Mercurial > vim
view src/testdir/test_channel.vim @ 33461:6448d7b2ce20 v9.0.1984
patch 9.0.1984: CI: Test_open_delay*() fails on FreeBSD 14
Commit: https://github.com/vim/vim/commit/85ff0c1912f6d94ed94a6112517e96f64801ba56
Author: Christian Brabandt <cb@256bit.org>
Date: Wed Oct 4 21:58:24 2023 +0200
patch 9.0.1984: CI: Test_open_delay*() fails on FreeBSD 14
Problem: CI: Test_open_delay*() fails on FreeBSD 14
Solution: Skip it on BSD
Signed-off-by: Christian Brabandt <cb@256bit.org>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Wed, 04 Oct 2023 22:15:03 +0200 |
parents | b59205d0567e |
children | 2a658ffd005c |
line wrap: on
line source
" Test for channel and job functions. " When +channel is supported then +job is too, so we don't check for that. source check.vim CheckFeature channel source shared.vim source screendump.vim source view_util.vim let s:python = PythonProg() if s:python == '' " Can't run this test without Python. throw 'Skipped: Python command missing' endif " Uncomment the next line to see what happens. Output is in " src/testdir/channellog. " Add ch_log() calls where you want to see what happens. " call ch_logfile('channellog', 'w') func SetUp() if g:testfunc =~ '_ipv6()$' let s:localhost = '[::1]:' let s:testscript = 'test_channel_6.py' elseif g:testfunc =~ '_unix()$' let s:localhost = 'unix:Xtestsocket' let s:testscript = 'test_channel_unix.py' else let s:localhost = 'localhost:' let s:testscript = 'test_channel.py' endif let s:chopt = {} call ch_log(g:testfunc) " Most tests use job_start(), which can be flaky let g:test_is_flaky = 1 endfunc " Run "testfunc" after starting the server and stop the server afterwards. func s:run_server(testfunc, ...) call RunServer(s:testscript, a:testfunc, a:000) endfunc " Returns the address of the test server. func s:address(port) if s:localhost =~ '^unix:' return s:localhost else return s:localhost . a:port end endfunc " Return a list of open files. " Can be used to make sure no resources leaked. " Returns an empty list on systems where this is not supported. func s:get_resources() let pid = getpid() if executable('lsof') return systemlist('lsof -p ' . pid . ' | awk ''$4~/^[0-9]*[rwu]$/&&$5=="REG"{print$NF}''') elseif isdirectory('/proc/' . pid . '/fd/') return systemlist('readlink /proc/' . pid . '/fd/* | grep -v ''^/dev/''') else return [] endif endfunc let g:Ch_responseMsg = '' func Ch_requestHandler(handle, msg) let g:Ch_responseHandle = a:handle let g:Ch_responseMsg = a:msg endfunc func Ch_communicate(port) " Avoid dropping messages, since we don't use a callback here. let s:chopt.drop = 'never' " Also add the noblock flag to try it out. let s:chopt.noblock = 1 let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif " check that getjob without a job is handled correctly call assert_equal('no process', string(ch_getjob(handle))) let dict = handle->ch_info() call assert_true(dict.id != 0) call assert_equal('open', dict.status) if has_key(dict, 'port') " Channels using Unix sockets have no 'port' entry. call assert_equal(a:port, string(dict.port)) end call assert_equal('open', dict.sock_status) call assert_equal('socket', dict.sock_io) " Simple string request and reply. call assert_equal('got it', ch_evalexpr(handle, 'hello!')) " Malformed command should be ignored. call assert_equal('ok', ch_evalexpr(handle, 'malformed1')) call assert_equal('ok', ch_evalexpr(handle, 'malformed2')) call assert_equal('ok', ch_evalexpr(handle, 'malformed3')) " split command should work call assert_equal('ok', ch_evalexpr(handle, 'split')) call WaitFor('exists("g:split")') call assert_equal(123, g:split) " string with ][ should work call assert_equal('this][that', ch_evalexpr(handle, 'echo this][that')) " nothing to read now call assert_equal(0, ch_canread(handle)) " sending three messages quickly then reading should work for i in range(3) call ch_sendexpr(handle, 'echo hello ' . i) endfor call assert_equal('hello 0', ch_read(handle)[1]) call assert_equal('hello 1', ch_read(handle)[1]) call assert_equal('hello 2', ch_read(handle)[1]) " Request that triggers sending two ex commands. These will usually be " handled before getting the response, but it's not guaranteed, thus wait a " tiny bit for the commands to get executed. call assert_equal('ok', ch_evalexpr(handle, 'make change')) call WaitForAssert({-> assert_equal("added2", getline("$"))}) call assert_equal('added1', getline(line('$') - 1)) " Request command "echoerr 'this is an error'". " This will throw an exception, catch it here. let caught = 'no' try call assert_equal('ok', ch_evalexpr(handle, 'echoerr')) catch /this is an error/ let caught = 'yes' endtry if caught != 'yes' call assert_report("Expected exception from error message") endif " Request command "foo bar", which fails silently. call assert_equal('ok', ch_evalexpr(handle, 'bad command')) call WaitForAssert({-> assert_match("E492:.*foo bar", v:errmsg)}) call assert_equal('ok', ch_evalexpr(handle, 'do normal', {'timeout': 100})) call WaitForAssert({-> assert_equal('added more', getline('$'))}) " Send a request with a specific handler. call ch_sendexpr(handle, 'hello!', {'callback': 'Ch_requestHandler'}) call WaitFor('exists("g:Ch_responseHandle")') if !exists('g:Ch_responseHandle') call assert_report('g:Ch_responseHandle was not set') else call assert_equal(handle, g:Ch_responseHandle) unlet g:Ch_responseHandle endif call assert_equal('got it', g:Ch_responseMsg) let g:Ch_responseMsg = '' call ch_sendexpr(handle, 'hello!', {'callback': function('Ch_requestHandler')}) call WaitFor('exists("g:Ch_responseHandle")') if !exists('g:Ch_responseHandle') call assert_report('g:Ch_responseHandle was not set') else call assert_equal(handle, g:Ch_responseHandle) unlet g:Ch_responseHandle endif call assert_equal('got it', g:Ch_responseMsg) " Using lambda. let g:Ch_responseMsg = '' call ch_sendexpr(handle, 'hello!', {'callback': {a, b -> Ch_requestHandler(a, b)}}) call WaitFor('exists("g:Ch_responseHandle")') if !exists('g:Ch_responseHandle') call assert_report('g:Ch_responseHandle was not set') else call assert_equal(handle, g:Ch_responseHandle) unlet g:Ch_responseHandle endif call assert_equal('got it', g:Ch_responseMsg) " Collect garbage, tests that our handle isn't collected. call test_garbagecollect_now() " check setting options (without testing the effect) eval handle->ch_setoptions({'callback': 's:NotUsed'}) call ch_setoptions(handle, {'timeout': 1111}) call ch_setoptions(handle, {'mode': 'json'}) call assert_fails("call ch_setoptions(handle, {'waittime': 111})", 'E475:') call ch_setoptions(handle, {'callback': ''}) call ch_setoptions(handle, {'drop': 'never'}) call ch_setoptions(handle, {'drop': 'auto'}) call assert_fails("call ch_setoptions(handle, {'drop': 'bad'})", 'E475:') call assert_equal(0, ch_setoptions(handle, test_null_dict())) call assert_equal(0, ch_setoptions(test_null_channel(), {'drop' : 'never'})) " Send an eval request that works. call assert_equal('ok', ch_evalexpr(handle, 'eval-works')) sleep 10m call assert_equal([-1, 'foo123'], ch_evalexpr(handle, 'eval-result')) " Send an eval request with special characters. call assert_equal('ok', ch_evalexpr(handle, 'eval-special')) sleep 10m call assert_equal([-2, "foo\x7f\x10\x01bar"], ch_evalexpr(handle, 'eval-result')) " Send an eval request to get a line with special characters. call setline(3, "a\nb\<CR>c\x01d\x7fe") call assert_equal('ok', ch_evalexpr(handle, 'eval-getline')) sleep 10m call assert_equal([-3, "a\nb\<CR>c\x01d\x7fe"], ch_evalexpr(handle, 'eval-result')) " Send an eval request that fails. call assert_equal('ok', ch_evalexpr(handle, 'eval-fails')) sleep 10m call assert_equal([-4, 'ERROR'], ch_evalexpr(handle, 'eval-result')) " Send an eval request that works but can't be encoded. call assert_equal('ok', ch_evalexpr(handle, 'eval-error')) sleep 10m call assert_equal([-5, 'ERROR'], ch_evalexpr(handle, 'eval-result')) " Send a bad eval request. There will be no response. call assert_equal('ok', ch_evalexpr(handle, 'eval-bad')) sleep 10m call assert_equal([-5, 'ERROR'], ch_evalexpr(handle, 'eval-result')) " Send an expr request call assert_equal('ok', ch_evalexpr(handle, 'an expr')) call WaitForAssert({-> assert_equal('three', getline('$'))}) call assert_equal('one', getline(line('$') - 2)) call assert_equal('two', getline(line('$') - 1)) " Request a redraw, we don't check for the effect. call assert_equal('ok', ch_evalexpr(handle, 'redraw')) call assert_equal('ok', ch_evalexpr(handle, 'redraw!')) call assert_equal('ok', ch_evalexpr(handle, 'empty-request')) " Reading while there is nothing available. call assert_equal(v:none, ch_read(handle, {'timeout': 0})) if exists('*reltimefloat') let start = reltime() call assert_equal(v:none, ch_read(handle, {'timeout': 333})) let elapsed = reltime(start) call assert_inrange(0.3, 0.6, reltimefloat(reltime(start))) endif " Send without waiting for a response, then wait for a response. call ch_sendexpr(handle, 'wait a bit') let resp = ch_read(handle) call assert_equal(type([]), type(resp)) call assert_equal(type(11), type(resp[0])) call assert_equal('waited', resp[1]) " make the server quit, can't check if this works, should not hang. call ch_sendexpr(handle, '!quit!') endfunc func Test_communicate() call s:run_server('Ch_communicate') endfunc func Test_communicate_ipv6() CheckIPv6 call Test_communicate() endfunc func Test_communicate_unix() CheckUnix call Test_communicate() call delete('Xtestsocket') endfunc " Test that we can open two channels. func Ch_two_channels(port) let handle = ch_open(s:address(a:port), s:chopt) call assert_equal(v:t_channel, type(handle)) if handle->ch_status() == "fail" call assert_report("Can't open channel") return endif call assert_equal('got it', ch_evalexpr(handle, 'hello!')) let newhandle = ch_open(s:address(a:port), s:chopt) if ch_status(newhandle) == "fail" call assert_report("Can't open second channel") return endif call assert_equal('got it', ch_evalexpr(newhandle, 'hello!')) call assert_equal('got it', ch_evalexpr(handle, 