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mirror of git://git.gnupg.org/gnupg.git synced 2024-11-04 20:38:50 +01:00
gnupg/tests/gpgscm/tests.scm
Werner Koch 0bd19dae11
gpgscm: Make the test summary stand out
* tests/gpgscm/tests.scm (test-pool): Add delimiter lines.
--

This is to make those summaries a bit more simlar to those from
automake.

Signed-off-by: Werner Koch <wk@gnupg.org>
2017-08-08 13:47:00 +02:00

887 lines
26 KiB
Scheme

;; Common definitions for writing tests.
;;
;; Copyright (C) 2016 g10 Code GmbH
;;
;; This file is part of GnuPG.
;;
;; GnuPG is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 3 of the License, or
;; (at your option) any later version.
;;
;; GnuPG is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;;
;; You should have received a copy of the GNU General Public License
;; along with this program; if not, see <http://www.gnu.org/licenses/>.
;; Reporting.
(define (echo . msg)
(for-each (lambda (x) (display x) (display " ")) msg)
(newline))
(define (info . msg)
(apply echo msg)
(flush-stdio))
(define (log . msg)
(if (> (*verbose*) 0)
(apply info msg)))
(define (fail . msg)
(apply info msg)
(exit 1))
(define (skip . msg)
(apply info msg)
(exit 77))
(define (make-counter)
(let ((c 0))
(lambda ()
(let ((r c))
(set! c (+ 1 c))
r))))
(define *progress-nesting* 0)
(define (call-with-progress msg what)
(set! *progress-nesting* (+ 1 *progress-nesting*))
(if (= 1 *progress-nesting*)
(begin
(info msg)
(display " > ")
(flush-stdio)
(what (lambda (item)
(display item)
(display " ")
(flush-stdio)))
(info "< "))
(begin
(what (lambda (item) (display ".") (flush-stdio)))
(display " ")
(flush-stdio)))
(set! *progress-nesting* (- *progress-nesting* 1)))
(define (for-each-p msg proc lst . lsts)
(apply for-each-p' `(,msg ,proc ,(lambda (x . xs) x) ,lst ,@lsts)))
(define (for-each-p' msg proc fmt lst . lsts)
(call-with-progress
msg
(lambda (progress)
(apply for-each
`(,(lambda args
(progress (apply fmt args))
(apply proc args))
,lst ,@lsts)))))
;; Process management.
(define CLOSED_FD -1)
(define (call-with-fds what infd outfd errfd)
(wait-process (stringify what) (spawn-process-fd what infd outfd errfd) #t))
(define (call what)
(call-with-fds what
CLOSED_FD
(if (< (*verbose*) 0) STDOUT_FILENO CLOSED_FD)
(if (< (*verbose*) 0) STDERR_FILENO CLOSED_FD)))
;; Accessor functions for the results of 'spawn-process'.
(define :stdin car)
(define :stdout cadr)
(define :stderr caddr)
(define :pid cadddr)
(define (call-with-io what in)
(let ((h (spawn-process what 0)))
(es-write (:stdin h) in)
(es-fclose (:stdin h))
(let* ((out (es-read-all (:stdout h)))
(err (es-read-all (:stderr h)))
(result (wait-process (car what) (:pid h) #t)))
(es-fclose (:stdout h))
(es-fclose (:stderr h))
(if (> (*verbose*) 2)
(info "Child" (:pid h) "returned:"
`((command ,(stringify what))
(status ,result)
(stdout ,out)
(stderr ,err))))
(list result out err))))
;; Accessor function for the results of 'call-with-io'. ':stdout' and
;; ':stderr' can also be used.
(define :retcode car)
(define (call-check what)
(let ((result (call-with-io what "")))
(if (= 0 (:retcode result))
(:stdout result)
(throw (string-append (stringify what) " failed")
(:stderr result)))))
(define (call-popen command input-string)
(let ((result (call-with-io command input-string)))
(if (= 0 (:retcode result))
(:stdout result)
(throw (:stderr result)))))
;;
;; estream helpers.
