summaryrefslogtreecommitdiff
path: root/runtime/doc/channel.txt
blob: c28b90ed2cf9c2345ce8a803b301aec442a6f78e (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
*channel.txt*      For Vim version 7.4.  Last change: 2016 May 29


		  VIM REFERENCE MANUAL	  by Bram Moolenaar


		      Inter-process communication		*channel*

DRAFT  DRAFT  DRAFT  DRAFT  DRAFT  DRAFT  DRAFT  DRAFT  DRAFT  DRAFT

Vim uses channels to communicate with other processes.
A channel uses a socket or pipes			*socket-interface*
Jobs can be used to start processes and communicate with them.

Vim current supports up to 10 simultaneous channels.
The Netbeans interface also uses a channel. |netbeans|

1. Overview				|job-channel-overview|
2. Channel demo				|channel-demo|
3. Opening a channel			|channel-open|
4. Using a JSON or JS channel		|channel-use|
5. Channel commands			|channel-commands|
6. Using a RAW or NL channel		|channel-raw|
7. More channel functions		|channel-more|
8. Starting a job with a channel	|job-start|
9. Starting a job without a channel	|job-start-nochannel|
10. Job options				|job-options|
11. Controlling a job			|job-control|

{Vi does not have any of these features}
{only when compiled with the |+channel| feature for channel stuff}
{only when compiled with the |+job| feature for job stuff}

==============================================================================
1. Overview						*job-channel-overview*

There are four main types of jobs:
1. A deamon, serving several Vim instances.
   Vim connects to it with a socket.
2. One job working with one Vim instance, asynchronously.
   Uses a socket or pipes.
3. A job performing some work for a short time, asynchronously.
   Uses a socket or pipes.
4. Running a filter, synchronously.
   Uses pipes.

For when using sockets See |job-start|, |job-start-nochannel| and
|channel-open|.  For 2 and 3, one or more jobs using pipes, see |job-start|.
For 4 use the ":{range}!cmd" command, see |filter|.

Over the socket and pipes these protocols are available:
RAW	nothing known, Vim cannot tell where a message ends
NL	every message ends in a NL (newline) character
JSON	JSON encoding |json_encode()|
JS	JavaScript style JSON-like encoding |js_encode()|

Common combination are:
- Using a job connected through pipes in NL mode.  E.g., to run a style
  checker and receive errors and warnings.
- Using a deamon, connecting over a socket in JSON mode.  E.g. to lookup
  crosss-refrences in a database.

==============================================================================
2. Channel demo				*channel-demo* *demoserver.py*

This requires Python.  The demo program can be found in
$VIMRUNTIME/tools/demoserver.py
Run it in one terminal.  We will call this T1.

Run Vim in another terminal.  Connect to the demo server with: >
	let channel = ch_open('localhost:8765')

In T1 you should see:
	=== socket opened === ~

You can now send a message to the server: >
	echo ch_evalexpr(channel, 'hello!')

The message is received in T1 and a response is sent back to Vim.
You can see the raw messages in T1.  What Vim sends is:
	[1,"hello!"] ~
And the response is:
	[1,"got it"] ~
The number will increase every time you send a message.

The server can send a command to Vim.  Type this on T1 (literally, including
the quotes):
	["ex","echo 'hi there'"] ~
And you should see the message in Vim. You can move the cursor a word forward:
	["normal","w"] ~

To handle asynchronous communication a callback needs to be used: >
	func MyHandler(channel, msg)
	  echo "from the handler: " . a:msg
	endfunc
	call ch_sendexpr(channel, 'hello!', {'callback': "MyHandler"})
Vim will not wait for a response.  Now the server can send the response later
and MyHandler will be invoked.

Instead of giving a callback with every send call, it can also be specified
when opening the channel: >
	call ch_close(channel)
	let channel = ch_open('localhost:8765', {'callback': "MyHandler"})
	call ch_sendexpr(channel, 'hello!')

When trying out channels it's useful to see what is going on.  You can tell
Vim to write lines in log file: >
	call ch_logfile('channellog', 'w')
See |ch_logfile()|.

==============================================================================
3. Opening a channel					*channel-open*

To open a channel: >
    let channel = ch_open({address} [, {options}])
    if ch_status(channel) == "open"
      " use the channel

Use |ch_status()| to see if the channel could be opened.

{address} has the form "hostname:port".  E.g., "localhost:8765".