'hello!')) call ch_close(handle) call assert_equal('got it', ch_evalexpr(newhandle, 'hello!')) call ch_close(newhandle) call assert_fails("call ch_close(newhandle)", 'E906:') endfunc func Test_two_channels() eval 'Test_two_channels()'->ch_log() call s:run_server('Ch_two_channels') endfunc func Test_two_channels_ipv6() CheckIPv6 call Test_two_channels() endfunc func Test_two_channels_unix() CheckUnix call Test_two_channels() call delete('Xtestsocket') endfunc " Test that a server crash is handled gracefully. func Ch_server_crash(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif call ch_evalexpr(handle, '!crash!') sleep 10m endfunc func Test_server_crash() call s:run_server('Ch_server_crash') endfunc func Test_server_crash_ipv6() CheckIPv6 call Test_server_crash() endfunc func Test_server_crash_unix() CheckUnix call Test_server_crash() call delete('Xtestsocket') endfunc """"""""" func Ch_handler(chan, msg) call ch_log('Ch_handler()') unlet g:Ch_reply let g:Ch_reply = a:msg endfunc func Ch_channel_handler(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif " Test that it works while waiting on a numbered message. call assert_equal('ok', ch_evalexpr(handle, 'call me')) call WaitForAssert({-> assert_equal('we called you', g:Ch_reply)}) " Test that it works while not waiting on a numbered message. call ch_sendexpr(handle, 'call me again') call WaitForAssert({-> assert_equal('we did call you', g:Ch_reply)}) endfunc func Test_channel_handler() let g:Ch_reply = "" let s:chopt.callback = 'Ch_handler' call s:run_server('Ch_channel_handler') let g:Ch_reply = "" let s:chopt.callback = function('Ch_handler') call s:run_server('Ch_channel_handler') endfunc func Test_channel_handler_ipv6() CheckIPv6 call Test_channel_handler() endfunc func Test_channel_handler_unix() CheckUnix call Test_channel_handler() call delete('Xtestsocket') endfunc """"""""" let g:Ch_reply = '' func Ch_zeroHandler(chan, msg) unlet g:Ch_reply let g:Ch_reply = a:msg endfunc let g:Ch_zero_reply = '' func Ch_oneHandler(chan, msg) unlet g:Ch_zero_reply let g:Ch_zero_reply = a:msg endfunc func Ch_channel_zero(port) let handle = (s:address(a:port))->ch_open(s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif " Check that eval works. call assert_equal('got it', ch_evalexpr(handle, 'hello!')) " Check that eval works if a zero id message is sent back. let g:Ch_reply = '' call assert_equal('sent zero', ch_evalexpr(handle, 'send zero')) if s:has_handler call WaitForAssert({-> assert_equal('zero index', g:Ch_reply)}) else sleep 20m call assert_equal('', g:Ch_reply) endif " Check that handler works if a zero id message is sent back. let g:Ch_reply = '' let g:Ch_zero_reply = '' call ch_sendexpr(handle, 'send zero', {'callback': 'Ch_oneHandler'}) call WaitForAssert({-> assert_equal('sent zero', g:Ch_zero_reply)}) if s:has_handler call assert_equal('zero index', g:Ch_reply) else call assert_equal('', g:Ch_reply) endif endfunc func Test_zero_reply() " Run with channel handler let s:has_handler = 1 let s:chopt.callback = 'Ch_zeroHandler' call s:run_server('Ch_channel_zero') unlet s:chopt.callback " Run without channel handler let s:has_handler = 0 call s:run_server('Ch_channel_zero') endfunc func Test_zero_reply_ipv6() CheckIPv6 call Test_zero_reply() endfunc func Test_zero_reply_unix() CheckUnix call Test_zero_reply() call delete('Xtestsocket') endfunc """"""""" let g:Ch_reply1 = "" func Ch_handleRaw1(chan, msg) unlet g:Ch_reply1 let g:Ch_reply1 = a:msg endfunc let g:Ch_reply2 = "" func Ch_handleRaw2(chan, msg) unlet g:Ch_reply2 let g:Ch_reply2 = a:msg endfunc let g:Ch_reply3 = "" func Ch_handleRaw3(chan, msg) unlet g:Ch_reply3 let g:Ch_reply3 = a:msg endfunc func Ch_raw_one_time_callback(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif call ch_setoptions(handle, {'mode': 'raw'}) " The messages are sent raw, we do our own JSON strings here. call ch_sendraw(handle, "[1, \"hello!\"]\n", {'callback': 'Ch_handleRaw1'}) call WaitForAssert({-> assert_equal("[1, \"got it\"]", g:Ch_reply1)}) call ch_sendraw(handle, "[2, \"echo something\"]\n", {'callback': 'Ch_handleRaw2'}) call ch_sendraw(handle, "[3, \"wait a bit\"]\n", {'callback': 'Ch_handleRaw3'}) call WaitForAssert({-> assert_equal("[2, \"something\"]", g:Ch_reply2)}) " wait for the 200 msec delayed reply call WaitForAssert({-> assert_equal("[3, \"waited\"]", g:Ch_reply3)}) endfunc func Test_raw_one_time_callback() call s:run_server('Ch_raw_one_time_callback') endfunc func Test_raw_one_time_callback_ipv6() CheckIPv6 call Test_raw_one_time_callback() endfunc func Test_raw_one_time_callback_unix() CheckUnix call Test_raw_one_time_callback() call delete('Xtestsocket') endfunc """"""""" " Test that trying to connect to a non-existing port fails quickly. func Test_connect_waittime() CheckFunction reltimefloat " this is timing sensitive let start = reltime() let handle = ch_open('localhost:9876', s:chopt) if ch_status(handle) != "fail" " Oops, port exists. call ch_close(handle) else let elapsed = reltime(start) call assert_inrange(0.0, 1.0, reltimefloat(elapsed)) endif " We intend to use a socket that doesn't exist and wait for half a second " before giving up. If the socket does exist it can fail in various ways. " Check for "Connection reset by peer" to avoid flakiness. let start = reltime() try let handle = ch_open('localhost:9867', {'waittime': 500}) if ch_status(handle) != "fail" " Oops, port exists. call ch_close(handle) else " Failed connection should wait about 500 msec. Can be longer if the " computer is busy with other things. call assert_inrange(0.3, 1.5, reltimefloat(reltime(start))) endif catch if v:exception !~ 'Connection reset by peer' call assert_report("Caught exception: " . v:exception) endif endtry endfunc """"""""" func Test_raw_pipe() " Add a dummy close callback to avoid that messages are dropped when calling " ch_canread(). " Also test the non-blocking option. let job = job_start(s:python . " test_channel_pipe.py", \ {'mode': 'raw', 'drop': 'never', 'noblock': 1}) call assert_equal(v:t_job, type(job)) call assert_equal("run", job_status(job)) call assert_equal("open", ch_status(job)) call assert_equal("open", ch_status(job), {"part": "out"}) call assert_equal("open", ch_status(job), {"part": "err"}) call assert_fails('call ch_status(job, {"in_mode": "raw"})', 'E475:') call assert_fails('call ch_status(job, {"part": "in"})', 'E475:') let dict = ch_info(job) call assert_true(dict.id != 0) call assert_equal('open', dict.status) call assert_equal('open', dict.out_status) call assert_equal('RAW', dict.out_mode) call assert_equal('pipe', dict.out_io) call assert_equal('open', dict.err_status) call assert_equal('RAW', dict.err_mode) call assert_equal('pipe', dict.err_io) try " For a change use the job where a channel is expected. call ch_sendraw(job, "echo something\n") let msg = ch_readraw(job) call assert_equal("something\n", substitute(msg, "\r", "", 'g')) call ch_sendraw(job, "double this\n") let g:handle = job->job_getchannel() call WaitFor('g:handle->ch_canread()') unlet g:handle let msg = ch_readraw(job) call assert_equal("this\nAND this\n", substitute(msg, "\r", "", 'g')) let g:Ch_reply = "" call ch_sendraw(job, "double this\n", {'callback': 'Ch_handler'}) call WaitForAssert({-> assert_equal("this\nAND this\n", substitute(g:Ch_reply, "\r", "", 'g'))}) call assert_fails("let i = ch_evalraw(job, '2 + 2', {'callback' : 'abc'})", 'E917:') call assert_fails("let i = ch_evalexpr(job, '2 + 2')", 'E912:') call assert_fails("let i = ch_evalraw(job, '2 + 2', {'drop' : ''})", 'E475:') call assert_fails("let i = ch_evalraw(test_null_job(), '2 + 2')", 'E906:') let reply = job->ch_evalraw("quit\n", {'timeout': 100}) call assert_equal("Goodbye!\n", substitute(reply, "\r", "", 'g')) finally call job_stop(job) endtry let g:Ch_job = job call WaitForAssert({-> assert_equal("dead", job_status(g:Ch_job))}) let info = job->job_info() call assert_equal("dead", info.status) call assert_equal("term", info.stoponexit) call assert_equal(2, len(info.cmd)) call assert_equal("test_channel_pipe.py", info.cmd[1]) let found = 0 for j in job_info() if j == job let found += 1 endif endfor call assert_equal(1, found) call assert_fails("call job_stop('abc')", 'E475:') call assert_fails("call job_stop(job, [])", 'E730:') call assert_fails("call job_stop(test_null_job())", 'E916:') " Try to use the job and channel where a number is expected. This is not " related to testing the raw pipe. This test is here just to reuse the " already created job/channel. let ch = job_getchannel(job) call assert_fails('let i = job + 1', 'E910:') call assert_fails('let j = ch + 1', 'E913:') call assert_fails('echo 2.0 == job', 'E911:') call assert_fails('echo 2.0 == ch', 'E914:') endfunc func Test_raw_pipe_blob() " Add a dummy close callback to avoid that messages are dropped when calling " ch_canread(). " Also test the non-blocking option. let job = job_start(s:python . " test_channel_pipe.py", \ {'mode': 'raw', 'drop': 'never', 'noblock': 1}) call assert_equal(v:t_job, type(job)) call assert_equal("run", job_status(job)) call assert_equal("open", ch_status(job)) call assert_equal("open", ch_status(job), {"part": "out"}) try " Create a blob with the echo command and write it. let blob = 0z00 let cmd = "echo something\n" for i in range(0, len(cmd) - 1) let blob[i] = char2nr(cmd[i]) endfor call assert_equal(len(cmd), len(blob)) call ch_sendraw(job, blob) " Read a blob with the reply. let msg = job->ch_readblob() let expected = 'something' for i in range(0, len(expected) - 1) call assert_equal(char2nr(expected[i]), msg[i]) endfor let reply = ch_evalraw(job, "quit\n", {'timeout': 100}) call assert_equal("Goodbye!