;;======================================================================
;; Copyright 2006-2013, 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.
;;======================================================================
;;======================================================================
;; Tests
;;======================================================================
(use sqlite3 srfi-1 posix regex regex-case srfi-69 dot-locking tcp directory-utils)
(import (prefix sqlite3 sqlite3:))
(require-library stml)
(declare (unit tests))
(declare (uses lock-queue))
(declare (uses db))
(declare (uses tdb))
(declare (uses common))
;; (declare (uses dcommon)) ;; needed for the steps processing
(declare (uses items))
(declare (uses runconfig))
;; (declare (uses sdb))
(declare (uses server))
(include "common_records.scm")
(include "key_records.scm")
(include "db_records.scm")
(include "run_records.scm")
(include "test_records.scm")
;; Call this one to do all the work and get a standardized list of tests
;; gets paths from configs and finds valid tests
;; returns hash of testname --> fullpath
;;
(define (tests:get-all)
(let* ((test-search-path (tests:get-tests-search-path *configdat*)))
(tests:get-valid-tests (make-hash-table) test-search-path)))
(define (tests:get-tests-search-path cfgdat)
(let ((paths (map cadr (configf:get-section cfgdat "tests-paths"))))
(filter (lambda (d)
(if (directory-exists? d)
d
(begin
(if (common:low-noise-print 60 "tests:get-tests-search-path" d)
(debug:print 0 "WARNING: problem with directory " d ", dropping it from tests path"))
#f)))
(append paths (list (conc *toppath* "/tests"))))))
(define (tests:get-valid-tests test-registry tests-paths)
(if (null? tests-paths)
test-registry
(let loop ((hed (car tests-paths))
(tal (cdr tests-paths)))
(if (file-exists? hed)
(for-each (lambda (test-path)
(let* ((tname (last (string-split test-path "/")))
(tconfig (conc test-path "/testconfig")))
(if (and (not (hash-table-ref/default test-registry tname #f))
(file-exists? tconfig))
(hash-table-set! test-registry tname test-path))))
(glob (conc hed "/*"))))
(if (null? tal)
test-registry
(loop (car tal)(cdr tal))))))
(define (tests:filter-test-names test-names test-patts)
(delete-duplicates
(filter (lambda (testname)
(tests:match test-patts testname #f))
test-names)))
;; itemmap is a list of testname patterns to maps
;; test1 .*/bar/(\d+) foo/\1
;; % foo/([^/]+) \1/bar
;;
;; # NOTE: the line with the single % could be the result of
;; # itemmap entry in requirements (legacy). The itemmap
;; # requirements entry is deprecated
;;
(define (tests:get-itemmaps tconfig)
(let ((base-itemmap (configf:lookup tconfig "requirements" "itemmap"))
(itemmap-table (configf:get-section tconfig "itemmap")))
(append (if base-itemmap
(list (list "%" base-itemmap))
'())
(if itemmap-table
itemmap-table
'()))))
;; given a list of itemmaps (testname . map), return the first match
;;
(define (tests:lookup-itemmap itemmaps testname)
(let ((best-matches (filter (lambda (itemmap)
(tests:match (car itemmap) testname #f))
itemmaps)))
(if (null? best-matches)
#f
(let ((res (car best-matches)))
;; (debug:print 0 "res=" res)
(cond
((string? res) res) ;;; FIX THE ROOT CAUSE HERE ....
((null? res) #f)
((string? (cdr res)) (cdr res)) ;; it is a pair
((string? (cadr res))(cadr res)) ;; it is a list
(else cadr res))))))
;; returns waitons waitors tconfigdat
;;
(define (tests:get-waitons test-name all-tests-registry)
(let* ((config (tests:get-testconfig test-name all-tests-registry 'return-procs)))
(let ((instr (if config
(config-lookup config "requirements" "waiton")
(begin ;; No config means this is a non-existant test
(debug:print 0 "ERROR: non-existent required test \"" test-name "\"")
(exit 1))))
(instr2 (if config
(config-lookup config "requirements" "waitor")
"")))
(debug:print-info 8 "waitons string is " instr ", waitors string is " instr2)
(let ((newwaitons
(string-split (cond
((procedure? instr)
(let ((res (instr)))
(debug:print-info 8 "waiton procedure results in string " res " for test " test-name)
res))
((string? instr) instr)
(else
;; NOTE: This is actually the case of *no* waitons! ;; (debug:print 0 "ERROR: something went wrong in processing waitons for test " test-name)
""))))
(newwaitors
(string-split (cond
((procedure? instr2)
(let ((res (instr2)))
(debug:print-info 8 "waitor procedure results in string " res " for test " test-name)
res))
((string? instr2) instr2)
(else
;; NOTE: This is actually the case of *no* waitons! ;; (debug:print 0 "ERROR: something went wrong in processing waitons for test " test-name)
"")))))
(values
;; the waitons
(filter (lambda (x)
(if (hash-table-ref/default all-tests-registry x #f)
#t
(begin
(debug:print 0 "ERROR: test " test-name " has unrecognised waiton testname " x)
#f)))
newwaitons)
(filter (lambda (x)
