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janet/test/suite0009.janet
Calvin Rose cbe833962b Remove bad suite0009 test. Close #871 
The issue is that there was no synchronization on writes.
The stability of the test relied on the fact that the server
would read in an entire message in one call to ev/read, which
would _almost_ always happen since the messages are so small.
2022-06-19 10:01:10 -05:00

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# Copyright (c) 2021 Calvin Rose & contributors
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to
# deal in the Software without restriction, including without limitation the
# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
# sell copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
# IN THE SOFTWARE.
(import ./helper :prefix "" :exit true)
(start-suite 9)
# Subprocess
(def janet (dyn :executable))
(repeat 10
(let [p (os/spawn [janet "-e" `(print "hello")`] :p {:out :pipe})]
(os/proc-wait p)
(def x (:read (p :out) :all))
(assert (deep= "hello" (string/trim x)) "capture stdout from os/spawn pre close."))
(let [p (os/spawn [janet "-e" `(print "hello")`] :p {:out :pipe})]
(def x (:read (p :out) 1024))
(os/proc-wait p)
(assert (deep= "hello" (string/trim x)) "capture stdout from os/spawn post close."))
(let [p (os/spawn [janet "-e" `(file/read stdin :line)`] :px {:in :pipe})]
(:write (p :in) "hello!\n")
(assert-no-error "pipe stdin to process" (os/proc-wait p))))
(let [p (os/spawn [janet "-e" `(print (file/read stdin :line))`] :px {:in :pipe :out :pipe})]
(:write (p :in) "hello!\n")
(def x (:read (p :out) 1024))
(assert-no-error "pipe stdin to process 2" (os/proc-wait p))
(assert (= "hello!" (string/trim x)) "round trip pipeline in process"))
(let [p (os/spawn [janet "-e" `(do (ev/sleep 30) (os/exit 24)`] :p)]
(os/proc-kill p)
(def retval (os/proc-wait p))
(assert (not= retval 24) "Process was *not* terminated by parent"))
# Parallel subprocesses
(defn calc-1
"Run subprocess, read from stdout, then wait on subprocess."
[code]
(let [p (os/spawn [janet "-e" (string `(printf "%j" ` code `)`)] :px {:out :pipe})]
(os/proc-wait p)
(def output (:read (p :out) :all))
(parse output)))
(assert
(deep=
(ev/gather
(calc-1 "(+ 1 2 3 4)")
(calc-1 "(+ 5 6 7 8)")
(calc-1 "(+ 9 10 11 12)"))
@[10 26 42]) "parallel subprocesses 1")
(defn calc-2
"Run subprocess, wait on subprocess, then read from stdout. Read only up to 10 bytes instead of :all"
[code]
(let [p (os/spawn [janet "-e" (string `(printf "%j" ` code `)`)] :px {:out :pipe})]
(def output (:read (p :out) 10))
(os/proc-wait p)
(parse output)))
(assert
(deep=
(ev/gather
(calc-2 "(+ 1 2 3 4)")
(calc-2 "(+ 5 6 7 8)")
(calc-2 "(+ 9 10 11 12)"))
@[10 26 42]) "parallel subprocesses 2")
# File piping
(assert-no-error "file writing 1"
(with [f (file/temp)]
(os/execute [janet "-e" `(repeat 20 (print :hello))`] :p {:out f})))
(assert-no-error "file writing 2"
(with [f (file/open "unique.txt" :w)]
(os/execute [janet "-e" `(repeat 20 (print :hello))`] :p {:out f})
(file/flush f)))
# Issue #593
(assert-no-error "file writing 3"
(def outfile (file/open "unique.txt" :w))
(os/execute [janet "-e" "(pp (seq [i :range (1 10)] i))"] :p {:out outfile})
(file/flush outfile)
(file/close outfile)
(os/rm "unique.txt"))
# Ensure that the stream created by os/open works
(assert-no-error "File writing 4.1"
(def outstream (os/open "unique.txt" :wct))
(defer (:close outstream)
(:write outstream "123\n")
(:write outstream "456\n"))
# Cast to string to enable comparison
(assert (= "123\n456\n" (string (slurp "unique.txt"))) "File writing 4.2")
(os/rm "unique.txt"))
# Test that the stream created by os/open can be read from
(comment
(assert-no-error "File reading 1.1"
(def outstream (os/open "unique.txt" :wct))
(defer (:close outstream)
(:write outstream "123\n")
(:write outstream "456\n"))
(def outstream (os/open "unique.txt" :r))
(defer (:close outstream)
(assert (= "123\n456\n" (string (:read outstream :all))) "File reading 1.2"))
(os/rm "unique.txt")))
# ev/gather
(assert (deep= @[1 2 3] (ev/gather 1 2 3)) "ev/gather 1")
(assert (deep= @[] (ev/gather)) "ev/gather 2")
(assert-error "ev/gather 3" (ev/gather 1 2 (error 3)))
# Net testing
(repeat 10
(defn handler
"Simple handler for connections."