\n", substitute(reply, "\r", "", 'g')) finally call job_stop(job) endtry let g:Ch_job = job call WaitForAssert({-> assert_equal("dead", job_status(g:Ch_job))}) let info = job_info(job) call assert_equal("dead", info.status) endfunc func Test_nl_pipe() let job = job_start([s:python, "test_channel_pipe.py"]) call assert_equal("run", job_status(job)) try let handle = job_getchannel(job) call ch_sendraw(handle, "echo something\n") call assert_equal("something", handle->ch_readraw()) call ch_sendraw(handle, "echoerr wrong\n") call assert_equal("wrong", ch_readraw(handle, {'part': 'err'})) call ch_sendraw(handle, "double this\n") call assert_equal("this", ch_readraw(handle)) call assert_equal("AND this", ch_readraw(handle)) call ch_sendraw(handle, "split this line\n") call assert_equal("this linethis linethis line", handle->ch_read()) let reply = ch_evalraw(handle, "quit\n") call assert_equal("Goodbye!", reply) finally call job_stop(job) endtry endfunc func Stop_g_job() call job_stop(g:job) if has('win32') " On MS-Windows the server must close the file handle before we are able " to delete the file. call WaitForAssert({-> assert_equal('dead', job_status(g:job))}) sleep 10m endif endfunc func Test_nl_read_file() call writefile(['echo something', 'echoerr wrong', 'double this'], 'Xinput', 'D') let g:job = job_start(s:python . " test_channel_pipe.py", \ {'in_io': 'file', 'in_name': 'Xinput'}) call assert_equal("run", job_status(g:job)) try let handle = job_getchannel(g:job) call assert_equal("something", ch_readraw(handle)) call assert_equal("wrong", ch_readraw(handle, {'part': 'err'})) call assert_equal("this", ch_readraw(handle)) call assert_equal("AND this", ch_readraw(handle)) finally call Stop_g_job() endtry call assert_fails("echo ch_read(test_null_channel(), {'callback' : 'abc'})", 'E475:') endfunc func Test_nl_write_out_file() let g:job = job_start(s:python . " test_channel_pipe.py", \ {'out_io': 'file', 'out_name': 'Xoutput'}) call assert_equal("run", job_status(g:job)) try let handle = job_getchannel(g:job) call ch_sendraw(handle, "echo line one\n") call ch_sendraw(handle, "echo line two\n") call ch_sendraw(handle, "double this\n") call WaitForAssert({-> assert_equal(['line one', 'line two', 'this', 'AND this'], readfile('Xoutput'))}) finally call Stop_g_job() call assert_equal(-1, match(s:get_resources(), '\(^\|/\)Xoutput$')) call delete('Xoutput') endtry endfunc func Test_nl_write_err_file() let g:job = job_start(s:python . " test_channel_pipe.py", \ {'err_io': 'file', 'err_name': 'Xoutput'}) call assert_equal("run", job_status(g:job)) try let handle = job_getchannel(g:job) call ch_sendraw(handle, "echoerr line one\n") call ch_sendraw(handle, "echoerr line two\n") call ch_sendraw(handle, "doubleerr this\n") call WaitForAssert({-> assert_equal(['line one', 'line two', 'this', 'AND this'], readfile('Xoutput'))}) finally call Stop_g_job() call delete('Xoutput') endtry endfunc func Test_nl_write_both_file() let g:job = job_start(s:python . " test_channel_pipe.py", \ {'out_io': 'file', 'out_name': 'Xoutput', 'err_io': 'out'}) call assert_equal("run", job_status(g:job)) try let handle = job_getchannel(g:job) call ch_sendraw(handle, "echoerr line one\n") call ch_sendraw(handle, "echo line two\n") call ch_sendraw(handle, "double this\n") call ch_sendraw(handle, "doubleerr that\n") call WaitForAssert({-> assert_equal(['line one', 'line two', 'this', 'AND this', 'that', 'AND that'], readfile('Xoutput'))}) finally call Stop_g_job() call assert_equal(-1, match(s:get_resources(), '\(^\|/\)Xoutput$')) call delete('Xoutput') endtry endfunc func BufCloseCb(ch) let g:Ch_bufClosed = 'yes' endfunc func Run_test_pipe_to_buffer(use_name, nomod, do_msg) let g:Ch_bufClosed = 'no' let options = {'out_io': 'buffer', 'close_cb': 'BufCloseCb'} let expected = ['', 'line one', 'line two', 'this', 'AND this', 'Goodbye!'] if a:use_name let options['out_name'] = 'pipe-output' if a:do_msg let expected[0] = 'Reading from channel output...' else let options['out_msg'] = 0 call remove(expected, 0) endif else sp pipe-output let options['out_buf'] = bufnr('%') quit call remove(expected, 0) endif if a:nomod let options['out_modifiable'] = 0 endif let job = job_start(s:python . " test_channel_pipe.py", options) call assert_equal("run", job_status(job)) try let handle = job_getchannel(job) call ch_sendraw(handle, "echo line one\n") call ch_sendraw(handle, "echo line two\n") call ch_sendraw(handle, "double this\n") call ch_sendraw(handle, "quit\n") sp pipe-output call WaitFor('line("$") == ' . len(expected) . ' && g:Ch_bufClosed == "yes"') call assert_equal(expected, getline(1, '$')) if a:nomod call assert_equal(0, &modifiable) else call assert_equal(1, &modifiable) endif call assert_equal('yes', g:Ch_bufClosed) bwipe! finally call job_stop(job) endtry endfunc func Test_pipe_to_buffer_name() call Run_test_pipe_to_buffer(1, 0, 1) endfunc func Test_pipe_to_buffer_nr() call Run_test_pipe_to_buffer(0, 0, 1) endfunc func Test_pipe_to_buffer_name_nomod() call Run_test_pipe_to_buffer(1, 1, 1) endfunc func Test_pipe_to_buffer_name_nomsg() call Run_test_pipe_to_buffer(1, 0, 1) endfunc func Test_close_output_buffer() let g:test_is_flaky = 1 enew! let test_lines = ['one', 'two'] call setline(1, test_lines) let options = {'out_io': 'buffer'} let options['out_name'] = 'buffer-output' let options['out_msg'] = 0 split buffer-output let job = job_start(s:python . " test_channel_write.py", options) call assert_equal("run", job_status(job)) try call WaitForAssert({-> assert_equal(3, line('$'))}) quit! sleep 100m " Make sure the write didn't happen to the wrong buffer. call assert_equal(test_lines, getline(1, line('$'))) call assert_equal(-1, bufwinnr('buffer-output')) sbuf buffer-output call assert_notequal(-1, bufwinnr('buffer-output')) sleep 100m close " no more writes bwipe! finally call job_stop(job) endtry endfunc func Run_test_pipe_err_to_buffer(use_name, nomod, do_msg) let options = {'err_io': 'buffer'} let expected = ['', 'line one', 'line two', 'this', 'AND this'] if a:use_name let options['err_name'] = 'pipe-err' if a:do_msg let expected[0] = 'Reading from channel error...' else let options['err_msg'] = 0 call remove(expected, 0) endif else sp pipe-err let options['err_buf'] = bufnr('%') quit call remove(expected, 0) endif if a:nomod let options['err_modifiable'] = 0 endif let job = job_start(s:python . " test_channel_pipe.py", options) call assert_equal("run", job_status(job)) try let handle = job_getchannel(job) call ch_sendraw(handle, "echoerr line one\n") call ch_sendraw(handle, "echoerr line two\n") call ch_sendraw(handle, "doubleerr this\n") call ch_sendraw(handle, "quit\n") sp pipe-err call WaitForAssert({-> assert_equal(expected, getline(1, '$'))}) if a:nomod call assert_equal(0, &modifiable) else call assert_equal(1, &modifiable) endif bwipe! finally call job_stop(job) endtry endfunc func Test_pipe_err_to_buffer_name() call Run_test_pipe_err_to_buffer(1, 0, 1) endfunc func Test_pipe_err_to_buffer_nr() call Run_test_pipe_err_to_buffer(0, 0, 1) endfunc func Test_pipe_err_to_buffer_name_nomod() call Run_test_pipe_err_to_buffer(1, 1, 1) endfunc func Test_pipe_err_to_buffer_name_nomsg() call Run_test_pipe_err_to_buffer(1, 0, 0) endfunc func Test_pipe_both_to_buffer() let job = job_start(s:python . " test_channel_pipe.py", \ {'out_io': 'buffer', 'out_name': 'pipe-err', 'err_io': 'out'}) call assert_equal("run", job_status(job)) let handle = job_getchannel(job) call assert_equal(bufnr('pipe-err'), ch_getbufnr(handle, 'out')) call assert_equal(bufnr('pipe-err'), ch_getbufnr(handle, 'err')) try call ch_sendraw(handle, "echo line one\n") call ch_sendraw(handle, "echoerr line two\n") call ch_sendraw(handle, "double this\n") call ch_sendraw(handle, "doubleerr that\n") call ch_sendraw(handle, "quit\n") sp pipe-err call WaitForAssert({-> assert_equal(['Reading from channel output...', 'line one', 'line two', 'this', 'AND this', 'that', 'AND that', 'Goodbye!'], getline(1, '$'))}) bwipe! finally call job_stop(job) endtry endfunc func Run_test_pipe_from_buffer(use_name) sp pipe-input call setline(1, ['echo one', 'echo two', 'echo three']) let options = {'in_io': 'buffer', 'block_write': 1} if a:use_name let options['in_name'] = 'pipe-input' else let options['in_buf'] = bufnr('%') endif let job = job_start(s:python . " test_channel_pipe.py", options) call assert_equal("run", job_status(job)) if has('unix') && !a:use_name call assert_equal(bufnr('%'), ch_getbufnr(job, 'in')) endif try let handle = job_getchannel(job) call assert_equal('one', ch_read(handle)) call assert_equal('two', ch_read(handle)) call assert_equal('three', ch_read(handle)) bwipe! finally call job_stop(job) endtry endfunc func Test_pipe_from_buffer_name() call Run_test_pipe_from_buffer(1) endfunc func Test_pipe_from_buffer_nr() call Run_test_pipe_from_buffer(0) endfunc func Run_pipe_through_sort(all, use_buffer) CheckExecutable sort let g:test_is_flaky = 1 let options = {'out_io': 'buffer', 'out_name': 'sortout'} if a:use_buffer split sortin call setline(1, ['ccc', 'aaa', 'ddd', 'bbb', 'eee']) let options.in_io = 'buffer' let options.in_name = 'sortin' endif if !a:all let options.in_top = 2 let options.in_bot = 4 endif let job = job_start('sort', options) if !a:use_buffer call assert_equal("run", job_status(job)) call ch_sendraw(job, "ccc\naaa\nddd\nbbb\neee\n") eval job->ch_close_in() endif call WaitForAssert({-> assert_equal("dead", job_status(job))}) sp sortout call WaitFor('line("$") > 3') call assert_equal('Reading from channel output...', getline(1)) if a:all call assert_equal(['aaa', 'bbb', 'ccc', 'ddd', 'eee'], getline(2, 6)) else call assert_equal(['aaa', 'bbb', 'ddd'], getline(2, 4)) endif call job_stop(job) if a:use_buffer bwipe! sortin endif bwipe! sortout endfunc func Test_pipe_through_sort_all() call Run_pipe_through_sort(1, 1) endfunc func Test_pipe_through_sort_some() call Run_pipe_through_sort(0, 1) endfunc func Test_pipe_through_sort_feed() call Run_pipe_through_sort(1, 0) endfunc func Test_pipe_to_nameless_buffer() let job = job_start(s:python . " test_channel_pipe.py", \ {'out_io': 'buffer'}) call assert_equal("run", job_status(job)) try let handle = job_getchannel(job) call ch_sendraw(handle, "echo line one\n") call ch_sendraw(handle, "echo line two\n") exe handle->ch_getbufnr("out") .. 