(if (hash-table-ref/default all-tests-registry x #f)
#t
(begin
(debug:print 0 "ERROR: test " test-name " has unrecognised waiton testname " x)
#f)))
newwaitors)
config)))))
;; given waiting-test that is waiting on waiton-test extend test-patt appropriately
;;
;; genlib/testconfig sim/testconfig
;; genlib/sch sim/sch/cell1
;;
;; [requirements] [requirements]
;; mode itemwait
;; # trim off the cell to determine what to run for genlib
;; itemmap /.*
;;
;; waiting-test is waiting on waiton-test so we need to create a pattern for waiton-test given waiting-test and itemmap
(define (tests:extend-test-patts test-patt waiting-test waiton-test itemmaps)
(let* ((itemmap (tests:lookup-itemmap itemmaps waiton-test))
(patts (string-split test-patt ","))
(waiting-test-len (+ (string-length waiting-test) 1))
(patts-waiton (map (lambda (x) ;; for each incoming patt that matches the waiting test
(let* ((modpatt (if itemmap (db:convert-test-itempath x itemmap) x))
(newpatt (conc waiton-test "/" (substring modpatt waiting-test-len (string-length modpatt)))))
;; (conc waiting-test "/," waiting-test "/" (substring modpatt waiton-test-len (string-length modpatt)))))
;; (print "in map, x=" x ", newpatt=" newpatt)
newpatt))
(filter (lambda (x)
(eq? (substring-index (conc waiting-test "/") x) 0)) ;; is this patt pertinent to the waiting test
patts))))
(string-intersperse (delete-duplicates (append patts (if (null? patts-waiton)
(list (conc waiton-test "/%")) ;; really shouldn't add the waiton forcefully like this
patts-waiton)))
",")))
;; tests:glob-like-match
(define (tests:glob-like-match patt str)
(let ((like (substring-index "%" patt)))
(let* ((notpatt (equal? (substring-index "~" patt) 0))
(newpatt (if notpatt (substring patt 1) patt))
(finpatt (if like
(string-substitute (regexp "%") ".*" newpatt #f)
(string-substitute (regexp "\\*") ".*" newpatt #f)))
(res #f))
;; (print "tests:glob-like-match => notpatt: " notpatt ", newpatt: " newpatt ", finpatt: " finpatt)
(set! res (string-match (regexp finpatt (if like #t #f)) str))
(if notpatt (not res) res))))
;; if itempath is #f then look only at the testname part
;;
(define (tests:match patterns testname itempath #!key (required '()))
(if (string? patterns)
(let ((patts (append (string-split patterns ",") required)))
(if (null? patts) ;;; no pattern(s) means no match
#f
(let loop ((patt (car patts))
(tal (cdr patts)))
;; (print "loop: patt: " patt ", tal " tal)
(if (string=? patt "")
#f ;; nothing ever matches empty string - policy
(let* ((patt-parts (string-match (regexp "^([^\\/]*)(\\/(.*)|)$") patt))
(test-patt (cadr patt-parts))
(item-patt (cadddr patt-parts)))
;; special case: test vs. test/
;; test => "test" "%"
;; test/ => "test" ""
(if (and (not (substring-index "/" patt)) ;; no slash in the original
(or (not item-patt)
(equal? item-patt ""))) ;; should always be true that item-patt is ""
(set! item-patt "%"))
;; (print "tests:match => patt-parts: " patt-parts ", test-patt: " test-patt ", item-patt: " item-patt)
(if (and (tests:glob-like-match test-patt testname)
(or (not itempath)
(tests:glob-like-match (if item-patt item-patt "") itempath)))
#t
(if (null? tal)
#f
(loop (car tal)(cdr tal)))))))))))
;; if itempath is #f then look only at the testname part
;;
(define (tests:match->sqlqry patterns)
(if (string? patterns)
(let ((patts (string-split patterns ",")))
(if (null? patts) ;;; no pattern(s) means no match, we will do no query
#f
(let loop ((patt (car patts))
(tal (cdr patts))
(res '()))
;; (print "loop: patt: " patt ", tal " tal)
(let* ((patt-parts (string-match (regexp "^([^\\/]*)(\\/(.*)|)$") patt))
(test-patt (cadr patt-parts))
(item-patt (cadddr patt-parts))
(test-qry (db:patt->like "testname" test-patt))
(item-qry (db:patt->like "item_path" item-patt))
(qry (conc "(" test-qry " AND " item-qry ")")))
;; (print "tests:match => patt-parts: " patt-parts ", test-patt: " test-patt ", item-patt: " item-patt)
(if (null? tal)
(string-intersperse (append (reverse res)(list qry)) " OR ")
(loop (car tal)(cdr tal)(cons qry res)))))))
#f))
;; Check for waiver eligibility
;;
(define (tests:check-waiver-eligibility testdat prev-testdat)
(let* ((test-registry (make-hash-table))
(testconfig (tests:get-testconfig (db:test-get-testname testdat) test-registry #f))
(test-rundir ;; (sdb:qry 'passstr
(db:test-get-rundir testdat)) ;; )
(prev-rundir ;; (sdb:qry 'passstr
(db:test-get-rundir prev-testdat)) ;; )
(waivers (if testconfig (configf:section-vars testconfig "waivers") '()))
(waiver-rx (regexp "^(\\S+)\\s+(.*)$"))
(diff-rule "diff %file1% %file2%")
(logpro-rule "diff %file1% %file2% | logpro %waivername%.logpro %waivername%.html"))
(if (not (file-exists? test-rundir))
(begin
(debug:print 0 "ERROR: test run directory is gone, cannot propagate waiver")
#f)
(begin
(push-directory test-rundir)
(let ((result (if (null? waivers)