[stream]
(defer (:close stream)
(def id (gensym))
(def b @"")
(net/read stream 1024 b)
(net/write stream b)
(buffer/clear b)))
(def s (net/server "127.0.0.1" "8000" handler))
(assert s "made server 1")
(defn test-echo [msg]
(with [conn (net/connect "127.0.0.1" "8000")]
(net/write conn msg)
(def res (net/read conn 1024))
(assert (= (string res) msg) (string "echo " msg))))
(test-echo "hello")
(test-echo "world")
(test-echo (string/repeat "abcd" 200))
(:close s))
# Test on both server and client
(defn names-handler
[stream]
(defer (:close stream)
# prevent immediate close
(ev/read stream 1)
(def [host port] (net/localname stream))
(assert (= host "127.0.0.1") "localname host server")
(assert (= port 8000) "localname port server")))
# Test localname and peername
(repeat 10
(with [s (net/server "127.0.0.1" "8000" names-handler)]
(repeat 10
(with [conn (net/connect "127.0.0.1" "8000")]
(def [host port] (net/peername conn))
(assert (= host "127.0.0.1") "peername host client ")
(assert (= port 8000) "peername port client")
# let server close
(ev/write conn " "))))
(gccollect))
# Create pipe
(var pipe-counter 0)
(def chan (ev/chan 10))
(let [[reader writer] (os/pipe)]
(ev/spawn
(while (ev/read reader 3)
(++ pipe-counter))
(assert (= 20 pipe-counter) "ev/pipe 1")
(ev/give chan 1))
(for i 0 10
(ev/write writer "xxx---"))
(ev/close writer)
(ev/take chan))
(var result nil)
(var fiber nil)
(set fiber
(ev/spawn
(set result (protect (ev/sleep 10)))
(assert (= result '(false "boop")) "ev/cancel 1")))
(ev/sleep 0)
(ev/cancel fiber "boop")
(assert (os/execute [janet "-e" `(+ 1 2 3)`] :xp) "os/execute self")
# Test some channel
(def c1 (ev/chan))
(def c2 (ev/chan))
(def arr @[])
(ev/spawn
(while (def x (ev/take c1))
(array/push arr x))
(ev/chan-close c2))
(for i 0 1000
(ev/give c1 i))
(ev/chan-close c1)
(ev/take c2)
(assert (= (slice arr) (slice (range 1000))) "ev/chan-close 1")
(def c1 (ev/chan))
(def c2 (ev/chan))
(def arr @[])
(ev/spawn
(while (def x (ev/take c1))
(array/push arr x))
(ev/sleep 0.1)
(ev/chan-close c2))
(for i 0 100
(ev/give c1 i))
(ev/chan-close c1)
(ev/select c2)
(assert (= (slice arr) (slice (range 100))) "ev/chan-close 2")
(def c1 (ev/chan))
(def c2 (ev/chan))
(def arr @[])
(ev/spawn
(while (def x (ev/take c1))
(array/push arr x))
(ev/chan-close c2))
(for i 0 100
(ev/give c1 i))
(ev/chan-close c1)
(ev/rselect c2)
(assert (= (slice arr) (slice (range 100))) "ev/chan-close 3")
# threaded channels
(def ch (ev/thread-chan 2))
(def att (ev/thread-chan 109))
(assert att "`att` was nil after creation")
(ev/give ch att)
(ev/do-thread
(assert (ev/take ch) "channel packing bug for threaded abstracts on threaded channels."))
(end-suite)
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