'sbuf' call WaitFor('line("$") >= 3') call assert_equal(['Reading from channel output...', 'line one', 'line two'], getline(1, '$')) bwipe! finally call job_stop(job) endtry endfunc func Test_pipe_to_buffer_json() CheckFunction reltimefloat let job = job_start(s:python . " test_channel_pipe.py", \ {'out_io': 'buffer', 'out_mode': 'json'}) call assert_equal("run", job_status(job)) try let handle = job_getchannel(job) call ch_sendraw(handle, "echo [0, \"hello\"]\n") call ch_sendraw(handle, "echo [-2, 12.34]\n") exe ch_getbufnr(handle, "out") . 'sbuf' call WaitFor('line("$") >= 3') call assert_equal(['Reading from channel output...', '[0,"hello"]', '[-2,12.34]'], getline(1, '$')) bwipe! finally call job_stop(job) endtry endfunc " Wait a little while for the last line, minus "offset", to equal "line". func s:wait_for_last_line(line, offset) for i in range(100) if getline(line('$') - a:offset) == a:line break endif sleep 10m endfor endfunc func Test_pipe_io_two_buffers() " Create two buffers, one to read from and one to write to. split pipe-output set buftype=nofile split pipe-input set buftype=nofile let job = job_start(s:python . " test_channel_pipe.py", \ {'in_io': 'buffer', 'in_name': 'pipe-input', 'in_top': 0, \ 'out_io': 'buffer', 'out_name': 'pipe-output', \ 'block_write': 1}) call assert_equal("run", job_status(job)) try exe "normal Gaecho hello\<CR>" exe bufwinnr('pipe-output') . "wincmd w" call s:wait_for_last_line('hello', 0) call assert_equal('hello', getline('$')) exe bufwinnr('pipe-input') . "wincmd w" exe "normal Gadouble this\<CR>" exe bufwinnr('pipe-output') . "wincmd w" call s:wait_for_last_line('AND this', 0) call assert_equal('this', getline(line('$') - 1)) call assert_equal('AND this', getline('$')) bwipe! exe bufwinnr('pipe-input') . "wincmd w" bwipe! finally call job_stop(job) endtry endfunc func Test_pipe_io_one_buffer() " Create one buffer to read from and to write to. split pipe-io set buftype=nofile let job = job_start(s:python . " test_channel_pipe.py", \ {'in_io': 'buffer', 'in_name': 'pipe-io', 'in_top': 0, \ 'out_io': 'buffer', 'out_name': 'pipe-io', \ 'block_write': 1}) call assert_equal("run", job_status(job)) try exe "normal Goecho hello\<CR>" call s:wait_for_last_line('hello', 1) call assert_equal('hello', getline(line('$') - 1)) exe "normal Gadouble this\<CR>" call s:wait_for_last_line('AND this', 1) call assert_equal('this', getline(line('$') - 2)) call assert_equal('AND this', getline(line('$') - 1)) bwipe! finally call job_stop(job) endtry endfunc func Test_write_to_buffer_and_scroll() CheckScreendump let lines =<< trim END new Xscrollbuffer call setline(1, range(1, 200)) $ redraw wincmd w call deletebufline('Xscrollbuffer', 1, '$') if has('win32') let cmd = ['cmd', '/c', 'echo sometext'] else let cmd = [&shell, &shellcmdflag, 'echo sometext'] endif call job_start(cmd, #{out_io: 'buffer', out_name: 'Xscrollbuffer'}) END call writefile(lines, 'XtestBufferScroll', 'D') let buf = RunVimInTerminal('-S XtestBufferScroll', #{rows: 10}) call TermWait(buf, 50) call VerifyScreenDump(buf, 'Test_job_buffer_scroll_1', {}) " clean up call StopVimInTerminal(buf) endfunc func Test_pipe_null() " We cannot check that no I/O works, we only check that the job starts " properly. let job = job_start(s:python . " test_channel_pipe.py something", \ {'in_io': 'null'}) call assert_equal("run", job_status(job)) try call assert_equal('something', ch_read(job)) finally call job_stop(job) endtry let job = job_start(s:python . " test_channel_pipe.py err-out", \ {'out_io': 'null'}) call assert_equal("run", job_status(job)) try call assert_equal('err-out', ch_read(job, {"part": "err"})) finally call job_stop(job) endtry let job = job_start(s:python . " test_channel_pipe.py something", \ {'err_io': 'null'}) call assert_equal("run", job_status(job)) try call assert_equal('something', ch_read(job)) finally call job_stop(job) endtry " This causes spurious leak errors with valgrind. if !RunningWithValgrind() let job = job_start(s:python . " test_channel_pipe.py something", \ {'out_io': 'null', 'err_io': 'out'}) call assert_equal("run", job_status(job)) call job_stop(job) let job = job_start(s:python . " test_channel_pipe.py something", \ {'in_io': 'null', 'out_io': 'null', 'err_io': 'null'}) call assert_equal("run", job_status(job)) call assert_equal('channel fail', string(job_getchannel(job))) call assert_equal('fail', ch_status(job)) call assert_equal('no process', string(test_null_job())) call assert_equal('channel fail', string(test_null_channel())) call job_stop(job) endif endfunc func Test_pipe_to_buffer_raw() let options = {'out_mode': 'raw', 'out_io': 'buffer', 'out_name': 'testout'} split testout let job = job_start([s:python, '-c', \ 'import sys; [sys.stdout.write(".") and sys.stdout.flush() for _ in range(10000)]'], options) " the job may be done quickly, also accept "dead" call assert_match('^\%(dead\|run\)$', job_status(job)) call WaitFor('len(join(getline(1, "$"), "")) >= 10000') try let totlen = 0 for line in getline(1, '$') call assert_equal('', substitute(line, '^\.*', '', '')) let totlen += len(line) endfor call assert_equal(10000, totlen) finally call job_stop(job) bwipe! endtry endfunc func Test_reuse_channel() let job = job_start(s:python . " test_channel_pipe.py") call assert_equal("run", job_status(job)) let handle = job_getchannel(job) try call ch_sendraw(handle, "echo something\n") call assert_equal("something", ch_readraw(handle)) finally call job_stop(job) endtry let job = job_start(s:python . " test_channel_pipe.py", {'channel': handle}) call assert_equal("run", job_status(job)) let handle = job_getchannel(job) try call ch_sendraw(handle, "echo again\n") call assert_equal("again", ch_readraw(handle)) finally call job_stop(job) endtry endfunc func Test_out_cb() let g:test_is_flaky = 1 let dict = {'thisis': 'dict: '} func dict.outHandler(chan, msg) dict if type(a:msg) == v:t_string let g:Ch_outmsg = self.thisis . a:msg else let g:Ch_outobj = a:msg endif endfunc func dict.errHandler(chan, msg) dict let g:Ch_errmsg = self.thisis . a:msg endfunc let job = job_start(s:python . " test_channel_pipe.py", \ {'out_cb': dict.outHandler, \ 'out_mode': 'json', \ 'err_cb': dict.errHandler, \ 'err_mode': 'json'}) call assert_equal("run", job_status(job)) call test_garbagecollect_now() try let g:Ch_outmsg = '' let g:Ch_errmsg = '' call ch_sendraw(job, "echo [0, \"hello\"]\n") call ch_sendraw(job, "echoerr [0, \"there\"]\n") call WaitForAssert({-> assert_equal("dict: hello", g:Ch_outmsg)}) call WaitForAssert({-> assert_equal("dict: there", g:Ch_errmsg)}) " Receive a json object split in pieces let g:Ch_outobj = '' call ch_sendraw(job, "echosplit [0, {\"one\": 1,| \"tw|o\": 2, \"three\": 3|}]\n") " For unknown reasons this can be very slow on Mac. " Increase the timeout on every run. if g:run_nr == 1 let timeout = 5000 elseif g:run_nr == 2 let timeout = 10000 elseif g:run_nr == 3 let timeout = 20000 else let timeout = 40000 endif call WaitForAssert({-> assert_equal({'one': 1, 'two': 2, 'three': 3}, g:Ch_outobj)}, timeout) finally call job_stop(job) endtry endfunc func Test_out_close_cb() let s:counter = 1 let g:Ch_msg1 = '' let g:Ch_closemsg = 0 func! OutHandler(chan, msg) if s:counter == 1 let g:Ch_msg1 = a:msg endif let s:counter += 1 endfunc func! CloseHandler(chan) let g:Ch_closemsg = s:counter let s:counter += 1 endfunc let job = job_start(s:python . " test_channel_pipe.py quit now", \ {'out_cb': 'OutHandler', \ 'close_cb': 'CloseHandler'}) " the job may be done quickly, also accept "dead" call assert_match('^\%(dead\|run\)$', job_status(job)) try call WaitForAssert({-> assert_equal('quit', g:Ch_msg1)}) call WaitForAssert({-> assert_equal(2, g:Ch_closemsg)}) finally call job_stop(job) delfunc OutHandler delfunc CloseHandler endtry endfunc func Test_read_in_close_cb() let g:Ch_received = '' func! CloseHandler(chan) let g:Ch_received = ch_read(a:chan) endfunc let job = job_start(s:python . " test_channel_pipe.py quit now", \ {'close_cb': 'CloseHandler'}) " the job may be done quickly, also accept "dead" call assert_match('^\%(dead\|run\)$', job_status(job)) try call WaitForAssert({-> assert_equal('quit', g:Ch_received)}) finally call job_stop(job) delfunc CloseHandler endtry endfunc " Use channel in NL mode but received text does not end in NL. func Test_read_in_close_cb_incomplete() let g:Ch_received = '' func! CloseHandler(chan) while ch_status(a:chan, {'part': 'out'}) == 'buffered' let g:Ch_received .= ch_read(a:chan) endwhile endfunc let job = job_start(s:python . " test_channel_pipe.py incomplete", \ {'close_cb': 'CloseHandler'}) " the job may be done quickly, also accept "dead" call assert_match('^\%(dead\|run\)$', job_status(job)) try call WaitForAssert({-> assert_equal('incomplete', g:Ch_received)}) finally call job_stop(job) delfunc CloseHandler endtry endfunc func Test_out_cb_lambda() let job = job_start(s:python . " test_channel_pipe.py", \ {'out_cb': {ch, msg -> execute("let g:Ch_outmsg = 'lambda: ' . msg")}, \ 'out_mode': 'json', \ 'err_cb': {ch, msg -> execute(":let g:Ch_errmsg = 'lambda: ' . msg")}, \ 'err_mode': 'json'}) call assert_equal("run", job_status(job)) try let g:Ch_outmsg = '' let g:Ch_errmsg = '' call ch_sendraw(job, "echo [0, \"hello\"]\n") call ch_sendraw(job, "echoerr [0, \"there\"]\n") call WaitForAssert({-> assert_equal("lambda: hello", g:Ch_outmsg)}) call WaitForAssert({-> assert_equal("lambda: there", g:Ch_errmsg)}) finally call job_stop(job) endtry endfunc func Test_close_and_exit_cb() let g:test_is_flaky = 1 let g:retdict = {'ret': {}} func g:retdict.close_cb(ch) dict let self.ret['close_cb'] = a:ch->ch_getjob()->job_status() endfunc func g:retdict.exit_cb(job, status) dict let self.ret['exit_cb'] = job_status(a:job) endfunc let job = job_start([&shell, &shellcmdflag, 'echo'], \ {'close_cb': g:retdict.close_cb, \ 'exit_cb': g:retdict.exit_cb}) " the job may be done quickly, also accept "dead" call assert_match('^\%(dead\|run\)$', job_status(job)) call WaitForAssert({-> assert_equal(2, len(g:retdict.ret))}) call assert_match('^\%(dead\|run\)$', g:retdict.ret['close_cb']) call assert_equal('dead', g:retdict.ret['exit_cb']) unlet g:retdict endfunc """""""""" function ExitCbWipe(job, status) exe g:wipe_buf 'bw!' endfunction " This caused a crash, because messages were handled while peeking for a " character. func Test_exit_cb_wipes_buf() CheckFeature timers set cursorline lazyredraw call test_override('redraw_flag', 1) new let g:wipe_buf = bufnr('') let job = job_start(has('win32') ? 