#f
(let loop ((hed (car waivers))
(tal (cdr waivers)))
(debug:print 0 "INFO: Applying waiver rule \"" hed "\"")
(let* ((waiver (configf:lookup testconfig "waivers" hed))
(wparts (if waiver (string-match waiver-rx waiver) #f))
(waiver-rule (if wparts (cadr wparts) #f))
(waiver-glob (if wparts (caddr wparts) #f))
(logpro-file (if waiver
(let ((fname (conc hed ".logpro")))
(if (file-exists? fname)
fname
(begin
(debug:print 0 "INFO: No logpro file " fname " falling back to diff")
#f)))
#f))
;; if rule by name of waiver-rule is found in testconfig - use it
;; else if waivername.logpro exists use logpro-rule
;; else default to diff-rule
(rule-string (let ((rule (configf:lookup testconfig "waiver_rules" waiver-rule)))
(if rule
rule
(if logpro-file
logpro-rule
(begin
(debug:print 0 "INFO: No logpro file " logpro-file " found, using diff rule")
diff-rule)))))
;; (string-substitute "%file1%" "foofoo.txt" "This is %file1% and so is this %file1%." #t)
(processed-cmd (string-substitute
"%file1%" (conc test-rundir "/" waiver-glob)
(string-substitute
"%file2%" (conc prev-rundir "/" waiver-glob)
(string-substitute
"%waivername%" hed rule-string #t) #t) #t))
(res #f))
(debug:print 0 "INFO: waiver command is \"" processed-cmd "\"")
(if (eq? (system processed-cmd) 0)
(if (null? tal)
#t
(loop (car tal)(cdr tal)))
#f))))))
(pop-directory)
result)))))
(define (tests:test-force-state-status! run-id test-id state status)
(rmt:test-set-status-state run-id test-id status state #f)
(mt:process-triggers run-id test-id state status))
;; Do not rpc this one, do the underlying calls!!!
(define (tests:test-set-status! run-id test-id state status comment dat #!key (work-area #f))
(let* ((real-status status)
(otherdat (if dat dat (make-hash-table)))
(testdat (rmt:get-test-info-by-id run-id test-id))
(test-name (db:test-get-testname testdat))
(item-path (db:test-get-item-path testdat))
;; before proceeding we must find out if the previous test (where all keys matched except runname)
;; was WAIVED if this test is FAIL
;; NOTES:
;; 1. Is the call to test:get-previous-run-record remotified?
;; 2. Add test for testconfig waiver propagation control here
;;
(prev-test (if (equal? status "FAIL")
(rmt:get-previous-test-run-record run-id test-name item-path)
#f))
(waived (if prev-test
(if prev-test ;; true if we found a previous test in this run series
(let ((prev-status (db:test-get-status prev-test))
(prev-state (db:test-get-state prev-test))
(prev-comment (db:test-get-comment prev-test)))
(debug:print 4 "prev-status " prev-status ", prev-state " prev-state ", prev-comment " prev-comment)
(if (and (equal? prev-state "COMPLETED")
(equal? prev-status "WAIVED"))
(if comment
comment
prev-comment) ;; waived is either the comment or #f
#f))
#f)
#f)))
(if (and waived
(tests:check-waiver-eligibility testdat prev-test))
(set! real-status "WAIVED"))
(debug:print 4 "real-status " real-status ", waived " waived ", status " status)
;; update the primary record IF state AND status are defined
(if (and state status)
(begin
(rmt:test-set-status-state run-id test-id real-status state (if waived waived comment))
(mt:process-triggers run-id test-id state real-status)))
;; if status is "AUTO" then call rollup (note, this one modifies data in test
;; run area, it does remote calls under the hood.
(if (and test-id state status (equal? status "AUTO"))
(rmt:test-data-rollup run-id test-id status))
;; add metadata (need to do this way to avoid SQL injection issues)
;; :first_err
;; (let ((val (hash-table-ref/default otherdat ":first_err" #f)))
;; (if val
;; (sqlite3:execute db "UPDATE tests SET first_err=? WHERE run_id=? AND testname=? AND item_path=?;" val run-id test-name item-path)))
;;
;; ;; :first_warn
;; (let ((val (hash-table-ref/default otherdat ":first_warn" #f)))
;; (if val
;; (sqlite3:execute db "UPDATE tests SET first_warn=? WHERE run_id=? AND testname=? AND item_path=?;" val run-id test-name item-path)))
(let ((category (hash-table-ref/default otherdat ":category" ""))
(variable (hash-table-ref/default otherdat ":variable" ""))
(value (hash-table-ref/default otherdat ":value" #f))
(expected (hash-table-ref/default otherdat ":expected" #f))
(tol (hash-table-ref/default otherdat ":tol" #f))
(units (hash-table-ref/default otherdat ":units" ""))
(type (hash-table-ref/default otherdat ":type" ""))
(dcomment (hash-table-ref/default otherdat ":comment" "")))
(debug:print 4
"category: " category ", variable: " variable ", value: " value
", expected: " expected ", tol: " tol ", units: " units)
(if (and value expected tol) ;; all three required
(let ((dat (conc category ","
variable ","
value ","
expected ","
tol ","
units ","
dcomment ",," ;; extra comma for status
type )))
;; This was run remote, don't think that makes sense. Perhaps not, but that is the easiest path for the moment.