{options} is a dictionary with optional entries:	*channel-open-options*

"mode" can be:						*channel-mode*
	"json" - Use JSON, see below; most convenient way. Default.
	"js"   - Use JS (JavaScript) encoding, more efficient than JSON.
	"nl"   - Use messages that end in a NL character
	"raw"  - Use raw messages
						*channel-callback* *E921*
"callback"	A function that is called when a message is received that is
		not handled otherwise.  It gets two arguments: the channel
		and the received message. Example: >
	func Handle(channel, msg)
	  echo 'Received: ' . a:msg
	endfunc
	let channel = ch_open("localhost:8765", {"callback": "Handle"})
<
		When "mode" is "json" or "js" the "msg" argument is the body
		of the received message, converted to Vim types.
		When "mode" is "nl" the "msg" argument is one message,
		excluding the NL.
		When "mode" is "raw" the "msg" argument is the whole message
		as a string.

		For all callbacks: Use |function()| to bind it to arguments
		and/or a Dictionary.  Or use the form "dict.function" to bind
		the Dictionary.

		Callbacks are only called at a "safe" moment, usually when Vim
		is waiting for the user to type a character.  Vim does not use
		multi-threading.

							*close_cb*
"close_cb"	A function that is called when the channel gets closed, other
		than by calling ch_close().  It should be defined like this: >
	func MyCloseHandler(channel)
<		Vim will invoke callbacks that handle data before invoking
		close_cb, thus when this function is called no more data will
		be received.
							*waittime*
"waittime"	The time to wait for the connection to be made in
		milliseconds.  A negative number waits forever.

		The default is zero, don't wait, which is useful if a local
		server is supposed to be running already.  On Unix Vim
		actually uses a 1 msec timeout, that is required on many
		systems.  Use a larger value for a remote server, e.g.  10
		msec at least.
							*channel-timeout*
"timeout"	The time to wait for a request when blocking, E.g. when using
		ch_evalexpr().  In milliseconds.  The default is 2000 (2
		seconds).

When "mode" is "json" or "js" the "callback" is optional.  When omitted it is
only possible to receive a message after sending one.

To change the channel options after opening it use |ch_setoptions()|.  The
arguments are similar to what is passed to |ch_open()|, but "waittime" cannot
be given, since that only applies to opening the channel.

For example, the handler can be added or changed: >
    call ch_setoptions(channel, {'callback': callback})
When "callback" is empty (zero or an empty string) the handler is removed.

After a callback has been invoked Vim will update the screen and put the
cursor back where it belongs.  Thus the callback should not need to do
`:redraw`.

The timeout can be changed: >
    call ch_setoptions(channel, {'timeout': msec})
<
							  *channel-close* *E906*
Once done with the channel, disconnect it like this: >
    call ch_close(channel)
When a socket is used this will close the socket for both directions.  When
pipes are used (stdin/stdout/stderr) they are all closed.  This might not be
what you want!  Stopping the job with job_stop() might be better.
All readahead is discarded, callbacks will no longer be invoked.

Note that a channel is closed in three stages:
  - The I/O ends, log message: "Closing channel". There can still be queued
    messages to read or callbacks to invoke.
  - The readahead is cleared, log message: "Clearing channel".  Some variables
    may still reference the channel.
  - The channel is freed, log message: "Freeing channel".

When the channel can't be opened you will get an error message.  There is a
difference between MS-Windows and Unix: On Unix when the port doesn't exist
ch_open() fails quickly.  On MS-Windows "waittime" applies.
*E898* *E901* *E902*

If there is an error reading or writing a channel it will be closed.
*E630* *E631* 

==============================================================================
4. Using a JSON or JS channel					*channel-use*

If mode is JSON then a message can be sent synchronously like this: >
    let response = ch_evalexpr(channel, {expr})
This awaits a response from the other side.

When mode is JS this works the same, except that the messages use
JavaScript encoding.  See |js_encode()| for the difference.

To send a message, without handling a response or letting the channel callback
handle the response: >
    call ch_sendexpr(channel, {expr})

To send a message and letting the response handled by a specific function,
asynchronously: >
    call ch_sendexpr(channel, {expr}, {'callback': Handler})

Vim will match the response with the request using the message ID.  Once the
response is received the callback will be invoked.  Further responses with the
same ID will be ignored.  If your server sends back multiple responses you
need to send them with ID zero, they will be passed to the channel callback.

The {expr} is converted to JSON and wrapped in an array.  An example of the
message that the receiver will get when {expr} is the string "hello":
	[12,"hello"] ~

The format of the JSON sent is:
    [{number},{expr}]

In which {number} is different every time.  It must be used in the response
(if any):

    [{number},{response}]

This way Vim knows which sent message matches with which received message and
can call the right handler.  Also when the messages arrive out of order.

The sender must always send valid JSON to Vim.  Vim can check for the end of
the message by parsing the JSON.  It will only accept the message if the end
was received.