'cmd /c echo:' : ['true'], \ {'exit_cb': 'ExitCbWipe'}) let timer = timer_start(300, {-> feedkeys("\<Esc>", 'nt')}, {'repeat': 5}) call feedkeys(repeat('g', 1000) . 'o', 'ntx!') call WaitForAssert({-> assert_equal("dead", job_status(job))}) call timer_stop(timer) set nocursorline nolazyredraw unlet g:wipe_buf call test_override('ALL', 0) endfunc """""""""" let g:Ch_unletResponse = '' func s:UnletHandler(handle, msg) let g:Ch_unletResponse = a:msg unlet s:channelfd endfunc " Test that "unlet handle" in a handler doesn't crash Vim. func Ch_unlet_handle(port) let s:channelfd = ch_open(s:address(a:port), s:chopt) eval s:channelfd->ch_sendexpr("test", {'callback': function('s:UnletHandler')}) call WaitForAssert({-> assert_equal('what?', g:Ch_unletResponse)}) endfunc func Test_unlet_handle() call s:run_server('Ch_unlet_handle') endfunc func Test_unlet_handle_ipv6() CheckIPv6 call Test_unlet_handle() endfunc """""""""" let g:Ch_unletResponse = '' func Ch_CloseHandler(handle, msg) let g:Ch_unletResponse = a:msg eval s:channelfd->ch_close() endfunc " Test that "unlet handle" in a handler doesn't crash Vim. func Ch_close_handle(port) let s:channelfd = ch_open(s:address(a:port), s:chopt) call ch_sendexpr(s:channelfd, "test", {'callback': function('Ch_CloseHandler')}) call WaitForAssert({-> assert_equal('what?', g:Ch_unletResponse)}) endfunc func Test_close_handle() call s:run_server('Ch_close_handle') endfunc func Test_close_handle_ipv6() CheckIPv6 call Test_close_handle() endfunc """""""""" func Ch_open_ipv6(port) let handle = ch_open(s:address(a:port), s:chopt) call assert_notequal('fail', ch_status(handle)) endfunc func Test_open_ipv6() CheckIPv6 call s:run_server('Ch_open_ipv6') endfunc """""""""" func Test_open_fail() call assert_fails("let ch = ch_open('noserver')", 'E475:') echo ch let d = ch call assert_fails("let ch = ch_open('noserver', 10)", 'E1206:') call assert_fails("let ch = ch_open('localhost:-1')", 'E475:') call assert_fails("let ch = ch_open('localhost:65537')", 'E475:') call assert_fails("let ch = ch_open('localhost:8765', {'timeout' : -1})", \ 'E474:') call assert_fails("let ch = ch_open('localhost:8765', {'axby' : 1})", \ 'E475:') call assert_fails("let ch = ch_open('localhost:8765', {'mode' : 'abc'})", \ 'E475:') call assert_fails("let ch = ch_open('localhost:8765', {'part' : 'out'})", \ 'E475:') call assert_fails("let ch = ch_open('[::]')", 'E475:') call assert_fails("let ch = ch_open('[::.80')", 'E475:') call assert_fails("let ch = ch_open('[::]8080')", 'E475:') endfunc func Test_ch_info_fail() call assert_fails("let x = ch_info(10)", 'E475:') endfunc """""""""" func Ch_open_delay(port) " Wait up to a second for the port to open. let s:chopt.waittime = 1000 let channel = ch_open(s:address(a:port), s:chopt) if ch_status(channel) == "fail" call assert_report("Can't open channel") return endif call assert_equal('got it', channel->ch_evalexpr('hello!')) call ch_close(channel) endfunc func Test_open_delay() " This fails on BSD (e.g. Cirrus-CI), why? CheckNotBSD " The server will wait half a second before creating the port. call s:run_server('Ch_open_delay', 'delay') endfunc func Test_open_delay_ipv6() CheckIPv6 " This fails on BSD (e.g. Cirrus-CI), why? CheckNotBSD call Test_open_delay() endfunc """"""""" function MyFunction(a,b,c) let g:Ch_call_ret = [a:a, a:b, a:c] endfunc function Ch_test_call(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif let g:Ch_call_ret = [] call assert_equal('ok', ch_evalexpr(handle, 'call-func')) call WaitForAssert({-> assert_equal([1, 2, 3], g:Ch_call_ret)}) call assert_fails("let i = ch_evalexpr(handle, '2 + 2', {'callback' : 'abc'})", 'E917:') call assert_fails("let i = ch_evalexpr(handle, '2 + 2', {'drop' : ''})", 'E475:') call assert_fails("let i = ch_evalexpr(test_null_job(), '2 + 2')", 'E906:') endfunc func Test_call() call s:run_server('Ch_test_call') endfunc func Test_call_ipv6() CheckIPv6 call Test_call() endfunc func Test_call_unix() CheckUnix call Test_call() call delete('Xtestsocket') endfunc """"""""" let g:Ch_job_exit_ret = 'not yet' function MyExitCb(job, status) let g:Ch_job_exit_ret = 'done' endfunc function Ch_test_exit_callback(port) eval g:currentJob->job_setoptions({'exit_cb': 'MyExitCb'}) let g:Ch_exit_job = g:currentJob call assert_equal('MyExitCb', job_info(g:currentJob)['exit_cb']) endfunc func Test_exit_callback() call s:run_server('Ch_test_exit_callback') " wait up to a second for the job to exit for i in range(100) if g:Ch_job_exit_ret == 'done' break endif sleep 10m " calling job_status() triggers the callback call job_status(g:Ch_exit_job) endfor call assert_equal('done', g:Ch_job_exit_ret) call assert_equal('dead', job_info(g:Ch_exit_job).status) unlet g:Ch_exit_job endfunc function MyExitTimeCb(job, status) if job_info(a:job).process == g:exit_cb_val.process let g:exit_cb_val.end = reltime(g:exit_cb_val.start) endif call Resume() endfunction func Test_exit_callback_interval() CheckFunction reltimefloat let g:test_is_flaky = 1 let g:exit_cb_val = {'start': reltime(), 'end': 0, 'process': 0} let job = [s:python, '-c', 'import time;time.sleep(0.5)']->job_start({'exit_cb': 'MyExitTimeCb'}) let g:exit_cb_val.process = job_info(job).process try call WaitFor('type(g:exit_cb_val.end) != v:t_number || g:exit_cb_val.end != 0') catch call add(v:errors, "Job status: " .. string(job->job_info())) throw v:exception endtry let elapsed = reltimefloat(g:exit_cb_val.end) call assert_inrange(0.5, 1.0, elapsed) " case: unreferenced job, using timer if !has('timers') return endif let g:exit_cb_val = {'start': reltime(), 'end': 0, 'process': 0} let g:job = job_start([s:python, '-c', 'import time;time.sleep(0.5)'], {'exit_cb': 'MyExitTimeCb'}) let g:exit_cb_val.process = job_info(g:job).process unlet g:job call Standby(1000) if type(g:exit_cb_val.end) != v:t_number || g:exit_cb_val.end != 0 let elapsed = reltimefloat(g:exit_cb_val.end) else let elapsed = 1.0 endif call assert_inrange(0.5, 1.0, elapsed) endfunc """"""""" let g:Ch_close_ret = 'alive' function MyCloseCb(ch) let g:Ch_close_ret = 'closed' endfunc function Ch_test_close_callback(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif call ch_setoptions(handle, {'close_cb': 'MyCloseCb'}) call assert_equal('', ch_evalexpr(handle, 'close me')) call WaitForAssert({-> assert_equal('closed', g:Ch_close_ret)}) endfunc func Test_close_callback() call s:run_server('Ch_test_close_callback') endfunc func Test_close_callback_ipv6() CheckIPv6 call Test_close_callback() endfunc func Test_close_callback_unix() CheckUnix call Test_close_callback() call delete('Xtestsocket') endfunc function Ch_test_close_partial(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif let g:Ch_d = {} func g:Ch_d.closeCb(ch) dict let self.close_ret = 'closed' endfunc call ch_setoptions(handle, {'close_cb': g:Ch_d.closeCb}) call assert_equal('', ch_evalexpr(handle, 'close me')) call WaitForAssert({-> assert_equal('closed', g:Ch_d.close_ret)}) unlet g:Ch_d endfunc func Test_close_partial() call s:run_server('Ch_test_close_partial') endfunc func Test_close_partial_ipv6() CheckIPv6 call Test_close_partial() endfunc func Test_close_partial_unix() CheckUnix call Test_close_partial() call delete('Xtestsocket') endfunc func Test_job_start_fails() " this was leaking memory call assert_fails("call job_start([''])", "E474:") call assert_fails('call job_start($x)', 'E474:') call assert_fails('call job_start("")', 'E474:') call assert_fails('call job_start("ls", {"out_io" : "abc"})', 'E475:') call assert_fails('call job_start("ls", {"err_io" : "abc"})', 'E475:') call assert_fails('call job_start("ls", [])', 'E715:') call assert_fails("call job_start('ls', {'in_top' : -1})", 'E475:') call assert_fails("call job_start('ls', {'in_bot' : -1})", 'E475:') call assert_fails("call job_start('ls', {'channel' : -1})", 'E475:') call assert_fails("call job_start('ls', {'callback' : -1})", 'E921:') call assert_fails("call job_start('ls', {'out_cb' : -1})", 'E921:') call assert_fails("call job_start('ls', {'err_cb' : -1})", 'E921:') call assert_fails("call job_start('ls', {'close_cb' : -1})", 'E921:') call assert_fails("call job_start('ls', {'exit_cb' : -1})", 'E921:') call assert_fails("call job_start('ls', {'term_name' : []})", 'E475:') call assert_fails("call job_start('ls', {'term_finish' : 'run'})", 'E475:') call assert_fails("call job_start('ls', {'term_api' : []})", 'E475:') call assert_fails("call job_start('ls', {'stoponexit' : []})", 'E730:') call assert_fails("call job_start('ls', {'in_io' : 'file'})", 'E920:') call assert_fails("call job_start('ls', {'out_io' : 'file'})", 'E920:') call assert_fails("call job_start('ls', {'err_io' : 'file'})", 'E920:') call assert_fails("call job_start('ls', {'in_mode' : 'abc'})", 'E475:') call assert_fails("call job_start('ls', {'out_mode' : 'abc'})", 'E475:') call assert_fails("call job_start('ls', {'err_mode' : 'abc'})", 'E475:') call assert_fails("call job_start('ls', \ {'in_io' : 'buffer', 'in_buf' : 99999})", 'E86:') call assert_fails("call job_start('ls', \ {'out_io' : 'buffer', 'out_buf' : 99999})", 'E86:') call assert_fails("call job_start('ls', \ {'err_io' : 'buffer', 'err_buf' : 99999})", 'E86:') call assert_fails("call job_start('ls', \ {'in_io' : 'buffer', 'in_buf' : -1})", 'E475:') call assert_fails("call job_start('ls', \ {'out_io' : 'buffer', 'out_buf' : -1})", 'E475:') call assert_fails("call job_start('ls', \ {'err_io' : 'buffer', 'err_buf' : -1})", 'E475:') let cmd = has('win32') ? "cmd /c dir" : "ls" set nomodifiable call assert_fails("call