(rmt:csv->test-data run-id test-id
dat))))
;; need to update the top test record if PASS or FAIL and this is a subtest
(if (not (equal? item-path ""))
(rmt:roll-up-pass-fail-counts run-id test-name item-path state status))
(if (or (and (string? comment)
(string-match (regexp "\\S+") comment))
waived)
(let ((cmt (if waived waived comment)))
(rmt:general-call 'set-test-comment run-id cmt test-id)))))
(define (tests:test-set-toplog! run-id test-name logf)
(rmt:general-call 'tests:test-set-toplog run-id logf run-id test-name))
(define (tests:summarize-items run-id test-id test-name force)
;; if not force then only update the record if one of these is true:
;; 1. logf is "log/final.log
;; 2. logf is same as outputfilename
(let* ((outputfilename (conc "megatest-rollup-" test-name ".html"))
(orig-dir (current-directory))
(logf-info (rmt:test-get-logfile-info run-id test-name))
(logf (if logf-info (cadr logf-info) #f))
(path (if logf-info (car logf-info) #f)))
;; This query finds the path and changes the directory to it for the test
(if (and (string? path)
(directory? path)) ;; can get #f here under some wierd conditions. why, unknown ...
(begin
(debug:print 4 "Found path: " path)
(change-directory path))
;; (set! outputfilename (conc path "/" outputfilename)))
(debug:print 0 "ERROR: summarize-items for run-id=" run-id ", test-name=" test-name ", no such path: " path))
(debug:print 4 "summarize-items with logf " logf ", outputfilename " outputfilename " and force " force)
(if (or (equal? logf "logs/final.log")
(equal? logf outputfilename)
force)
(let ((my-start-time (current-seconds))
(lockf (conc outputfilename ".lock")))
(let loop ((have-lock (common:simple-file-lock lockf)))
(if have-lock
(let ((script (configf:lookup *configdat* "testrollup" test-name)))
(print "Obtained lock for " outputfilename)
;; (rmt:top-test-set-per-pf-counts run-id test-name)
(rmt:roll-up-pass-fail-counts run-id test-name "" #f #f)
(rmt:top-test-set-per-pf-counts run-id test-name)
(if script
(system (conc script " > " outputfilename " & "))
(tests:generate-html-summary-for-iterated-test run-id test-id test-name outputfilename))
(common:simple-file-release-lock lockf)
(change-directory orig-dir)
;; NB// tests:test-set-toplog! is remote internal...
(tests:test-set-toplog! run-id test-name outputfilename))
;; didn't get the lock, check to see if current update started later than this
;; update, if so we can exit without doing any work
(if (> my-start-time (file-modification-time lockf))
;; we started since current re-gen in flight, delay a little and try again
(begin
(debug:print-info 1 "Waiting to update " outputfilename ", another test currently updating it")
(thread-sleep! (+ 5 (random 5))) ;; delay between 5 and 10 seconds
(loop (common:simple-file-lock lockf))))))))))
(define (tests:generate-html-summary-for-iterated-test run-id test-id test-name outputfilename)
(let ((counts (make-hash-table))
(statecounts (make-hash-table))
(outtxt "")
(tot 0)
(testdat (rmt:test-get-records-for-index-file run-id test-name)))
(with-output-to-file outputfilename
(lambda ()
(set! outtxt (conc outtxt "<html><title>Summary: " test-name
"</title><body><h2>Summary for " test-name "</h2>"))
(for-each
(lambda (testrecord)
(let ((id (vector-ref testrecord 0))
(itempath (vector-ref testrecord 1))
(state (vector-ref testrecord 2))
(status (vector-ref testrecord 3))
(run_duration (vector-ref testrecord 4))
(logf (vector-ref testrecord 5))
(comment (vector-ref testrecord 6)))
(hash-table-set! counts status (+ 1 (hash-table-ref/default counts status 0)))
(hash-table-set! statecounts state (+ 1 (hash-table-ref/default statecounts state 0)))
(set! outtxt (conc outtxt "<tr>"
;; "<td><a href=\"" itempath "/" logf "\"> " itempath "</a></td>"
"<td><a href=\"" itempath "/test-summary.html\"> " itempath "</a></td>"
"<td>" state "</td>"
"<td><font color=" (common:get-color-from-status status)
">" status "</font></td>"
"<td>" (if (equal? comment "")
" "
comment) "</td>"
"</tr>"))))
(if (list? testdat)
testdat
(begin
(print "ERROR: failed to get records with rmt:test-get-records-for-index-file run-id=" run-id "test-name=" test-name)
'())))
(print "<table><tr><td valign=\"top\">")
;; Print out stats for status
(set! tot 0)
(print "<table cellspacing=\"0\" border=\"1\"><tr><td colspan=\"2\"><h2>State stats</h2></td></tr>")
(for-each (lambda (state)
(set! tot (+ tot (hash-table-ref statecounts state)))
(print "<tr><td>" state "</td><td>" (hash-table-ref statecounts state) "</td></tr>"))
(hash-table-keys statecounts))
(print "<tr><td>Total</td><td>" tot "</td></tr></table>")
(print "</td><td valign=\"top\">")
;; Print out stats for state
(set! tot 0)
(print "<table cellspacing=\"0\" border=\"1\"><tr><td colspan=\"2\"><h2>Status stats</h2></td></tr>")
(for-each (lambda (status)
(set! tot (+ tot (hash-table-ref counts status)))
(print "<tr><td><font color=\"" (common:get-color-from-status status) "\">" status
"</font></td><td>" (hash-table-ref counts status) "</td></tr>"))
(hash-table-keys counts))
(print "<tr><td>Total</td><td>" tot "</td></tr></table>")
(print "</td></td></tr></table>")
(print "<table cellspacing=\"0\" border=\"1\">"
"<tr><td>Item</td><td>State</td><td>Status</td><td>Comment</td>"
outtxt "</table></body></html>")
;; (release-dot-lock outputfilename)
;;(rmt:update-run-stats
;; run-id
;; (hash-table-map
;; state-status-counts
;; (lambda (key val)
;; (append key (list val)))))
))))
;; CHECK - WAS THIS ADDED OR REMOVED? MANUAL MERGE WITH API STUFF!!!