;;
(define (es-read-all stream)
(let loop
((acc ""))
(if (es-feof stream)
acc
(loop (string-append acc (es-read stream 4096))))))
;;
;; File management.
;;
(define (file-exists? name)
(call-with-input-file name (lambda (port) #t)))
(define (file=? a b)
(file-equal a b #t))
(define (text-file=? a b)
(file-equal a b #f))
(define (file-copy from to)
(catch '() (unlink to))
(letfd ((source (open from (logior O_RDONLY O_BINARY)))
(sink (open to (logior O_WRONLY O_CREAT O_BINARY) #o600)))
(splice source sink)))
(define (text-file-copy from to)
(catch '() (unlink to))
(letfd ((source (open from O_RDONLY))
(sink (open to (logior O_WRONLY O_CREAT) #o600)))
(splice source sink)))
(define (path-join . components)
(let loop ((acc #f) (rest (filter (lambda (s)
(not (string=? "" s))) components)))
(if (null? rest)
acc
(loop (if (string? acc)
(string-append acc "/" (car rest))
(car rest))
(cdr rest)))))
(assert (string=? (path-join "foo" "bar" "baz") "foo/bar/baz"))
(assert (string=? (path-join "" "bar" "baz") "bar/baz"))
;; Is PATH an absolute path?
(define (absolute-path? path)
(or (char=? #\/ (string-ref path 0))
(and *win32* (char=? #\\ (string-ref path 0)))
(and *win32*
(char-alphabetic? (string-ref path 0))
(char=? #\: (string-ref path 1))
(or (char=? #\/ (string-ref path 2))
(char=? #\\ (string-ref path 2))))))
;; Make PATH absolute.
(define (canonical-path path)
(if (absolute-path? path) path (path-join (getcwd) path)))
(define (in-srcdir . names)
(canonical-path (apply path-join (cons (getenv "abs_top_srcdir") names))))
;; Split a list of paths.
(define (pathsep-split s)
(string-split s *pathsep*))
;; Join a list of paths.
(define (pathsep-join paths)
(foldr (lambda (a b) (string-append a (string *pathsep*) b))
(car paths)
(cdr paths)))
;; Try to find NAME in PATHS. Returns the full path name on success,
;; or raises an error.
(define (path-expand name paths)
(let loop ((path paths))
(if (null? path)
(throw "Could not find" name "in" paths)
(let* ((qualified-name (path-join (car path) name))
(file-exists (call-with-input-file qualified-name
(lambda (x) #t))))
(if file-exists
qualified-name
(loop (cdr path)))))))
;; Expand NAME using the gpgscm load path. Use like this:
;; (load (with-path "library.scm"))
(define (with-path name)
(catch name
(path-expand name (pathsep-split (getenv "GPGSCM_PATH")))))
(define (basename path)
(let ((i (string-index path #\/)))
(if (equal? i #f)
path
(basename (substring path (+ 1 i) (string-length path))))))
(define (basename-suffix path suffix)
(basename
(if (string-suffix? path suffix)
(substring path 0 (- (string-length path) (string-length suffix)))
path)))
(define (dirname path)
(let ((i (string-rindex path #\/)))
(if i (substring path 0 i) ".")))
(assert (string=? "foo/bar" (dirname "foo/bar/baz")))
;; Helper for (pipe).
(define :read-end car)
(define :write-end cadr)
;; let-like macro that manages file descriptors.
;;
;; (letfd <bindings> <body>)
;;
;; Bind all variables given in <bindings> and initialize each of them
;; to the given initial value, and close them after evaluating <body>.
(define-macro (letfd bindings . body)
(let bind ((bindings' bindings))
(if (null? bindings')
`(begin ,@body)
(let* ((binding (car bindings'))
(name (car binding))
(initializer (cadr binding)))
`(let ((,name ,initializer))
(finally (close ,name)
,(bind (cdr bindings'))))))))
(define-macro (with-working-directory new-directory . expressions)
(let ((new-dir (gensym))
(old-dir (gensym)))
`(let* ((,new-dir ,new-directory)
(,old-dir (getcwd)))
(dynamic-wind
(lambda () (if ,new-dir (chdir ,new-dir)))
(lambda () ,@expressions)
(lambda () (chdir ,old-dir))))))
;; Make a temporary directory. If arguments are given, they are
;; joined using path-join, and must end in a component ending in
;; "XXXXXX". If no arguments are given, a suitable location and
;; generic name is used. Returns an absolute path.