job_start(cmd, \ {'out_io' : 'buffer', 'out_buf' :" .. bufnr() .. "})", 'E21:') call assert_fails("call job_start(cmd, \ {'err_io' : 'buffer', 'err_buf' :" .. bufnr() .. "})", 'E21:') set modifiable call assert_fails("call job_start(cmd, {'in_io' : 'buffer'})", 'E915:') edit! XXX let bnum = bufnr() enew call assert_fails("call job_start(cmd, \ {'in_io' : 'buffer', 'in_buf' : bnum})", 'E918:') " Empty job tests " This was crashing on MS-Windows. call assert_fails('let job = job_start([""])', 'E474:') call assert_fails('let job = job_start([" "])', 'E474:') call assert_fails('let job = job_start("")', 'E474:') call assert_fails('let job = job_start(" ")', 'E474:') call assert_fails('let job = job_start(["ls", []])', 'E730:') call assert_fails('call job_setoptions(test_null_job(), {})', 'E916:') %bw! endfunc func Test_job_stop_immediately() " With valgrind this causes spurious leak reports CheckNotValgrind let g:job = job_start([s:python, '-c', 'import time;time.sleep(10)']) try eval g:job->job_stop() call WaitForAssert({-> assert_equal('dead', job_status(g:job))}) finally call job_stop(g:job, 'kill') unlet g:job endtry endfunc func Test_null_job_eval() call assert_fails('eval test_null_job()->eval()', 'E121:') endfunc " This was leaking memory. func Test_partial_in_channel_cycle() let d = {} let d.a = function('string', [d]) try let d.b = ch_open('nowhere:123', {'close_cb': d.a}) call test_garbagecollect_now() catch call assert_exception('E901:') endtry unlet d endfunc func Test_using_freed_memory() let g:a = job_start(['ls']) sleep 10m call test_garbagecollect_now() endfunc func Test_collapse_buffers() let g:test_is_flaky = 1 CheckExecutable cat sp test_channel.vim let g:linecount = line('$') close split testout 1,$delete call job_start('cat test_channel.vim', {'out_io': 'buffer', 'out_name': 'testout'}) call WaitForAssert({-> assert_inrange(g:linecount, g:linecount + 1, line('$'))}) bwipe! endfunc func Test_write_to_deleted_buffer() CheckExecutable echo CheckFeature quickfix let job = job_start('echo hello', {'out_io': 'buffer', 'out_name': 'test_buffer', 'out_msg': 0}) let bufnr = bufnr('test_buffer') call WaitForAssert({-> assert_equal(['hello'], getbufline(bufnr, 1, '$'))}) call assert_equal('nofile', getbufvar(bufnr, '&buftype')) call assert_equal('hide', getbufvar(bufnr, '&bufhidden')) bdel test_buffer call assert_equal([], getbufline(bufnr, 1, '$')) let job = job_start('echo hello', {'out_io': 'buffer', 'out_name': 'test_buffer', 'out_msg': 0}) call WaitForAssert({-> assert_equal(['hello'], getbufline(bufnr, 1, '$'))}) call assert_equal('nofile', getbufvar(bufnr, '&buftype')) call assert_equal('hide', getbufvar(bufnr, '&bufhidden')) bwipe! test_buffer endfunc func Test_cmd_parsing() CheckUnix call assert_false(filereadable("file with space")) let job = job_start('touch "file with space"') call WaitForAssert({-> assert_true(filereadable("file with space"))}) call delete("file with space") let job = job_start('touch file\ with\ space') call WaitForAssert({-> assert_true(filereadable("file with space"))}) call delete("file with space") endfunc func Test_raw_passes_nul() CheckExecutable cat " Test lines from the job containing NUL are stored correctly in a buffer. new call setline(1, ["asdf\nasdf", "xxx\n", "\nyyy"]) w! Xtestread bwipe! split testout 1,$delete call job_start('cat Xtestread', {'out_io': 'buffer', 'out_name': 'testout'}) call WaitFor('line("$") > 2') call assert_equal("asdf\nasdf", getline(1)) call assert_equal("xxx\n", getline(2)) call assert_equal("\nyyy", getline(3)) call delete('Xtestread') bwipe! " Test lines from a buffer with NUL bytes are written correctly to the job. new mybuffer call setline(1, ["asdf\nasdf", "xxx\n", "\nyyy"]) let g:Ch_job = job_start('cat', {'in_io': 'buffer', 'in_name': 'mybuffer', 'out_io': 'file', 'out_name': 'Xtestwrite'}) call WaitForAssert({-> assert_equal("dead", job_status(g:Ch_job))}) bwipe! split Xtestwrite call assert_equal("asdf\nasdf", getline(1)) call assert_equal("xxx\n", getline(2)) call assert_equal("\nyyy", getline(3)) call assert_equal(-1, match(s:get_resources(), '\(^\|/\)Xtestwrite$')) call delete('Xtestwrite') bwipe! endfunc func Test_read_nonl_line() let g:linecount = 0 let arg = 'import sys;sys.stdout.write("1\n2\n3")' call job_start([s:python, '-c', arg], {'callback': {-> execute('let g:linecount += 1')}}) call WaitForAssert({-> assert_equal(3, g:linecount)}) unlet g:linecount endfunc func Test_read_nonl_in_close_cb() func s:close_cb(ch) while ch_status(a:ch) == 'buffered' let g:out .= ch_read(a:ch) endwhile endfunc let g:out = '' let arg = 'import sys;sys.stdout.write("1\n2\n3")' call job_start([s:python, '-c', arg], {'close_cb': function('s:close_cb')}) call test_garbagecollect_now() call WaitForAssert({-> assert_equal('123', g:out)}) unlet g:out delfunc s:close_cb endfunc func Test_read_from_terminated_job() let g:linecount = 0 let arg = 'import os,sys;os.close(1);sys.stderr.write("test\n")' call job_start([s:python, '-c', arg], {'callback': {-> execute('let g:linecount += 1')}}) call WaitForAssert({-> assert_equal(1, g:linecount)}) call test_garbagecollect_now() unlet g:linecount endfunc func Test_job_start_windows() CheckMSWindows " Check that backslash in $COMSPEC is handled properly. let g:echostr = '' let cmd = $COMSPEC . ' /c echo 123' let job = job_start(cmd, {'callback': {ch,msg -> execute(":let g:echostr .= msg")}}) let info = job_info(job) call assert_equal([$COMSPEC, '/c', 'echo', '123'], info.cmd) call WaitForAssert({-> assert_equal("123", g:echostr)}) unlet g:echostr endfunc func Test_env() let g:envstr = '' if has('win32') let cmd = ['cmd', '/c', 'echo %FOO%'] else let cmd = [&shell, &shellcmdflag, 'echo $FOO'] endif call assert_fails('call job_start(cmd, {"env": 1})', 'E475:') let job = job_start(cmd, {'callback': {ch,msg -> execute(":let g:envstr .= msg")}, 'env': {'FOO': 'bar'}}) if WaitForAssert({-> assert_equal("bar", g:envstr)}, 500) != 0 call add(v:errors, "Job status: " .. string(job->job_info())) endif unlet g:envstr endfunc func Test_cwd() let g:test_is_flaky = 1 let g:envstr = '' if has('win32') let expect = $TEMP let cmd = ['cmd', '/c', 'echo %CD%'] else let expect = $HOME let cmd = ['pwd'] endif let job = job_start(cmd, {'callback': {ch,msg -> execute(":let g:envstr .= msg")}, 'cwd': expect}) try call WaitForAssert({-> assert_notequal("", g:envstr)}) " There may be a trailing slash or not, ignore it let expect = substitute(expect, '[/\\]$', '', '') let g:envstr = substitute(g:envstr, '[/\\]$', '', '') " on CI there can be /private prefix or not, ignore it if $CI != '' && stridx(expect, '/private/') == 0 let expect = expect[8:] endif if $CI != '' && stridx(g:envstr, '/private/') == 0 let g:envstr = g:envstr[8:] endif call assert_equal(expect, g:envstr) finally call job_stop(job) unlet g:envstr endtry endfunc function Ch_test_close_lambda(port) let handle = ch_open(s:address(a:port), s:chopt) if ch_status(handle) == "fail" call assert_report("Can't open channel") return endif let g:Ch_close_ret = '' call ch_setoptions(handle, {'close_cb': {ch -> execute("let g:Ch_close_ret = 'closed'")}}) call test_garbagecollect_now() call assert_equal('', ch_evalexpr(handle, 'close me')) call WaitForAssert({-> assert_equal('closed', g:Ch_close_ret)}) endfunc func Test_close_lambda() call s:run_server('Ch_test_close_lambda') endfunc func Test_close_lambda_ipv6() CheckIPv6 call Test_close_lambda() endfunc func Test_close_lambda_unix() CheckUnix call Test_close_lambda() call delete('Xtestsocket') endfunc func s:test_list_args(cmd, out, remove_lf) try let g:out = '' let job = job_start([s:python, '-c', a:cmd], {'callback': {ch, msg -> execute('let g:out .= msg')}, 'out_mode': 'raw'}) try call WaitFor('"" != g:out') catch call add(v:errors, "Job status: " .. string(job->job_info())) throw v:exception endtry if has('win32') let g:out = substitute(g:out, '\r', '', 'g') endif if a:remove_lf let g:out = substitute(g:out, '\n$', '', 'g') endif call assert_equal(a:out, g:out) finally call job_stop(job) unlet g:out endtry endfunc func Test_list_args() call s:test_list_args('import sys;sys.stdout.write("hello world")', "hello world", 0) call s:test_list_args('import sys;sys.stdout.write("hello\nworld")', "hello\nworld", 0) call s:test_list_args('import sys;sys.stdout.write(''hello\nworld'')', "hello\nworld", 0) call s:test_list_args('import sys;sys.stdout.write(''hello"world'')', "hello\"world", 0) call s:test_list_args('import sys;sys.stdout.write(''hello^world'')', "hello^world", 0) call s:test_list_args('import sys;sys.stdout.write("hello&&world")', "hello&&world", 0) call s:test_list_args('import sys;sys.stdout.write(''hello\\world'')', "hello\\world", 0) call s:test_list_args('import sys;sys.stdout.write(''hello\\\\world'')', "hello\\\\world", 0) call s:test_list_args('import sys;sys.stdout.write("hello\"world\"")', 'hello"world"', 0) call s:test_list_args('import sys;sys.stdout.write("h\"ello worl\"d")', 'h"ello worl"d', 0) call s:test_list_args('import sys;sys.stdout.write("h\"e\\\"llo wor\\\"l\"d")', 'h"e\"llo wor\"l"d', 0) call s:test_list_args('import sys;sys.stdout.write("h\"e\\\"llo world")', 'h"e\"llo world', 0) call s:test_list_args('import sys;sys.stdout.write("hello\tworld")', "hello\tworld", 0) " tests which not contain spaces in the argument call s:test_list_args('print("hello\nworld")', "hello\nworld", 1) call s:test_list_args('print(''hello\nworld'')', "hello\nworld", 1) call s:test_list_args('print(''hello"world'')', "hello\"world", 1) call s:test_list_args('print(''hello^world'')', "hello^world", 1) call s:test_list_args('print("hello&&world")', "hello&&world", 1) call s:test_list_args('print(''hello\\world'')', "hello\\world", 1) call s:test_list_args('print(''hello\\\\world'')', "hello\\\\world", 1) call s:test_list_args('print("hello\"world\"")', 'hello"world"', 1) call s:test_list_args('print("hello\tworld")', "hello\tworld", 1) endfunc func Test_keep_pty_open() CheckUnix let job = job_start(s:python . ' -c "import time;time.sleep(0.2)"', \ {'out_io': 'null', 'err_io': 'null', 'pty': 1}) let elapsed = WaitFor({-> job_status(job) ==# 'dead'}) call assert_inrange(200, 1000, elapsed) call job_stop(job) endfunc func Test_job_start_in_timer() CheckFeature timers CheckFunction reltimefloat func OutCb(chan, msg) let g:val += 1 endfunc func ExitCb(job, status) let g:val += 1 call Resume() endfunc func TimerCb(timer) if has('win32') let cmd = ['cmd', '/c', 'echo.'] else let cmd = ['echo'] endif let g:job = job_start(cmd, {'out_cb': 'OutCb', 'exit_cb': 'ExitCb'}) call substitute(repeat('a', 100000), '.', '', 'g') endfunc " We should be interrupted before 'updatetime' elapsed. let g:val = 0 call timer_start(1, 'TimerCb') let elapsed = Standby(&ut) call assert_inrange(1, &ut / 2, elapsed) " Wait for both OutCb() and ExitCb() to have been called before deleting " them. call WaitForAssert({-> assert_equal(2, g:val)}) call job_stop(g:job) delfunc OutCb delfunc ExitCb delfunc TimerCb unlet! g:val unlet! g:job endfunc func Test_raw_large_data() try let g:out = '' let job = job_start(s:python . " test_channel_pipe.py", \ {'mode': 'raw', 'drop': 'never', 'noblock': 1, \ 'callback': {ch, msg -> execute('let g:out .