;;
;; get a pretty table to summarize steps
;;
;; (define (dcommon:process-steps-table steps);; db test-id #!key (work-area #f))
(define (tests:process-steps-table steps);; 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
(tdb:step-get-stepname step)
;; stepname start end status Duration Logfile
(vector (tdb:step-get-stepname step) "" "" "" "" ""))))
(debug:print 6 "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 "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 "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))
;; temporarily passing in dbstruct to support direct access (i.e. bypassing servers)
;;
(define (tests:get-compressed-steps dbstruct run-id test-id)
(let* ((steps-data (if dbstruct
(db:get-steps-for-test dbstruct run-id test-id)
(rmt:get-steps-for-test run-id test-id)))
(comprsteps (tests:process-steps-table steps-data))) ;; (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)))))))))
;; summarize test
(define (tests:summarize-test run-id test-id)
(let* ((test-dat (rmt:get-test-info-by-id run-id test-id))
(steps-dat (rmt:get-steps-for-test run-id test-id))
(test-name (db:test-get-testname test-dat))
(item-path (db:test-get-item-path test-dat))
(full-name (db:test-make-full-name test-name item-path))
(oup (open-output-file (conc (db:test-get-rundir test-dat) "/test-summary.html")))
(status (db:test-get-status test-dat))
(color (common:get-color-from-status status))
(logf (db:test-get-final_logf test-dat))
(steps-dat (tests:get-compressed-steps #f run-id test-id)))
;; (dcommon:get-compressed-steps #f 1 30045)
;; (#("wasting_time" "23:36:13" "23:36:21" "0" "8.0s" "wasting_time.log"))
(s:output-new
oup
(s:html
(s:title "Summary for " full-name)
(s:body
(s:h2 "Summary for " full-name)
(s:table 'cellspacing "0" 'border "1"
(s:tr (s:td "run id") (s:td (db:test-get-run_id test-dat))
(s:td "test id") (s:td (db:test-get-id test-dat)))
(s:tr (s:td "testname") (s:td test-name)
(s:td "itempath") (s:td item-path))
(s:tr (s:td "state") (s:td (db:test-get-state test-dat))
(s:td "status") (s:td (s:a 'href logf (s:font 'color color status))))
(s:tr (s:td "TestDate") (s:td (seconds->work-week/day-time
(db:test-get-event_time test-dat)))
(s:td "Duration") (s:td (seconds->hr-min-sec (db:test-get-run_duration test-dat)))))
(s:h3 "Log files")
(s:table
'cellspacing "0" 'border "1"
(s:tr (s:td "Final log")(s:td (s:a 'href logf logf))))
(s:table
'cellspacing "0" 'border "1"
(s:tr (s:td "Step Name")(s:td "Start")(s:td "End")(s:td "Status")(s:td "Duration")(s:td "Log File"))
(map (lambda (step-dat)
(s:tr (s:td (tdb:steps-table-get-stepname step-dat))
(s:td (tdb:steps-table-get-start step-dat))
(s:td (tdb:steps-table-get-end step-dat))
(s:td (tdb:steps-table-get-status step-dat))
(s:td (tdb:steps-table-get-runtime step-dat))
(s:td (let ((step-log (tdb:steps-table-get-log-file step-dat)))
(s:a 'href step-log step-log)))))
steps-dat))
)))
(close-output-port oup)))
;; MUST BE CALLED local!
;;
(define (tests:test-get-paths-matching 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 (rmt:test-get-paths-matching-keynames-target-new keynames target res
testpatt
statepatt
statuspatt
runname)))
(if fnamepatt
(apply append
(map (lambda (p)
(if (directory-exists? p)
(glob (conc p "/" fnamepatt))
'()))
paths-from-db))
paths-from-db)))
;;======================================================================
;; Gather data from test/task specifications
;;======================================================================
;; (define (tests:get-valid-tests testsdir test-patts) ;; #!key (test-names '()))
;; (let ((tests (glob (conc testsdir "/tests/*")))) ;; " (string-translate patt "%" "*")))))
;; (set! tests (filter (lambda (test)(file-exists? (conc test "/testconfig"))) tests))
;; (delete-duplicates
;; (filter (lambda (testname)
;; (tests:match test-patts testname #f))
;; (map (lambda (testp)
;; (last (string-split testp "/")))
;; tests)))))
(define (tests:get-test-path-from-environment)
(and (getenv "MT_LINKTREE")
(getenv "MT_TARGET")
(getenv "MT_RUNNAME")
(getenv "MT_TEST_NAME")
(getenv "MT_ITEMPATH")
(conc (getenv "MT_LINKTREE") "/"
(getenv "MT_TARGET") "/"
(getenv "MT_RUNNAME") "/"
(getenv "MT_TEST_NAME") "/"
(if (or (getenv "MT_ITEMPATH")
(not (string=? "" (getenv "MT_ITEMPATH"))))
(conc "/" (getenv "MT_ITEMPATH"))))))
;; if .testconfig exists in test directory read and return it
;; else if have cached copy in *testconfigs* return it IFF there is a section "have fulldata"
;; else read the testconfig file
;; if have path to test directory save the config as .testconfig and return it
;;
(define (tests:get-testconfig test-name test-registry system-allowed #!key (force-create #f))
(let* ((cache-path (tests:get-test-path-from-environment))
(cache-file (and cache-path (conc cache-path "/.testconfig")))
(cache-exists (and cache-file
(not force-create) ;; if force-create then pretend there is no cache to read
(file-exists? cache-file)))
(cached-dat (if (and (not force-create)
cache-exists)
(handle-exceptions
exn
#f ;; any issues, just give up with the cached version and re-read
(configf:read-alist cache-file))
#f)))
(if cached-dat
cached-dat
(let ((dat (hash-table-ref/default *testconfigs* test-name #f)))
(if (and dat ;; have a locally cached version
(hash-table-ref/default dat "have fulldata" #f)) ;; marked as good data?