When the process wants to send a message to Vim without first receiving a
message, it must use the number zero:
    [0,{response}]

Then channel handler will then get {response} converted to Vim types.  If the
channel does not have a handler the message is dropped.

It is also possible to use ch_sendraw() and ch_evalraw() on a JSON or JS
channel.  The caller is then completely responsible for correct encoding and
decoding.

==============================================================================
5. Channel commands					*channel-commands*

With a JSON channel the process can send commands to Vim that will be
handled by Vim internally, it does not require a handler for the channel.

Possible commands are:				*E903* *E904* *E905*
    ["redraw"  {forced}]
    ["ex",     {Ex command}]
    ["normal", {Normal mode command}]
    ["expr",   {expression}, {number}]
    ["expr",   {expression}]
    ["call",   {func name}, {argument list}, {number}]
    ["call",   {func name}, {argument list}]

With all of these: Be careful what these commands do!  You can easily
interfere with what the user is doing.  To avoid trouble use |mode()| to check
that the editor is in the expected state.  E.g., to send keys that must be
inserted as text, not executed as a command:
    ["ex","if mode() == 'i' | call feedkeys('ClassName') | endif"] ~

Errors in these commands are normally not reported to avoid them messing up
the display.  If you do want to see them, set the 'verbose' option to 3 or
higher.


Command "redraw" ~

The other commands do not update the screen, so that you can send a sequence
of commands without the cursor moving around.  You must end with the "redraw"
command to show any changed text and show the cursor where it belongs.

The argument is normally an empty string:
	["redraw", ""] ~
To first clear the screen pass "force":
	["redraw", "force"] ~


Command "ex" ~

The "ex" command is executed as any Ex command.  There is no response for
completion or error.  You could use functions in an |autoload| script:
	["ex","call myscript#MyFunc(arg)"]

You can also use "call |feedkeys()|" to insert any key sequence.

When there is an error a message is written to the channel log, if it exists,
and v:errmsg is set to the error.


Command "normal" ~

The "normal" command is executed like with ":normal!", commands are not
mapped.  Example to open the folds under the cursor:
	["normal" "zO"]


Command "expr"  with response ~

The "expr" command can be used to get the result of an expression.  For
example, to get the number of lines in the current buffer:
	["expr","line('$')", -2] ~

It will send back the result of the expression:
	[-2, "last line"] ~
The format is:
	[{number}, {result}]

Here {number} is the same as what was in the request.  Use a negative number
to avoid confusion with message that Vim sends.  Use a different number on
every request to be able to match the request with the response.

{result} is the result of the evaluation and is JSON encoded.  If the
evaluation fails or the result can't be encoded in JSON it is the string
"ERROR".


Command "expr" without a response ~

This command is similar to "expr" above, but does not send back any response.
Example:
	["expr","setline('$', ['one', 'two', 'three'])"] ~
There is no third argument in the request.


Command "call" ~

This is similar to "expr", but instead of passing the whole expression as a
string this passes the name of a function and a list of arguments.  This
avoids the conversion of the arguments to a string and escaping and
concatenating them.  Example:
	["call", "line", ["$"], -2] ~

Leave out the fourth argument if no response is to be sent:
	["call", "setline", ["$", ["one", "two", "three"]]] ~

==============================================================================
6. Using a RAW or NL channel				*channel-raw*

If mode is RAW or NL then a message can be send like this: >
    let response = ch_evalraw(channel, {string})

The {string} is sent as-is.  The response will be what can be read from the
channel right away.  Since Vim doesn't know how to recognize the end of the
message you need to take care of it yourself.  The timeout applies for reading
the first byte, after that it will not wait for anything more.

If mode is "nl" you can send a message in a similar way.  You are expected
to put in the NL after each message.  Thus you can also send several messages
ending in a NL at once.  The response will be the text up to and including the
first NL.  This can also be just the NL for an empty response.
If no NL was read before the channel timeout an empty string is returned.

To send a message, without expecting a response: >
    call ch_sendraw(channel, {string})
The process can send back a response, the channel handler will be called with
it.

To send a message and letting the response handled by a specific function,
asynchronously: >
    call ch_sendraw(channel, {string}, {'callback': 'MyHandler'})

This {string} can also be JSON, use |json_encode()| to create it and
|json_decode()| to handle a received JSON message.

It is not possible to use |ch_evalexpr()| or |ch_sendexpr()| on a raw channel.

==============================================================================
7. More channel functions				*channel-more*

To obtain the status of a channel: ch_status(channel).  The possible results
are:
	"fail"		Failed to open the channel.
	"open"		The channel can be used.
	"buffered"	The channel was closed but there is data to read.
	"closed"	The channel was closed.

