath " exists: " (file-exists? log-fpath))
(vector-set! vb (+ 7 numkeys) (if (file-exists? log-fpath)
(let ((newpath (conc pathmod "/"
(string-intersperse keyvals "/")
"/" runname "/" testname "/"
(if (string=? item-path "") "" (conc "/" item-path))
final-log)))
;; for now throw away newpath and use the log-fpath conc'd with pathmod
(set! newpath (conc pathmod log-fpath))
(if windows (string-translate newpath "/" "\\") newpath))
(if (debug:debug-mode 1)
(conc final-log " not-found")
"")))
(vector->list vb))
b)))))
db
mainqry
runspatt (map cadr keypatt-alist))
(debug:print 2 "Found " (length test-ids) " records")
(set! results (list (cons "Runs" results)))
;; now, for each test, collect the test_data info and add a new sheet
(for-each
(lambda (test-id)
(let ((test-data (list testdata-header))
(curr-test-name #f))
(sqlite3:for-each-row
(lambda (run-id testname item-path category variable value expected tol units status comment)
(set! curr-test-name testname)
(set! test-data (append test-data (list (list run-id testname item-path category variable value expected tol units status comment)))))
db
;; "SELECT run_id,testname,item_path,category,variable,td.value AS value,expected,tol,units,td.status AS status,td.comment AS comment FROM test_data AS td INNER JOIN tests ON tests.id=td.test_id WHERE test_id=?;"
"SELECT run_id,testname,item_path,category,variable,td.value AS value,td.expected,td.tol,td.units,td.status AS status,td.comment AS comment FROM test_data AS td INNER JOIN tests ON tests.id=td.test_id WHERE testname=?;"
test-id)
(if curr-test-name
(set! results (append results (list (cons curr-test-name test-data)))))
))
(sort (delete-duplicates test-ids) string<=))
(system (conc "mkdir -p " tempdir))
;; (pp results)
(ods:list->ods
tempdir
(if (string-match (regexp "^[/~]+.*") outputfile) ;; full path?
outputfile
(begin
(debug:print 0 "WARNING: path given, " outputfile " is relative, prefixing with current directory")
(conc (current-directory) "/" outputfile)))
results)
;; brutal clean up
(system "rm -rf tempdir")))
;; (db:extract-ods-file db "outputfile.ods" '(("sysname" "%")("fsname" "%")("datapath" "%")) "%")