dat
;; no cached data available
(let* ((treg (or test-registry
(tests:get-all)))
(test-path (or (hash-table-ref/default treg test-name #f)
(conc *toppath* "/tests/" test-name)))
(test-configf (conc test-path "/testconfig"))
(testexists (and (file-exists? test-configf)(file-read-access? test-configf)))
(tcfg (if testexists
(read-config test-configf #f system-allowed
environ-patt: (if system-allowed
"pre-launch-env-vars"
#f))
#f)))
(if cache-file (hash-table-set! tcfg "have fulldata" #t)) ;; mark this as fully read data
(if tcfg (hash-table-set! *testconfigs* test-name tcfg))
(if (and testexists
cache-file
(file-write-access? cache-path))
(let ((tpath (conc cache-path "/.testconfig")))
(debug:print-info 1 "Caching testconfig for " test-name " in " tpath)
(configf:write-alist tcfg tpath)))
tcfg))))))
;; sort tests by priority and waiton
;; Move test specific stuff to a test unit FIXME one of these days
(define (tests:sort-by-priority-and-waiton test-records)
(let* ((mungepriority (lambda (priority)
(if priority
(let ((tmp (any->number priority)))
(if tmp tmp (begin (debug:print 0 "ERROR: bad priority value " priority ", using 0") 0)))
0)))
(all-tests (hash-table-keys test-records))
(all-waited-on (let loop ((hed (car all-tests))
(tal (cdr all-tests))
(res '()))
(let* ((trec (hash-table-ref test-records hed))
(waitons (or (tests:testqueue-get-waitons trec) '())))
(if (null? tal)
(append res waitons)
(loop (car tal)(cdr tal)(append res waitons))))))
(sort-fn1
(lambda (a b)
(let* ((a-record (hash-table-ref test-records a))
(b-record (hash-table-ref test-records b))
(a-waitons (or (tests:testqueue-get-waitons a-record) '()))
(b-waitons (or (tests:testqueue-get-waitons b-record) '()))
(a-config (tests:testqueue-get-testconfig a-record))
(b-config (tests:testqueue-get-testconfig b-record))
(a-raw-pri (config-lookup a-config "requirements" "priority"))
(b-raw-pri (config-lookup b-config "requirements" "priority"))
(a-priority (mungepriority a-raw-pri))
(b-priority (mungepriority b-raw-pri)))
(tests:testqueue-set-priority! a-record a-priority)
(tests:testqueue-set-priority! b-record b-priority)
;; (debug:print 0 "a=" a ", b=" b ", a-waitons=" a-waitons ", b-waitons=" b-waitons)
(cond
;; is
((member a b-waitons) ;; is b waiting on a?
;; (debug:print 0 "case1")
#t)
((member b a-waitons) ;; is a waiting on b?
;; (debug:print 0 "case2")
#f)
((and (not (null? a-waitons)) ;; both have waitons - do not disturb
(not (null? b-waitons)))
;; (debug:print 0 "case2.1")
#t)
((and (null? a-waitons) ;; no waitons for a but b has waitons
(not (null? b-waitons)))
;; (debug:print 0 "case3")
#f)
((and (not (null? a-waitons)) ;; a has waitons but b does not
(null? b-waitons))
;; (debug:print 0 "case4")
#t)
((not (eq? a-priority b-priority)) ;; use
(> a-priority b-priority))
(else
;; (debug:print 0 "case5")
(string>? a b))))))
(sort-fn2
(lambda (a b)
(> (mungepriority (tests:testqueue-get-priority (hash-table-ref test-records a)))
(mungepriority (tests:testqueue-get-priority (hash-table-ref test-records b)))))))
;; (let ((dot-res (tests:run-dot (tests:tests->dot test-records) "plain")))
;; (debug:print "dot-res=" dot-res))
;; (let ((data (map cdr (filter
;; (lambda (x)(equal? "node" (car x)))
;; (map string-split (tests:easy-dot test-records "plain"))))))
;; (map car (sort data (lambda (a b)
;; (> (string->number (caddr a))(string->number (caddr b)))))))
;; ))
(sort all-tests sort-fn1))) ;; avoid dealing with deleted tests, look at the hash table
(define (tests:easy-dot test-records outtype)
(let-values (((fd temp-path) (file-mkstemp (conc "/tmp/" (current-user-name) ".XXXXXX"))))
(let ((all-testnames (hash-table-keys test-records))
(temp-port (open-output-file* fd)))
;; (format temp-port "This file is ~A.~%" temp-path)
(format temp-port "digraph tests {\n")
(format temp-port " size=4,8\n")
;; (format temp-port " splines=none\n")
(for-each
(lambda (testname)
(let* ((testrec (hash-table-ref test-records testname))
(waitons (or (tests:testqueue-get-waitons testrec) '())))
(for-each
(lambda (waiton)
(format temp-port (conc " " waiton " -> " testname " [splines=ortho]\n")))
waitons)))
all-testnames)
(format temp-port "}\n")
(close-output-port temp-port)
(with-input-from-pipe
(conc "env -i PATH=$PATH dot -T" outtype " < " temp-path)
(lambda ()
(let ((res (read-lines)))
;; (delete-file temp-path)
res))))))
(define (tests:write-dot-file test-records fname)
(if (file-write-access? (pathname-directory fname))
(with-output-to-file fname