= msg')}}) let outlen = 79999 let want = repeat('X', outlen) . "\n" eval job->ch_sendraw(want) call WaitFor({-> len(g:out) >= outlen}, 10000) call WaitForAssert({-> assert_equal("dead", job_status(job))}) call assert_equal(want, substitute(g:out, '\r', '', 'g')) finally call job_stop(job) unlet g:out endtry endfunc func Test_no_hang_windows() CheckMSWindows try let job = job_start(s:python . " test_channel_pipe.py busy", \ {'mode': 'raw', 'drop': 'never', 'noblock': 0}) call assert_fails('call ch_sendraw(job, repeat("X", 80000))', 'E631:') finally call job_stop(job) endtry endfunc func Test_job_exitval_and_termsig() CheckUnix " Terminate job normally let cmd = ['echo'] let job = job_start(cmd) call WaitForAssert({-> assert_equal("dead", job_status(job))}) let info = job_info(job) call assert_equal(0, info.exitval) call assert_equal("", info.termsig) " Terminate job by signal let cmd = ['sleep', '10'] let job = job_start(cmd) " 10m usually works but 50m is needed when running Valgrind sleep 50m call job_stop(job) call WaitForAssert({-> assert_equal("dead", job_status(job))}) let info = job_info(job) call assert_equal(-1, info.exitval) call assert_equal("term", info.termsig) endfunc func Test_job_tty_in_out() CheckUnix call writefile(['test'], 'Xtestin', 'D') let in_opts = [{}, \ {'in_io': 'null'}, \ {'in_io': 'file', 'in_name': 'Xtestin'}] let out_opts = [{}, \ {'out_io': 'null'}, \ {'out_io': 'file', 'out_name': 'Xtestout'}] let err_opts = [{}, \ {'err_io': 'null'}, \ {'err_io': 'file', 'err_name': 'Xtesterr'}, \ {'err_io': 'out'}] let opts = [] for in_opt in in_opts let x = copy(in_opt) for out_opt in out_opts let x = extend(copy(x), out_opt) for err_opt in err_opts let x = extend(copy(x), err_opt) let opts += [extend({'pty': 1}, x)] endfor endfor endfor for opt in opts let job = job_start('echo', opt) let info = job_info(job) let msg = printf('option={"in_io": "%s", "out_io": "%s", "err_io": "%s"}', \ get(opt, 'in_io', 'tty'), \ get(opt, 'out_io', 'tty'), \ get(opt, 'err_io', 'tty')) if !has_key(opt, 'in_io') || !has_key(opt, 'out_io') || !has_key(opt, 'err_io') call assert_notequal('', info.tty_in, msg) else call assert_equal('', info.tty_in, msg) endif call assert_equal(info.tty_in, info.tty_out, msg) call WaitForAssert({-> assert_equal('dead', job_status(job))}) endfor call delete('Xtestout') call delete('Xtesterr') endfunc " Do this last, it stops any channel log. func Test_zz_nl_err_to_out_pipe() eval 'Xlog'->ch_logfile() call ch_log('Test_zz_nl_err_to_out_pipe()') let job = job_start(s:python . " test_channel_pipe.py", {'err_io': 'out'}) call assert_equal("run", job_status(job)) try let handle = job_getchannel(job) call ch_sendraw(handle, "echo something\n") call assert_equal("something", ch_readraw(handle)) call ch_sendraw(handle, "echoerr wrong\n") call assert_equal("wrong", ch_readraw(handle)) finally call job_stop(job) call ch_logfile('') let loglines = readfile('Xlog') call assert_true(len(loglines) > 10) let found_test = 0 let found_send = 0 let found_recv = 0 let found_stop = 0 for l in loglines if l =~ 'Test_zz_nl_err_to_out_pipe' let found_test = 1 endif if l =~ 'SEND on.*echo something' let found_send = 1 endif if l =~ 'RECV on.*something' let found_recv = 1 endif if l =~ 'Stopping job with' let found_stop = 1 endif endfor call assert_equal(1, found_test) call assert_equal(1, found_send) call assert_equal(1, found_recv) call assert_equal(1, found_stop) " On MS-Windows need to sleep for a moment to be able to delete the file. sleep 10m call delete('Xlog') endtry endfunc " Do this last, it stops any channel log. func Test_zz_ch_log() call ch_logfile('Xlog', 'w') call ch_log('hello there') call ch_log('%s%s') call ch_logfile('') let text = readfile('Xlog') call assert_match("start log session", text[0]) call assert_match("ch_log(): hello there", text[1]) call assert_match("%s%s", text[2]) call mkdir("Xchlogdir1", 'D') call assert_fails("call ch_logfile('Xchlogdir1')", 'E484:') call delete('Xlog') endfunc func Test_issue_5150() if has('win32') let cmd = 'cmd /c pause' else let cmd = 'grep foo' endif let g:job = job_start(cmd, {}) sleep 50m " give the job time to start call job_stop(g:job) call WaitForAssert({-> assert_equal(-1, job_info(g:job).exitval)}) let g:job = job_start(cmd, {}) sleep 50m call job_stop(g:job, 'term') call WaitForAssert({-> assert_equal(-1, job_info(g:job).exitval)}) let g:job = job_start(cmd, {}) sleep 50m call job_stop(g:job, 'kill') call WaitForAssert({-> assert_equal(-1, job_info(g:job).exitval)}) endfunc func Test_issue_5485() let $VAR1 = 'global' let g:Ch_reply = "" let l:job = job_start([&shell, &shellcmdflag, has('win32') ? 'echo %VAR1% %VAR2%' : 'echo $VAR1 $VAR2'], {'env': {'VAR1': 'local', 'VAR2': 'local'}, 'callback': 'Ch_handler'}) let g:Ch_job = l:job call WaitForAssert({-> assert_equal("local local", trim(g:Ch_reply))}) unlet $VAR1 endfunc func Test_job_trailing_space_unix() CheckUnix CheckExecutable cat let job = job_start("cat ", #{in_io: 'null'}) call WaitForAssert({-> assert_equal("dead", job_status(job))}) call assert_equal(0, job_info(job).exitval) call delete('Xtestsocket') endfunc func Test_ch_getbufnr() let ch = test_null_channel() call assert_equal(-1, ch_getbufnr(ch, 'in')) call assert_equal(-1, ch_getbufnr(ch, 'out')) call assert_equal(-1, ch_getbufnr(ch, 'err')) call assert_equal(-1, ch_getbufnr(ch, '')) endfunc " Test for unsupported options passed to ch_status() func Test_invalid_job_chan_options() let ch = test_null_channel() let invalid_opts = [ \ {'in_io' : 'null'}, \ {'out_io' : 'null'}, \ {'err_io' : 'null'}, \ {'mode' : 'json'}, \ {'out_mode' : 'json'}, \ {'err_mode' : 'json'}, \ {'noblock' : 1}, \ {'in_name' : '/a/b'}, \ {'pty' : 1}, \ {'in_buf' : 1}, \ {'out_buf' : 1}, \ {'err_buf' : 1}, \ {'out_modifiable' : 1}, \ {'err_modifiable' : 1}, \ {'out_msg' : 1}, \ {'err_msg' : 1}, \ {'in_top' : 1}, \ {'in_bot' : 1}, \ {'channel' : ch}, \ {'callback' : ''}, \ {'out_cb' : ''}, \ {'err_cb' : ''}, \ {'close_cb' : ''}, \ {'exit_cb' : ''}, \ {'term_opencmd' : ''}, \ {'eof_chars' : ''}, \ {'term_rows' : 10}, \ {'term_cols' : 10}, \ {'vertical' : 0}, \ {'curwin' : 1}, \ {'bufnr' : 1}, \ {'hidden' : 0}, \ {'norestore' : 0}, \ {'term_kill' : 'kill'}, \ {'tty_type' : ''}, \ {'term_highlight' : ''}, \ {'env' : {}}, \ {'cwd' : ''}, \ {'timeout' : 0}, \ {'out_timeout' : 0}, \ {'err_timeout' : 0}, \ {'id' : 0}, \ {'stoponexit' : ''}, \ {'block_write' : 1} \ ] if has('gui') call add(invalid_opts, {'ansi_colors' : []}) endif for opt in invalid_opts call assert_fails("let x = ch_status(ch, opt)", 'E475:') endfor call assert_equal('fail', ch_status(ch, test_null_dict())) endfunc " Test for passing the command and the arguments as List on MS-Windows func Test_job_with_list_args() CheckMSWindows enew! let bnum = bufnr() let job = job_start(['cmd', '/c', 'echo', 'Hello', 'World'], {'out_io' : 'buffer', 'out_buf' : bnum}) call WaitForAssert({-> assert_equal("dead", job_status(job))}) call assert_equal('Hello World', getline(1)) %bw! endfunc func ExitCb_cb_with_input(job, status) call feedkeys(":\<C-u>echo input('', 'default')\<CR>\<CR>", 'nx') call assert_equal('default', Screenline(&lines)) let g:wait_exit_cb = 0 endfunc func Test_cb_with_input() let g:wait_exit_cb = 1 if has('win32') let cmd = 'cmd /c echo "Vim''s test"' else let cmd = 'echo "Vim''s test"' endif let job = job_start(cmd, {'out_cb': 'ExitCb_cb_with_input'}) call WaitFor({-> job_status(job) == "dead"}) call WaitForAssert({-> assert_equal(0, g:wait_exit_cb)}) unlet g:wait_exit_cb endfunc function s:HandleBufEnter() abort let queue = [] let job = job_start(['date'], {'callback': { j, d -> add(queue, d) }}) while empty(queue) sleep! 