Fix (make-array integer :adjustable t :fill-pointer unknown).
[sbcl.git] / tests / run-program.impure.lisp
blobea50cf636efa30897f45e0454c28d29669b1acaf
1 ;;;; various RUN-PROGRAM tests with side effects
3 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; more information.
5 ;;;;
6 ;;;; While most of SBCL is derived from the CMU CL system, the test
7 ;;;; files (like this one) were written from scratch after the fork
8 ;;;; from CMU CL.
9 ;;;;
10 ;;;; This software is in the public domain and is provided with
11 ;;;; absolutely no warranty. See the COPYING and CREDITS files for
12 ;;;; more information.
14 (cl:in-package :cl-user)
16 ;; In addition to definitions lower down the impurity we're avoiding
17 ;; is the sigchld handler that RUN-PROGRAM sets up, which interfers
18 ;; with the manual unix process control done by the test framework
19 ;; (sometimes the handler will manage to WAIT3 a process before
20 ;; run-tests WAITPIDs it).
22 (with-test (:name :run-program-cat-1)
23 (let* ((process (sb-ext:run-program "cat" '() :wait nil
24 :search t
25 :output :stream :input :stream))
26 (out (process-input process))
27 (in (process-output process)))
28 (unwind-protect
29 (loop for i from 0 to 255 do
30 (write-byte i out)
31 (force-output out)
32 (assert (= (read-byte in) i)))
33 (process-close process))))
35 (with-test (:name :run-program-cat-2 :skipped-on '(or (not :sb-thread) :win32))
36 ;; Tests that reading from a FIFO is interruptible.
37 (let* ((process (sb-ext:run-program "/bin/cat" '()
38 :wait nil
39 :output :stream :input :stream))
40 (in (process-input process))
41 (out (process-output process))
42 (sem (sb-thread:make-semaphore))
43 (state :init)
44 (writer (sb-thread:make-thread (lambda ()
45 (sb-thread:wait-on-semaphore sem)
46 (setf state :sleep)
47 (sleep 2)
48 (setf state :write)
49 (write-line "OK" in)
50 (finish-output in))))
51 (timeout nil)
52 (got nil)
53 (unwind nil))
54 (sb-thread:signal-semaphore sem)
55 (handler-case
56 (with-timeout 0.1
57 (unwind-protect
58 (setf got (read-line out))
59 (setf unwind state)))
60 (timeout ()
61 (setf timeout t)))
62 (assert (not got))
63 (assert timeout)
64 (assert (eq unwind :sleep))
65 (sb-thread:join-thread writer)
66 (assert (equal "OK" (read-line out)))))
68 (defclass buffer-stream (sb-gray:fundamental-binary-input-stream sb-gray:fundamental-binary-output-stream)
69 ((buffer :initform (make-array 128
70 :element-type '(unsigned-byte 8)
71 :adjustable t
72 :fill-pointer 0))
73 (mark :initform 0)))
75 (defmethod stream-element-type ((stream buffer-stream))
76 '(unsigned-byte 8))
78 (defmethod sb-gray:stream-read-sequence ((stream buffer-stream) seq &optional (start 0) end)
79 (let* ((buffer (slot-value stream 'buffer))
80 (end (or end (length seq)))
81 (mark (slot-value stream 'mark))
82 (fill-pointer (fill-pointer buffer))
83 (new-mark (+ mark (min fill-pointer (- end start)))))
84 (setf (slot-value stream 'mark) new-mark)
85 (replace seq buffer
86 :start1 start :end1 end
87 :start2 mark :end2 fill-pointer)
88 (min end (+ start (- fill-pointer mark)))))
90 (defmethod sb-gray:stream-write-sequence ((stream buffer-stream) seq &optional (start 0) end)
91 (let* ((buffer (slot-value stream 'buffer))
92 (end (or end (length seq)))
93 (fill-pointer (fill-pointer buffer))
94 (new-fill (min (array-total-size buffer) (+ fill-pointer (- end start)))))
95 (setf (fill-pointer buffer) new-fill)
96 (replace buffer seq
97 :start1 fill-pointer
98 :start2 start :end2 end)
99 seq))
101 (with-test (:name :run-program-cat-3)
102 ;; User-defined binary input and output streams.