(lambda ()
(map print (tests:tests->dot test-records))))))
(define (tests:tests->dot test-records)
(let ((all-testnames (hash-table-keys test-records)))
(if (null? all-testnames)
'()
(let loop ((hed (car all-testnames))
(tal (cdr all-testnames))
(res (list "digraph tests {"
" size=\"11,11\";"
" ratio=0.9;")))
(let* ((testrec (hash-table-ref test-records hed))
(waitons (or (tests:testqueue-get-waitons testrec) '()))
(newres (append res
(if (null? waitons)
(list (conc " \"" hed "\";"))
(map (lambda (waiton)
(conc " \"" waiton "\" -> \"" hed "\";"))
waitons)
))))
(if (null? tal)
(append newres (list "}"))
(loop (car tal)(cdr tal) newres)
))))))
;; (tests:run-dot (list "digraph tests {" "a -> b" "}") "plain")
(define (tests:run-dot indat outtype) ;; outtype is plain, fig, dot, etc. http://www.graphviz.org/content/output-formats
(let-values (((inp oup pid)(process "env -i PATH=$PATH dot" (list "-T" outtype))))
(with-output-to-port oup
(lambda ()
(map print indat)))
(close-output-port oup)
(let ((res (with-input-from-port inp
(lambda ()
(read-lines)))))
(close-input-port inp)
res)))
;; read data from tmp file or create if not exists
;; if exists regen in background
;;
(define (tests:lazy-dot testrecords outtype)
(let ((dfile (conc "/tmp/." (current-user-name) "-" (server:mk-signature) ".dot"))
(fname (conc "/tmp/." (current-user-name) "-" (server:mk-signature) ".dotdat")))
(tests:write-dot-file testrecords dfile)
(if (file-exists? fname)
(let ((res (with-input-from-file fname
(lambda ()
(read-lines)))))
(system (conc "env -i PATH=$PATH dot -T " outtype " < " dfile " > " fname "&"))
res)
(begin
(system (conc "env -i PATH=$PATH dot -T " outtype " < " dfile " > " fname))
(with-input-from-file fname
(lambda ()
(read-lines)))))))
;; for each test:
;;
(define (tests:filter-non-runnable run-id testkeynames testrecordshash)
(let ((runnables '()))
(for-each
(lambda (testkeyname)
(let* ((test-record (hash-table-ref testrecordshash testkeyname))
(test-name (tests:testqueue-get-testname test-record))
(itemdat (tests:testqueue-get-itemdat test-record))
(item-path (tests:testqueue-get-item_path test-record))
(waitons (tests:testqueue-get-waitons test-record))
(keep-test #t)
(test-id (rmt:get-test-id run-id test-name item-path))
(tdat (rmt:get-testinfo-state-status run-id test-id))) ;; (cdb:get-test-info-by-id *runremote* test-id)))
(if tdat
(begin
;; Look at the test state and status
(if (or (and (member (db:test-get-status tdat)
'("PASS" "WARN" "WAIVED" "CHECK" "SKIP"))
(equal? (db:test-get-state tdat) "COMPLETED"))
(member (db:test-get-state tdat)
'("INCOMPLETE" "KILLED")))
(set! keep-test #f))
;; examine waitons for any fails. If it is FAIL or INCOMPLETE then eliminate this test
;; from the runnable list
(if keep-test
(for-each (lambda (waiton)
;; for now we are waiting only on the parent test
(let* ((parent-test-id (rmt:get-test-id run-id waiton ""))
(wtdat (rmt:get-testinfo-state-status run-id test-id))) ;; (cdb:get-test-info-by-id *runremote* test-id)))
(if (or (and (equal? (db:test-get-state wtdat) "COMPLETED")
(member (db:test-get-status wtdat) '("FAIL" "ABORT")))
(member (db:test-get-status wtdat) '("KILLED"))
(member (db:test-get-state wtdat) '("INCOMPETE")))
;; (if (or (member (db:test-get-status wtdat)
;; '("FAIL" "KILLED"))
;; (member (db:test-get-state wtdat)
;; '("INCOMPETE")))
(set! keep-test #f)))) ;; no point in running this one again
waitons))))
(if keep-test (set! runnables (cons testkeyname runnables)))))
testkeynames)
runnables))
;;======================================================================
;; refactoring this block into tests:get-full-data from line 263 of runs.scm
;;======================================================================
;; hed is the test name
;; test-records is a hash of test-name => test record
(define (tests:get-full-data test-names test-records required-tests all-tests-registry)
(if (not (null? test-names))
(let loop ((hed (car test-names))
(tal (cdr test-names))) ;; 'return-procs tells the config reader to prep running system but return a proc
(debug:print-info 4 "hed=" hed " at top of loop")
(let* ((config (tests:get-testconfig hed all-tests-registry 'return-procs))
(waitons (let ((instr (if config
(config-lookup config "requirements" "waiton")
(begin ;; No config means this is a non-existant test
(debug:print 0 "ERROR: non-existent required test \"" hed "\", grep through your testconfigs to find and remove or create the test. Discarding and continuing.")