To obtain the job associated with a channel: ch_getjob(channel)

To read one message from a channel: >
	let output = ch_read(channel)
This uses the channel timeout.  To read without a timeout, just get any
message that is available: >
	let output = ch_read(channel, {'timeout': 0})
When no message was available then the result is v:none for a JSON or JS mode
channels, an empty string for a RAW or NL channel.

To read all output from a RAW channel that is available: >
	let output = ch_readraw(channel)
To read the error output: >
	let output = ch_readraw(channel, {"part": "err"})

ch_read() and ch_readraw() use the channel timeout.  When there is nothing to
read within that time an empty string is returned.  To specify a different
timeout in msec use the "timeout" option:
	{"timeout": 123} ~
To read from the error output use the "part" option:
	{"part": "err"} ~
To read a message with a specific ID, on a JS or JSON channel:
	{"id": 99} ~
When no ID is specified or the ID is -1, the first message is returned. This
overrules any callback waiting for this message.

For a RAW channel this returns whatever is available, since Vim does not know
where a message ends.
For a NL channel this returns one message.
For a JS or JSON channel this returns one decoded message.
This includes any sequence number.

==============================================================================
8. Starting a job with a channel			*job-start* *job*

To start a job and open a channel for stdin/stdout/stderr: >
    let job = job_start(command, {options})

You can get the channel with: >
    let channel = job_getchannel(job)

The channel will use NL mode.  If you want another mode it's best to specify
this in {options}.  When changing the mode later some text may have already
been received and not parsed correctly.

If the command produces a line of output that you want to deal with, specify
a handler for stdout: >
    let job = job_start(command, {"out_cb": "MyHandler"})
The function will be called with the channel and a message. You would define
it like this: >
    func MyHandler(channel, msg)

Without the handler you need to read the output with |ch_read()| or
|ch_readraw()|. You can do this in the close callback, see |read-in-close-cb|.

The handler defined for "out_cb" will not receive stderr.  If you want to
handle that separately, add an "err_cb" handler: >
    let job = job_start(command, {"out_cb": "MyHandler",
	    \			  "err_cb": "ErrHandler"})

If you want to handle both stderr and stdout with one handler use the
"callback" option: >
    let job = job_start(command, {"callback": "MyHandler"}) 

You can send a message to the command with ch_evalraw().  If the channel is in
JSON or JS mode you can use ch_evalexpr().

There are several options you can use, see |job-options|.
For example, to start a job and write its output in buffer "dummy": >
	let logjob = job_start("tail -f /tmp/log",
			     \ {'out_io': 'buffer', 'out_name': 'dummy'})
	sbuf dummy


Job input from a buffer ~

To run a job that reads from a buffer: >
	let job = job_start({command},
	    \ {'in_io': 'buffer', 'in_name': 'mybuffer'})
<
							*E915* *E918*
The buffer is found by name, similar to |bufnr()|. The buffer must exist and
be loaded when job_start() is called.

By default this reads the whole buffer.  This can be changed with the "in_top"
and "in_bot" options.

A special mode is when "in_top" is set to zero and "in_bot" is not set: Every
time a line is added to the buffer, the last-but-one line will be send to the
job stdin.  This allows for editing the last line and sending it when pressing
Enter.


Reading job output in the close callback ~
							*read-in-close-cb*
If the job can take some time and you don't need intermediate results, you can
add a close callback and read the output there: >

	func! CloseHandler(channel)
	  while ch_status(a:channel) == 'buffered'
	    echomsg ch_read(a:channel)
	  endwhile
	endfunc
	let job = job_start(command, {'close_cb': 'CloseHandler'})

You will want to do something more useful than "echomsg".

==============================================================================
9. Starting a job without a channel			*job-start-nochannel*

To start another process without creating a channel: >
    let job = job_start(command,
    	\ {"in_io": "null", "out_io": "null", "err_io": "null"})

This starts {command} in the background, Vim does not wait for it to finish.

When Vim sees that neither stdin, stdout or stderr are connected, no channel
will be created.  Often you will want to include redirection in the command to
avoid it getting stuck.

There are several options you can use, see |job-options|.

							*job-start-if-needed*
To start a job only when connecting to an address does not work, do something
like this: >
	let channel = ch_open(address, {"waittime": 0})
	if ch_status(channel) == "fail"
	  let job = job_start(command)
	  let channel = ch_open(address, {"waittime": 1000})
	endif

Note that the waittime for ch_open() gives the job one second to make the port
available.