103 (let ((in (make-instance 'buffer-stream))
104 (out (make-instance 'buffer-stream))
105 (data #(0 1 2 3 4 5 6 7 8 9 10 11 12)))
106 (write-sequence data in)
107 (let ((process (sb-ext:run-program "cat" '()
108 :search t
109 :wait t
110 :output out :input in))
111 (buf (make-array (length data))))
112 (declare (ignore process))
113 (assert (= 13 (read-sequence buf out)))
114 (assert (= 0 (read-sequence (make-array 8) out)))
115 (assert (equalp buf data)))))
117 (with-test (:name :run-program-cat-4)
118 ;; Null broadcast stream as output
119 (let* ((process (sb-ext:run-program "cat" '() :wait nil
120 :search t
121 :output (make-broadcast-stream)
122 :input :stream))
123 (in (process-input process)))
124 (unwind-protect
125 (progn
126 (write-string "foobar" in)
127 (close in)
128 (process-wait process))
129 (process-close process))))
131 ;;; Test driving an external program (cat) through pipes wrapped in
132 ;;; composite streams.
134 (require :sb-posix)
136 #-win32
137 (progn
138 (defun make-pipe ()
139 (multiple-value-bind (in out) (sb-posix:pipe)
140 (let ((input (sb-sys:make-fd-stream in
141 :input t
142 :external-format :ascii
143 :buffering :none :name "in"))
144 (output (sb-sys:make-fd-stream out
145 :output t
146 :external-format :ascii
147 :buffering :none :name "out")))
148 (make-two-way-stream input output))))
150 (defparameter *cat-in-pipe* (make-pipe))
151 (defparameter *cat-in* (make-synonym-stream '*cat-in-pipe*))
152 (defparameter *cat-out-pipe* (make-pipe))
153 (defparameter *cat-out* (make-synonym-stream '*cat-out-pipe*)))
155 (with-test (:name :run-program-cat-5 :fails-on :win32)
156 (let ((cat (run-program "/bin/cat" nil :input *cat-in* :output *cat-out*
157 :wait nil)))
158 (dolist (test '("This is a test!"
159 "This is another test!"
160 "This is the last test...."))
161 (write-line test *cat-in*)
162 (assert (equal test (read-line *cat-out*))))
163 (process-close cat)))
165 ;;; The above test used to use ed, but there were buffering issues: on some platforms
166 ;;; buffering of stdin and stdout depends on their TTYness, and ed isn't sufficiently
167 ;;; agressive about flushing them. So, here's another test using :PTY.
169 #-win32
170 (with-test (:name :is-/bin/ed-installed?)
171 (assert (probe-file "/bin/ed")))
173 #-win32
174 (progn
175 (defparameter *tmpfile* "run-program-ed-test.tmp")
177 (with-test (:name :run-program-/bin/ed)
178 (with-open-file (f *tmpfile*
179 :direction :output
180 :if-exists :supersede)
181 (write-line "bar" f))
182 (unwind-protect
183 (let* ((ed (run-program "/bin/ed" (list *tmpfile*) :wait nil :pty t))
184 (ed-in (process-pty ed))
185 (ed-out (process-pty ed)))
186 (labels ((read-linish (stream)
187 (with-output-to-string (s)
188 (loop for c = (read-char stream)
189 while (and c (not (eq #\newline c)))
190 ;; Some eds like to send \r\n
191 do (unless (eq #\return c)
192 (write-char c s)))))
193 (assert-ed (command response)
194 (when command
195 (write-line command ed-in)
196 (force-output ed-in))
197 (when response
198 (let ((got (read-linish ed-out)))
199 (unless (equal response got)
200 (error "wanted '~A' from ed, got '~A'" response got))))
201 ed))
202 (assert-ed nil "4")
203 (assert-ed ".s/bar/baz/g" nil)
204 (assert-ed "w" "4")
205 (assert-ed "q" nil)
206 (process-wait ed)
207 (with-open-file (f *tmpfile*)
208 (assert (equal "baz" (read-line f))))))
209 (delete-file *tmpfile*)))) ;; #-win32
211 ;; Around 1.0.12 there was a regression when :INPUT or :OUTPUT was a
212 ;; pathname designator. Since these use the same code, it should
213 ;; suffice to test just :INPUT.
214 (let ((file))
215 (unwind-protect
216 (progn (with-open-file (f "run-program-test.tmp" :direction :output)
217 (setf file (truename f))
218 (write-line "Foo" f))
219 (assert (run-program "cat" ()
220 :input file :output t
221 :search t :wait t)))
222 (when file
223 (delete-file file))))
225 ;;; This used to crash on Darwin and trigger recursive lock errors on
226 ;;; every platform.
227 (with-test (:name (:run-program :stress))
228 ;; Do it a hundred times in batches of 10 so that with a low limit
229 ;; of the number of processes the test can have a chance to pass.
230 (loop
231 repeat 10 do
232 (map nil
233 #'sb-ext:process-wait
234 (loop repeat 10
235 collect
236 (sb-ext:run-program "echo"
237 '("It would be nice if this didn't crash.")