(define (mkdtemp . components)
(canonical-path (_mkdtemp (if (null? components)
(path-join
(get-temp-path)
(string-append "gpgscm-" (get-isotime) "-"
(basename-suffix *scriptname* ".scm")
"-XXXXXX"))
(apply path-join components)))))
;; Make a temporary directory and remove it at interpreter shutdown.
;; Note that there are macros that limit the lifetime of temporary
;; directories and files to a lexical scope. Use those if possible.
;; Otherwise this works like mkdtemp.
(define (mkdtemp-autoremove . components)
(let ((dir (apply mkdtemp components)))
(atexit (lambda () (unlink-recursively dir)))
dir))
(define-macro (with-temporary-working-directory . expressions)
(let ((tmp-sym (gensym)))
`(let* ((,tmp-sym (mkdtemp)))
(finally (unlink-recursively ,tmp-sym)
(with-working-directory ,tmp-sym
,@expressions)))))
(define (make-temporary-file . args)
(canonical-path (path-join
(mkdtemp)
(if (null? args) "a" (car args)))))
(define (remove-temporary-file filename)
(catch '()
(unlink filename))
(let ((dirname (substring filename 0 (string-rindex filename #\/))))
(catch (echo "removing temporary directory" dirname "failed")
(rmdir dirname))))
;; let-like macro that manages temporary files.
;;
;; (lettmp <bindings> <body>)
;;
;; Bind all variables given in <bindings>, initialize each of them to
;; a string representing an unique path in the filesystem, and delete
;; them after evaluating <body>.
(define-macro (lettmp bindings . body)
(let bind ((bindings' bindings))
(if (null? bindings')
`(begin ,@body)
(let ((name (car bindings'))
(rest (cdr bindings')))
`(let ((,name (make-temporary-file ,(symbol->string name))))
(finally (remove-temporary-file ,name)
,(bind rest)))))))
(define (check-execution source transformer)
(lettmp (sink)
(transformer source sink)))
(define (check-identity source transformer)
(lettmp (sink)
(transformer source sink)
(if (not (file=? source sink))
(fail "mismatch"))))
;;
;; Monadic pipe support.
;;
(define pipeM
(package
(define (new procs source sink producer)
(package
(define (dump)
(write (list procs source sink producer))
(newline))
(define (add-proc command pid)
(new (cons (list command pid) procs) source sink producer))
(define (commands)
(map car procs))
(define (pids)
(map cadr procs))
(define (set-source source')
(new procs source' sink producer))
(define (set-sink sink')
(new procs source sink' producer))
(define (set-producer producer')
(if producer
(throw "producer already set"))
(new procs source sink producer'))))))
(define (pipe:do . commands)
(let loop ((M (pipeM::new '() CLOSED_FD CLOSED_FD #f)) (cmds commands))
(if (null? cmds)
(begin
(if M::producer (M::producer))
(if (not (null? M::procs))
(let* ((retcodes (wait-processes (map stringify (M::commands))
(M::pids) #t))
(results (map (lambda (p r) (append p (list r)))
M::procs retcodes))
(failed (filter (lambda (x) (not (= 0 (caddr x))))
results)))
(if (not (null? failed))
(throw failed))))) ; xxx nicer reporting
(if (and (= 2 (length cmds)) (number? (cadr cmds)))
;; hack: if it's an fd, use it as sink
(let ((M' ((car cmds) (M::set-sink (cadr cmds)))))
(if (> M::source 2) (close M::source))
(if (> (cadr cmds) 2) (close (cadr cmds)))
(loop M' '()))
(let ((M' ((car cmds) M)))
(if (> M::source 2) (close M::source))