""))))
(debug:print-info 8 "waitons string is " instr)
(string-split (cond
((procedure? instr)
(let ((res (instr)))
(debug:print-info 8 "waiton procedure results in string " res " for test " hed)
res))
((string? instr) instr)
(else
;; NOTE: This is actually the case of *no* waitons! ;; (debug:print 0 "ERROR: something went wrong in processing waitons for test " hed)
""))))))
(if (not config) ;; this is a non-existant test called in a waiton.
(if (null? tal)
test-records
(loop (car tal)(cdr tal)))
(begin
(debug:print-info 8 "waitons: " waitons)
;; check for hed in waitons => this would be circular, remove it and issue an
;; error
(if (member hed waitons)
(begin
(debug:print 0 "ERROR: test " hed " has listed itself as a waiton, please correct this!")
(set! waitons (filter (lambda (x)(not (equal? x hed))) waitons))))
;; (items (items:get-items-from-config config)))
(if (not (hash-table-ref/default test-records hed #f))
(hash-table-set! test-records
hed (vector hed ;; 0
config ;; 1
waitons ;; 2
(config-lookup config "requirements" "priority") ;; priority 3
(let ((items (hash-table-ref/default config "items" #f)) ;; items 4
(itemstable (hash-table-ref/default config "itemstable" #f)))
;; if either items or items table is a proc return it so test running
;; process can know to call items:get-items-from-config
;; if either is a list and none is a proc go ahead and call get-items
;; otherwise return #f - this is not an iterated test
(cond
((procedure? items)
(debug:print-info 4 "items is a procedure, will calc later")
items) ;; calc later
((procedure? itemstable)
(debug:print-info 4 "itemstable is a procedure, will calc later")
itemstable) ;; calc later
((filter (lambda (x)
(let ((val (car x)))
(if (procedure? val) val #f)))
(append (if (list? items) items '())
(if (list? itemstable) itemstable '())))
'have-procedure)
((or (list? items)(list? itemstable)) ;; calc now
(debug:print-info 4 "items and itemstable are lists, calc now\n"
" items: " items " itemstable: " itemstable)
(items:get-items-from-config config))
(else #f))) ;; not iterated
#f ;; itemsdat 5
#f ;; spare - used for item-path
)))
(for-each
(lambda (waiton)
(if (and waiton (not (member waiton test-names)))
(begin
(set! required-tests (cons waiton required-tests))
(set! test-names (cons waiton test-names))))) ;; was an append, now a cons
waitons)
(let ((remtests (delete-duplicates (append waitons tal))))
(if (not (null? remtests))
(loop (car remtests)(cdr remtests))
test-records))))))))
;;======================================================================
;; test steps
;;======================================================================
;; teststep-set-status! used to be here
(define (test-get-kill-request run-id test-id) ;; run-id test-name itemdat)
(let* ((testdat (rmt:get-test-info-by-id run-id test-id)))
(and testdat
(equal? (test:get-state testdat) "KILLREQ"))))
(define (test:tdb-get-rundat-count tdb)
(if tdb
(let ((res 0))
(sqlite3:for-each-row
(lambda (count)
(set! res count))
tdb
"SELECT count(id) FROM test_rundat;")
res))
0)
(define (tests:update-central-meta-info run-id test-id cpuload diskfree minutes uname hostname)
(if (and cpuload diskfree)
(rmt:general-call 'update-cpuload-diskfree run-id cpuload diskfree test-id))
(if minutes
(rmt:general-call 'update-run-duration run-id minutes test-id))
(if (and uname hostname)
(rmt:general-call 'update-uname-host run-id uname hostname test-id)))
;; This one is for running with no db access (i.e. via rmt: internally)
(define (tests:set-full-meta-info db test-id run-id minutes work-area remtries)
;; (define (tests:set-full-meta-info test-id run-id minutes work-area)
;; (let ((remtries 10))
(let* ((cpuload (get-cpu-load))
(diskfree (get-df (current-directory)))
(uname (get-uname "-srvpio"))
(hostname (get-host-name)))
(tests:update-central-meta-info run-id test-id cpuload diskfree minutes uname hostname)))
;; (define (tests:set-partial-meta-info test-id run-id minutes work-area)
(define (tests:set-partial-meta-info test-id run-id minutes work-area remtries)
(let* ((cpuload (get-cpu-load))
(diskfree (get-df (current-directory)))
(remtries 10))
(handle-exceptions
exn
(if (> remtries 0)
(begin
(print-call-chain (current-error-port))
(debug:print-info 0 "WARNING: failed to set meta info. Will try " remtries " more times")
(set! remtries (- remtries 1))
(thread-sleep! 10)
(tests:set-full-meta-info db test-id run-id minutes work-area (- remtries 1)))
(let ((err-status ((condition-property-accessor 'sqlite3 'status #f) exn)))
(debug:print 0 "ERROR: tried for over a minute to update meta info and failed. Giving up")
(debug:print 0 "EXCEPTION: database probably overloaded or unreadable.")
(debug:print 0 " message: " ((condition-property-accessor 'exn 'message) exn))
(print "exn=" (condition->list exn))
(debug:print 0 " status: " ((condition-property-accessor 'sqlite3 'status) exn))
(print-call-chain (current-error-port))))
(tests:update-testdat-meta-info db test-id work-area cpuload diskfree minutes)
)))
;;======================================================================
;; A R C H I V I N G
;;======================================================================
(define (test:archive db test-id)
#f)
(define (test:archive-tests db keynames target)
#f)