238 :search t
239 :wait nil :output nil)))))
241 (with-test (:name (:run-program :pty-stream) :fails-on :win32)
242 (assert (equal "OK"
243 (handler-case
244 (with-timeout 1
245 (subseq
246 (with-output-to-string (s)
247 (assert (= 42 (process-exit-code
248 (run-program "/bin/sh" '("-c" "echo OK; exit 42") :wait t
249 :pty s))))
253 (timeout () "timeout")))))
255 ;; Check whether RUN-PROGRAM puts its child process into the foreground
256 ;; when stdin is inherited. If it fails to do so we will receive a SIGTTIN.
258 ;; We can't check for the signal itself since run-program.c resets the
259 ;; forked process' signal mask to defaults. But the default is `stop'
260 ;; of which we can be notified asynchronously by providing a status hook.
261 (with-test (:name (:run-program :inherit-stdin) :fails-on :win32)
262 (let (stopped)
263 (flet ((status-hook (proc)
264 (case (sb-ext:process-status proc)
265 (:stopped (setf stopped t)))))
266 (let ((proc (sb-ext:run-program "/bin/ed" nil :search nil :wait nil
267 :input t :output t
268 :status-hook #'status-hook)))
269 ;; Give the program a generous time to generate the SIGTTIN.
270 ;; If it hasn't done so after that time we can consider it
271 ;; to be working (i.e. waiting for input without generating SIGTTIN).
272 (sleep 0.5)
273 ;; either way we have to signal it to terminate
274 (process-kill proc sb-posix:sigterm)
275 (process-close proc)
276 (assert (not stopped))))))
279 ;; Check that in when you do run-program with :wait t that causes
280 ;; encoding error, it does not affect the following run-program
281 (with-test (:name (:run-program :clean-exit-after-encoding-error)
282 :fails-on :win32)
283 (let ((had-error-p nil))
284 (flet ((barf (&optional (format :default))
285 (with-output-to-string (stream)
286 (run-program #-netbsd "/usr/bin/perl" #+netbsd "/usr/pkg/bin/perl"
287 '("-e" "print \"\\x20\\xfe\\xff\\x0a\"")
288 :output stream
289 :external-format format)))
290 (no-barf ()
291 (with-output-to-string (stream)
292 (run-program "/bin/echo"
293 '("This is a test")
294 :output stream))))
295 (handler-case
296 (barf :utf-8)
297 (error ()
298 (setq had-error-p t)))
299 (assert had-error-p)
300 ;; now run the harmless program
301 (setq had-error-p nil)
302 (handler-case
303 (no-barf)
304 (error ()
305 (setq had-error-p t)))
306 (assert (not had-error-p)))))
308 (with-test (:name (:run-program :no-such-thing))
309 (assert (search "Couldn't execute"
310 (handler-case
311 (progn (run-program "no-such-program-we-hope" '()) nil)
312 (error (e)
313 (princ-to-string e))))))
315 (with-test (:name (:run-program :not-executable))
316 (assert (search "Couldn't execute"
317 (handler-case
318 (progn (run-program "run-program.impure.lisp" '()) nil)
319 (error (e)
320 (princ-to-string e))))))
322 #-win32
323 (with-test (:name (:run-program :if-input-does-not-exist))
324 (let ((file (pathname (sb-posix:mktemp "rpXXXXXX"))))
325 (assert (null (sb-ext:run-program "/bin/cat" '() :input file)))
326 (assert (null (sb-ext:run-program "/bin/cat" '() :output #.(or *compile-file-truename*
327 *load-truename*)
328 :if-output-exists nil)))))
331 (with-test (:name (:run-program :set-directory))
332 (let* ((directory #-win32 "/"
333 #+win32 "c:\\")
334 (out (sb-ext:process-output
335 (sb-ext:run-program #-win32 "/bin/sh"
336 #-win32 '("-c" "pwd")
337 #+win32 "cmd.exe"
338 #+win32 '("/c" "cd")
339 :output :stream
340 :directory directory
341 :search t))))
342 (assert
343 (equal directory
344 (string-right-trim '(#\Return) (read-line out))))))
346 (with-test (:name (:run-program :directory-nil))
347 (sb-ext:run-program #-win32 "/bin/sh"
348 #-win32 '("-c" "pwd")
349 #+win32 "cmd.exe"
350 #+win32 '("/c" "cd")
351 :directory nil
352 :search t))
354 (with-test (:name (:run-program :bad-options))
355 (assert-error
356 (sb-ext:run-program #-win32 "/bin/sh"
357 #-win32 '("-c" "pwd")
358 #+win32 "cmd.exe"
359 #+win32 '("/c" "cd")
360 :search t
361 :output :bad)))