(loop M' (cdr cmds)))))))
(define (pipe:open pathname flags)
(lambda (M)
(M::set-source (open pathname flags))))
(define (pipe:defer producer)
(lambda (M)
(let* ((p (outbound-pipe))
(M' (M::set-source (:read-end p))))
(M'::set-producer (lambda ()
(producer (:write-end p))
(close (:write-end p)))))))
(define (pipe:echo data)
(pipe:defer (lambda (sink) (display data (fdopen sink "wb")))))
(define (pipe:spawn command)
(lambda (M)
(define (do-spawn M new-source)
(let ((pid (spawn-process-fd command M::source M::sink
(if (> (*verbose*) 0)
STDERR_FILENO CLOSED_FD)))
(M' (M::set-source new-source)))
(M'::add-proc command pid)))
(if (= CLOSED_FD M::sink)
(let* ((p (pipe))
(M' (do-spawn (M::set-sink (:write-end p)) (:read-end p))))
(close (:write-end p))
(M'::set-sink CLOSED_FD))
(do-spawn M CLOSED_FD))))
(define (pipe:splice sink)
(lambda (M)
(splice M::source sink)
(M::set-source CLOSED_FD)))
(define (pipe:write-to pathname flags mode)
(open pathname flags mode))
;;
;; Monadic transformer support.
;;
(define (tr:do . commands)
(let loop ((tmpfiles '()) (source #f) (cmds commands))
(if (null? cmds)
(for-each remove-temporary-file tmpfiles)
(let* ((v ((car cmds) tmpfiles source))
(tmpfiles' (car v))
(sink (cadr v))
(error (caddr v)))
(if error
(begin
(for-each remove-temporary-file tmpfiles')
(apply throw error)))
(loop tmpfiles' sink (cdr cmds))))))
(define (tr:open pathname)
(lambda (tmpfiles source)
(list tmpfiles pathname #f)))
(define (tr:spawn input command)
(lambda (tmpfiles source)
(if (and (member '**in** command) (not source))
(fail (string-append (stringify cmd) " needs an input")))
(let* ((t (make-temporary-file))
(cmd (map (lambda (x)
(cond
((equal? '**in** x) source)
((equal? '**out** x) t)
(else x))) command)))
(catch (list (cons t tmpfiles) t *error*)
(call-popen cmd input)
(if (and (member '**out** command) (not (file-exists? t)))
(fail (string-append (stringify cmd)
" did not produce '" t "'.")))
(list (cons t tmpfiles) t #f)))))
(define (tr:write-to pathname)
(lambda (tmpfiles source)
(rename source pathname)
(list tmpfiles pathname #f)))
(define (tr:pipe-do . commands)
(lambda (tmpfiles source)
(let ((t (make-temporary-file)))
(apply pipe:do
`(,@(if source `(,(pipe:open source (logior O_RDONLY O_BINARY))) '())
,@commands
,(pipe:write-to t (logior O_WRONLY O_BINARY O_CREAT) #o600)))
(list (cons t tmpfiles) t #f))))
(define (tr:assert-identity reference)
(lambda (tmpfiles source)
(if (not (file=? source reference))
(fail "mismatch"))
(list tmpfiles source #f)))
(define (tr:assert-weak-identity reference)
(lambda (tmpfiles source)
(if (not (text-file=? source reference))
(fail "mismatch"))
(list tmpfiles source #f)))
(define (tr:call-with-content function . args)
(lambda (tmpfiles source)
(catch (list tmpfiles source *error*)
(apply function `(,(call-with-input-file source read-all) ,@args)))
(list tmpfiles source #f)))
;;
;; Developing and debugging tests.
;;
;; Spawn an os shell.
(define (interactive-shell)
(call-with-fds `(,(getenv "SHELL") -i) 0 1 2))
;;
;; The main test framework.
;;
(define semaphore
(package
(define (new n)
(package
(define (acquire!?)
(if (> n 0)
(begin
(set! n (- n 1))
#t)
#f))
(define (release!)
(set! n (+ n 1)))))))
;; A pool of tests.