10m endwhile endfunction func Test_parse_messages_in_autocmd() CheckUnix " Check that in the BufEnter autocommand events are being handled augroup bufenterjob autocmd! autocmd BufEnter Xbufenterjob call s:HandleBufEnter() augroup END only split Xbufenterjob wincmd p redraw close augroup bufenterjob autocmd! augroup END endfunc func Test_job_start_with_invalid_argument() call assert_fails('call job_start([0zff])', 'E976:') endfunc " Process requests received from the LSP server func LspProcessServerRequests(chan, msg) if a:msg['method'] == 'server-req-in-middle' \ && a:msg['params']['text'] == 'server-req' call ch_sendexpr(a:chan, #{method: 'server-req-in-middle-resp', \ id: a:msg['id'], params: #{text: 'client-resp'}}) endif endfunc " LSP channel message callback function func LspCb(chan, msg) call add(g:lspNotif, a:msg) if a:msg->has_key('method') call LspProcessServerRequests(a:chan, a:msg) endif endfunc " LSP one-time message callback function (used for ch_sendexpr()) func LspOtCb(chan, msg) call add(g:lspOtMsgs, a:msg) if a:msg->has_key('method') call LspProcessServerRequests(a:chan, a:msg) endif endfunc " Test for the 'lsp' channel mode func LspTests(port) " call ch_logfile('Xlspclient.log', 'w') let ch = ch_open(s:localhost .. a:port, #{mode: 'lsp', callback: 'LspCb'}) if ch_status(ch) == "fail" call assert_report("Can't open the lsp channel") return endif " check for channel information let info = ch_info(ch) call assert_equal('LSP', info.sock_mode) " Evaluate an expression let resp = ch_evalexpr(ch, #{method: 'simple-rpc', params: [10, 20]}) call assert_false(empty(resp)) call assert_equal(#{id: 1, jsonrpc: '2.0', result: 'simple-rpc'}, resp) " Evaluate an expression. While waiting for the response, a notification " message is delivered. let g:lspNotif = [] let resp = ch_evalexpr(ch, #{method: 'rpc-with-notif', params: {'v': 10}}) call assert_false(empty(resp)) call assert_equal(#{id: 2, jsonrpc: '2.0', result: 'rpc-with-notif-resp'}, \ resp) call assert_equal([#{jsonrpc: '2.0', result: 'rpc-with-notif-notif'}], \ g:lspNotif) " Wrong payload notification test let g:lspNotif = [] let r = ch_sendexpr(ch, #{method: 'wrong-payload', params: {}}) call assert_equal({}, r) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{jsonrpc: '2.0', result: 'wrong-payload'}], g:lspNotif) " Test for receiving a response with incorrect 'id' and additional " notification messages while evaluating an expression. let g:lspNotif = [] let resp = ch_evalexpr(ch, #{method: 'rpc-resp-incorrect-id', \ params: {'a': [1, 2]}}) call assert_false(empty(resp)) call assert_equal(#{id: 4, jsonrpc: '2.0', \ result: 'rpc-resp-incorrect-id-4'}, resp) call assert_equal([#{jsonrpc: '2.0', result: 'rpc-resp-incorrect-id-1'}, \ #{jsonrpc: '2.0', result: 'rpc-resp-incorrect-id-2'}, \ #{jsonrpc: '2.0', id: 1, result: 'rpc-resp-incorrect-id-3'}], \ g:lspNotif) " simple notification test let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'simple-notif', params: [#{a: 10, b: []}]}) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{jsonrpc: '2.0', result: 'simple-notif'}], g:lspNotif) " multiple notifications test let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'multi-notif', params: [#{a: {}, b: {}}]}) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{jsonrpc: '2.0', result: 'multi-notif1'}, \ #{jsonrpc: '2.0', result: 'multi-notif2'}], g:lspNotif) " Test for sending a message with an identifier. let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'msg-with-id', id: 93, params: #{s: 'str'}}) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{jsonrpc: '2.0', id: 93, result: 'msg-with-id'}], \ g:lspNotif) " Test for setting the 'id' value in a request message let resp = ch_evalexpr(ch, #{method: 'ping', id: 1, params: {}}) call assert_equal(#{id: 8, jsonrpc: '2.0', result: 'alive'}, resp) " Test for using a one time callback function to process a response let g:lspOtMsgs = [] let r = ch_sendexpr(ch, #{method: 'msg-specific-cb', params: {}}, \ #{callback: 'LspOtCb'}) call assert_equal(9, r.id) call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{id: 9, jsonrpc: '2.0', result: 'msg-specific-cb'}], \ g:lspOtMsgs) " Test for generating a request message from the other end (server) let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'server-req', params: #{}}) call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([{'id': 201, 'jsonrpc': '2.0', \ 'result': {'method': 'checkhealth', 'params': {'a': 20}}}], \ g:lspNotif) " Test for sending a message without an id let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'echo', params: #{s: 'msg-without-id'}}) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{jsonrpc: '2.0', result: \ #{method: 'echo', jsonrpc: '2.0', params: #{s: 'msg-without-id'}}}], \ g:lspNotif) " Test for sending a notification message with an id let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'echo', id: 110, params: #{s: 'msg-with-id'}}) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([#{jsonrpc: '2.0', result: \ #{method: 'echo', jsonrpc: '2.0', id: 110, \ params: #{s: 'msg-with-id'}}}], g:lspNotif) " Test for processing the extra fields in the HTTP header let resp = ch_evalexpr(ch, #{method: 'extra-hdr-fields', params: {}}) call assert_equal({'id': 14, 'jsonrpc': '2.0', 'result': 'extra-hdr-fields'}, \ resp) " Test for processing delayed payload let resp = ch_evalexpr(ch, #{method: 'delayed-payload', params: {}}) call assert_equal({'id': 15, 'jsonrpc': '2.0', 'result': 'delayed-payload'}, \ resp) " Test for processing a HTTP header without the Content-Length field let resp = ch_evalexpr(ch, #{method: 'hdr-without-len', params: {}}, \ #{timeout: 200}) call assert_equal({}, resp) " send a ping to make sure communication still works call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) " Test for processing a HTTP header with wrong length let resp = ch_evalexpr(ch, #{method: 'hdr-with-wrong-len', params: {}}, \ #{timeout: 200}) call assert_equal({}, resp) " send a ping to make sure communication still works call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) " Test for processing a HTTP header with negative length let resp = ch_evalexpr(ch, #{method: 'hdr-with-negative-len', params: {}}, \ #{timeout: 200}) call assert_equal({}, resp) " send a ping to make sure communication still works call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) " Test for an empty header let resp = ch_evalexpr(ch, #{method: 'empty-header', params: {}}, \ #{timeout: 200}) call assert_equal({}, resp) " send a ping to make sure communication still works call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) " Test for an empty payload let resp = ch_evalexpr(ch, #{method: 'empty-payload', params: {}}, \ #{timeout: 200}) call assert_equal({}, resp) " send a ping to make sure communication still works call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) " Test for a large payload let content = repeat('abcdef', 11000) let resp = ch_evalexpr(ch, #{method: 'large-payload', \ params: #{text: content}}) call assert_equal(#{jsonrpc: '2.0', id: 26, result: \ #{method: 'large-payload', jsonrpc: '2.0', id: 26, \ params: #{text: content}}}, resp) " send a ping to make sure communication still works call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) " Test for processing a request message from the server while the client " is waiting for a response with the same identifier (sync-rpc) let g:lspNotif = [] let resp = ch_evalexpr(ch, #{method: 'server-req-in-middle', \ params: #{text: 'client-req'}}) call assert_equal(#{jsonrpc: '2.0', id: 28, \ result: #{text: 'server-resp'}}, resp) call assert_equal([ \ #{id: -1, jsonrpc: '2.0', method: 'server-req-in-middle', \ params: #{text: 'server-notif'}}, \ #{id: 28, jsonrpc: '2.0', method: 'server-req-in-middle', \ params: #{text: 'server-req'}}], g:lspNotif) " Test for processing a request message from the server while the client " is waiting for a response with the same identifier (async-rpc using the " channel callback function) let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'server-req-in-middle', id: 500, \ params: #{text: 'client-req'}}) " Send three pings to wait for all the notification messages to arrive for i in range(3) call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) endfor call assert_equal([ \ #{id: -1, jsonrpc: '2.0', method: 'server-req-in-middle', \ params: #{text: 'server-notif'}}, \ #{id: 500, jsonrpc: '2.0', method: 'server-req-in-middle', \ params: #{text: 'server-req'}}, \ #{id: 500, jsonrpc: '2.0', result: #{text: 'server-resp'}} \ ], g:lspNotif) " Test for processing a request message from the server while the client " is waiting for a response with the same identifier (async-rpc using a " one-time callback function) let g:lspNotif = [] let g:lspOtMsgs = [] call ch_sendexpr(ch, #{method: 'server-req-in-middle', \ params: #{text: 'client-req'}}, #{callback: 'LspOtCb'}) " Send a ping to wait for all the notification messages to arrive for i in range(3) call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) endfor call assert_equal([ \ #{id: 32, jsonrpc: '2.0', result: #{text: 'server-resp'}}], \ g:lspOtMsgs) call assert_equal([ \ #{id: -1, jsonrpc: '2.0', method: 'server-req-in-middle', \ params: #{text: 'server-notif'}}, \ #{id: 32, jsonrpc: '2.0', method: 'server-req-in-middle', \ params: {'text': 'server-req'}}], g:lspNotif) " Test for invoking an unsupported method let resp = ch_evalexpr(ch, #{method: 'xyz', params: {}}, #{timeout: 200}) call assert_equal({}, resp) " Test for sending a message without a callback function. Notification " message should be dropped but RPC response should not be dropped. call ch_setoptions(ch, #{callback: ''}) let g:lspNotif = [] call ch_sendexpr(ch, #{method: 'echo', params: #{s: 'no-callback'}}) " Send a ping to wait for all the notification messages to arrive call assert_equal('alive', ch_evalexpr(ch, #{method: 'ping'}).result) call assert_equal([], g:lspNotif) " Restore the callback function call ch_setoptions(ch, #{callback: 'LspCb'}) " " Test for sending a raw message " let g:lspNotif = [] " let s = "Content-Length: 62\r\n" " let s ..= "Content-Type: application/vscode-jsonrpc; charset=utf-8\r\n" " let s ..= "\r\n" " let s ..= '{"method":"echo","jsonrpc":"2.0","params":{"m":"raw-message"}}' " call ch_sendraw(ch, s) " call ch_evalexpr(ch, #{method: 'ping'}) " call assert_equal([{'jsonrpc': '2.0', " \ 'result': {'method': 'echo', 'jsonrpc': '2.0', " \ 'params': {'m': 'raw-message'}}}], g:lspNotif) " Invalid arguments to ch_evalexpr() and ch_sendexpr() call assert_fails('call ch_sendexpr(ch, #{method: "cookie", id: "cookie"})', \ 'E475:') call assert_fails('call ch_evalexpr(ch, #{method: "ping", id: [{}]})', 'E475:') call assert_fails('call ch_evalexpr(ch, [1, 2, 3])', 'E1206:') call assert_fails('call ch_sendexpr(ch, "abc")', 'E1206:') call assert_fails('call ch_evalexpr(ch, #{method: "ping"}, #{callback: "LspOtCb"})', 'E917:') " call ch_logfile('', 'w') endfunc func Test_channel_lsp_mode() call RunServer('test_channel_lsp.py', 'LspTests', []) endfunc " vim: shiftwidth=2 sts=2 expandtab