(define test-pool
(package
(define (new n)
(package
;; A semaphore to restrict the number of spawned processes.
(define sem (semaphore::new n))
;; A list of enqueued, but not yet run tests.
(define enqueued '())
;; A list of running or finished processes.
(define procs '())
(define (add test)
(if (test::started?)
(set! procs (cons test procs))
(if (sem::acquire!?)
(add (test::run-async))
(set! enqueued (cons test enqueued))))
(current-environment))
;; Pop the last of the enqueued tests off the fifo queue.
(define (pop-test!)
(let ((i (length enqueued)))
(assert (> i 0))
(cond
((= i 1)
(let ((test (car enqueued)))
(set! enqueued '())
test))
(else
(let* ((tail (list-tail enqueued (- i 2)))
(test (cadr tail)))
(set-cdr! tail '())
(assert (= (length enqueued) (- i 1)))
test)))))
(define (pid->test pid)
(let ((t (filter (lambda (x) (= pid x::pid)) procs)))
(if (null? t) #f (car t))))
(define (wait)
(if (null? enqueued)
;; If no tests are enqueued, we can just block until all
;; of them finished.
(wait' #t)
;; Otherwise, we must not block, but give some tests the
;; chance to finish so that we can start new ones.
(begin
(wait' #f)
(usleep (/ 1000000 10))
(wait))))
(define (wait' hang)
(let ((unfinished (filter (lambda (t) (not t::retcode)) procs)))
(if (null? unfinished)
(current-environment)
(let ((names (map (lambda (t) t::name) unfinished))
(pids (map (lambda (t) t::pid) unfinished))
(any #f))
(for-each
(lambda (test retcode)
(unless (< retcode 0)
(test::set-end-time!)
(test:::set! 'retcode retcode)
(test::report)
(sem::release!)
(set! any #t)))
(map pid->test pids)
(wait-processes (map stringify names) pids hang))
;; If some processes finished, try to start new ones.
(let loop ()
(cond
((not any) #f)
((pair? enqueued)
(if (sem::acquire!?)
(let ((test (pop-test!)))
(add (test::run-async))
(loop)))))))))
(current-environment))
(define (filter-tests status)
(filter (lambda (p) (eq? status (p::status))) procs))
(define (report)
(define (print-tests tests message)
(unless (null? tests)
(apply echo (cons message
(map (lambda (t) t::name) tests)))))
(let ((failed (filter-tests 'FAIL))
(xfailed (filter-tests 'XFAIL))
(xpassed (filter-tests 'XPASS))
(skipped (filter-tests 'SKIP)))
(echo "===================")
(echo (length procs) "tests run,"
(length (filter-tests 'PASS)) "succeeded,"
(length failed) "failed,"
(length xfailed) "failed expectedly,"
(length xpassed) "succeeded unexpectedly,"
(length skipped) "skipped.")
(print-tests failed "Failed tests:")
(print-tests xfailed "Expectedly failed tests:")
(print-tests xpassed "Unexpectedly passed tests:")
(print-tests skipped "Skipped tests:")
(echo "===================")
(+ (length failed) (length xpassed))))
(define (xml)
(xx::document
(xx::tag 'testsuites
`((xmlns:xsi "http://www.w3.org/2001/XMLSchema-instance")
("xsi:noNamespaceSchemaLocation"
"https://windyroad.com.au/dl/Open%20Source/JUnit.xsd"))
(map (lambda (t) (t::xml)) procs))))))))
(define (verbosity n)
(if (= 0 n) '() (cons '--verbose (verbosity (- n 1)))))
(define (locate-test path)
(if (absolute-path? path) path (in-srcdir path)))
;; A single test.
(define test
(begin
;; Private definitions.
(define (isotime->junit t)
"[0-9]{4}-[0-9]{2}-[0-9]{2}T[0-9]{2}:[0-9]{2}:[0-9]{2}"
"20170418T145809"
(string-append (substring t 0 4)
"-"
(substring t 4 6)
"-"
(substring t 6 11)
":"
(substring t 11 13)
":"
(substring t 13 15)))
;; If a tests name ends with a bang (!), it is expected to fail.
(define (expect-failure? name)
(string-suffix? name "!"))
;; Strips the bang (if any).
(define (test-name name)
(if (expect-failure? name)
(substring name 0 (- (string-length name) 1))
name))
(package
(define (scm setup name path . args)
;; Start the process.
(define (spawn-scm args' in out err)
(spawn-process-fd `(,*argv0* ,@(verbosity (*verbose*))
,(locate-test (test-name path))
,@(if setup (force setup) '())
,@args' ,@args) in out err))
(new name #f spawn-scm #f #f CLOSED_FD (expect-failure? name)))
(define (binary setup name path . args)
;; Start the process.
(define (spawn-binary args' in out err)
(spawn-process-fd `(,(test-name path)
,@(if setup (force setup) '()) ,@args' ,@args)
in out err))
(new name #f spawn-binary #f #f CLOSED_FD (expect-failure? name)))
(define (new name directory spawn pid retcode logfd expect-failure)
(package
;; XXX: OO glue.
(define self (current-environment))
(define (:set! key value)
(eval `(set! ,key ,value) (current-environment))
(current-environment))
;; The log is written here.
(define log-file-name #f)
;; Record time stamps.
(define timestamp #f)
(define start-time 0)
(define end-time 0)
(define (set-start-time!)
(set! timestamp (isotime->junit (get-isotime)))
(set! start-time (get-time)))
(define (set-end-time!)
(set! end-time (get-time)))
;; Has the test been started yet?
(define (started?)
(number? pid))
(define (open-log-file)
(unless log-file-name
(set! log-file-name (string-append (basename name) ".log")))
(catch '() (unlink log-file-name))
(open log-file-name (logior O_RDWR O_BINARY O_CREAT) #o600))
(define (run-sync . args)
(set-start-time!)
(letfd ((log (open-log-file)))
(with-working-directory directory
(let* ((p (inbound-pipe))
(pid' (spawn args 0 (:write-end p) (:write-end p))))
(close (:write-end p))
(splice (:read-end p) STDERR_FILENO log)
(close (:read-end p))
(set! pid pid')
(set! retcode (wait-process name pid' #t)))))
(report)
(current-environment))
(define (run-sync-quiet . args)
(set-start-time!)
(with-working-directory directory
(set! pid (spawn args CLOSED_FD CLOSED_FD CLOSED_FD)))
(set! retcode (wait-process name pid #t))
(set-end-time!)
(current-environment))
(define (run-async . args)
(set-start-time!)
(let ((log (open-log-file)))
(with-working-directory directory
(set! pid (spawn args CLOSED_FD log log)))
(set! logfd log))
(current-environment))
(define (status)
(let* ((t' (assoc retcode '((0 PASS) (77 SKIP) (99 ERROR))))
(t (if (not t') 'FAIL (cadr t'))))
(if expect-failure
(case t ((PASS) 'XPASS) ((FAIL) 'XFAIL) (else t))
t)))
(define (status-string)
(cadr (assoc (status) '((PASS "PASS")
(SKIP "SKIP")
(ERROR "ERROR")
(FAIL "FAIL")
(XPASS "XPASS")
(XFAIL "XFAIL")))))
(define (report)
(unless (= logfd CLOSED_FD)
(seek logfd 0 SEEK_SET)
(splice logfd STDERR_FILENO)
(close logfd))
(echo (string-append (status-string) ":") name))
(define (xml)
(xx::tag
'testsuite
`((name ,name)
(time ,(- end-time start-time))
(package ,(dirname name))
(id 0)
(timestamp ,timestamp)
(hostname "unknown")
(tests 1)
(failures ,(if (eq? FAIL (status)) 1 0))
(errors ,(if (eq? ERROR (status)) 1 0)))
(list
(xx::tag 'properties)
(xx::tag 'testcase
`((name ,(basename name))
(classname ,(string-translate (dirname name) "/" "."))
(time ,(- end-time start-time)))
`(,@(case (status)
((PASS XFAIL) '())
((SKIP) (list (xx::tag 'skipped)))
((ERROR) (list
(xx::tag 'error '((message "Unknown error.")))))
(else
(list (xx::tag 'failure '((message "Unknown error."))))))))
(xx::tag 'system-out '()
(list (xx::textnode (read-all (open-input-file log-file-name)))))
(xx::tag 'system-err '() (list (xx::textnode "")))))))))))
;; Run the setup target to create an environment, then run all given
;; tests in parallel.
(define (run-tests-parallel tests n)
(let loop ((pool (test-pool::new n)) (tests' tests))
(if (null? tests')
(let ((results (pool::wait)))
((results::xml) (open-output-file "report.xml"))
(exit (results::report)))
(let ((wd (mkdtemp-autoremove))
(test (car tests')))
(test:::set! 'directory wd)
(loop (pool::add test)
(cdr tests'))))))
;; Run the setup target to create an environment, then run all given
;; tests in sequence.
(define (run-tests-sequential tests)
(let loop ((pool (test-pool::new 1)) (tests' tests))
(if (null? tests')
(let ((results (pool::wait)))
((results::xml) (open-output-file "report.xml"))
(exit (results::report)))
(let ((wd (mkdtemp-autoremove))
(test (car tests')))
(test:::set! 'directory wd)
(loop (pool::add (test::run-sync))
(cdr tests'))))))
;; Run tests either in sequence or in parallel, depending on the
;; number of tests and the command line flags.
(define (run-tests tests)
(let ((parallel (flag "--parallel" *args*))
(default-parallel-jobs 32))
(if (and parallel (> (length tests) 1))
(run-tests-parallel tests (if (and (pair? parallel)
(string->number (car parallel)))
(string->number (car parallel))
default-parallel-jobs))
(run-tests-sequential tests))))
;; Load all tests from the given path.
(define (load-tests . path)
(load (apply in-srcdir `(,@path "all-tests.scm")))
all-tests)
;; Helper to create environment caches from test functions. SETUP
;; must be a test implementing the producer side cache protocol.
;; Returns a promise containing the arguments that must be passed to a
;; test implementing the consumer side of the cache protocol.
(define (make-environment-cache setup)
(delay (with-temporary-working-directory
(let ((tarball (make-temporary-file "environment-cache")))
(atexit (lambda () (remove-temporary-file tarball)))
(setup::run-sync '--create-tarball tarball)
(if (not (equal? 'PASS (setup::status)))
(fail "Setup failed."))
`(--unpack-tarball ,tarball)))))
;; Command line flag handling. Returns the elements following KEY in
;; ARGUMENTS up to the next argument, or #f if KEY is not in
;; ARGUMENTS. If 'KEY=XYZ' is encountered, then the singleton list
;; containing 'XYZ' is returned.
(define (flag key arguments)
(cond
((null? arguments)
#f)
((string=? key (car arguments))
(let loop ((acc '())
(args (cdr arguments)))
(if (or (null? args) (string-prefix? (car args) "--"))
(reverse acc)
(loop (cons (car args) acc) (cdr args)))))
((string-prefix? (car arguments) (string-append key "="))
(list (substring (car arguments)
(+ (string-length key) 1)
(string-length (car arguments)))))
((string=? "--" (car arguments))
#f)
(else
(flag key (cdr arguments)))))
(assert (equal? (flag "--xxx" '("--yyy")) #f))
(assert (equal? (flag "--xxx" '("--xxx")) '()))
(assert (equal? (flag "--xxx" '("--xxx" "yyy")) '("yyy")))
(assert (equal? (flag "--xxx" '("--xxx=foo" "yyy")) '("foo")))
(assert (equal? (flag "--xxx" '("--xxx" "yyy" "zzz")) '("yyy" "zzz")))
(assert (equal? (flag "--xxx" '("--xxx" "yyy" "zzz" "--")) '("yyy" "zzz")))
(assert (equal? (flag "--xxx" '("--xxx" "yyy" "--" "zzz")) '("yyy")))
(assert (equal? (flag "--" '("--" "xxx" "yyy" "--" "zzz")) '("xxx" "yyy")))