==============================================================================
10. Job options						*job-options*

The {options} argument in job_start() is a dictionary.  All entries are
optional.  Some options can be used after the job has started, using
job_setoptions(job, {options}).  Many options can be used with the channel
related to the job, using ch_setoptions(channel, {options}).
See |job_setoptions()| and |ch_setoptions()|.

						*in_mode* *out_mode* *err_mode*
"in_mode"		mode specifically for stdin, only when using pipes
"out_mode"		mode specifically for stdout, only when using pipes
"err_mode"		mode specifically for stderr, only when using pipes
			See |channel-mode| for the values.

			Note: when setting "mode" the part specific mode is
			overwritten.  Therefore set "mode" first and the part
			specific mode later.

			Note: when writing to a file or buffer and when
			reading from a buffer NL mode is used by default.

						*job-callback*
"callback": handler	Callback for something to read on any part of the
			channel.
						*job-out_cb* *out_cb*
"out_cb": handler	Callback for when there is something to read on
			stdout.  Only for when the channel uses pipes.  When
			"out_cb" wasn't set the channel callback is used.

						*job-err_cb* *err_cb*
"err_cb": handler	Callback for when there is something to read on
			stderr.  Only for when the channel uses pipes.  When
			"err_cb" wasn't set the channel callback is used.
						*job-close_cb*
"close_cb": handler	Callback for when the channel is closed.  Same as
			"close_cb" on ch_open().
						*job-exit_cb*
"exit_cb": handler	Callback for when the job ends.  The arguments are the
			job and the exit status.
			Vim checks about every 10 seconds for jobs that ended.
			The check also be triggered by calling |job_status()|,
			which may then invoke the exit_cb handler.
			Note that data can be buffered, callbacks may still be
			called after the process ends.
							*job-timeout*
"timeout"		The time to wait for a request when blocking, E.g.
			when using ch_evalexpr().  In milliseconds.  The
			default is 2000 (2 seconds).
						*out_timeout* *err_timeout*
"out_timeout"		Timeout for stdout.  Only when using pipes.
"err_timeout"		Timeout for stderr.  Only when using pipes.
			Note: when setting "timeout" the part specific mode is
			overwritten.  Therefore set "timeout" first and the
			part specific mode later.

						*job-stoponexit*
"stoponexit": {signal}	Send {signal} to the job when Vim exits.  See
			|job_stop()| for possible values.
"stoponexit": ""	Do not stop the job when Vim exits.
			The default is "term".

						*job-term*
"term": "open"		Start a terminal and connect the job
			stdin/stdout/stderr to it.
			NOTE: Not implemented yet!

"channel": {channel}	Use an existing channel instead of creating a new one.
			The parts of the channel that get used for the new job
			will be disconnected from what they were used before.
			If the channel was still use by another job this may
			cause I/O errors.
			Existing callbacks and other settings remain.

				*job-in_io* *in_top* *in_bot* *in_name* *in_buf*
"in_io": "null"		disconnect stdin (read from /dev/null)
"in_io": "pipe"		stdin is connected to the channel (default)
"in_io": "file"		stdin reads from a file
"in_io": "buffer"	stdin reads from a buffer
"in_top": number	when using "buffer": first line to send (default: 1)
"in_bot": number	when using "buffer": last line to send (default: last)
"in_name": "/path/file"	the name of the file or buffer to read from
"in_buf": number	the number of the buffer to read from

				*job-out_io* *out_name* *out_buf*
"out_io": "null"	disconnect stdout (goes to /dev/null)
"out_io": "pipe"	stdout is connected to the channel (default)
"out_io": "file"	stdout writes to a file
"out_io": "buffer" 	stdout appends to a buffer (see below)
"out_name": "/path/file" the name of the file or buffer to write to
"out_buf": number	the number of the buffer to write to
"out_modifiable": 0	when writing to a buffer, 'modifiable' will be off
			(see below)

				*job-err_io* *err_name* *err_buf*
"err_io": "out"		stderr messages to go to stdout
"err_io": "null"	disconnect stderr  (goes to /dev/null)
"err_io": "pipe"	stderr is connected to the channel (default)
"err_io": "file"	stderr writes to a file
"err_io": "buffer" 	stderr appends to a buffer (see below)
"err_name": "/path/file" the name of the file or buffer to write to
"err_buf": number	the number of the buffer to write to
"err_modifiable": 0	when writing to a buffer, 'modifiable' will be off
			(see below)

"block_write": number	only for testing: pretend every other write to stdin
			will block


Writing to a buffer ~

When the out_io or err_io mode is "buffer" and there is a callback, the text
is appended to the buffer before invoking the callback.

When a buffer is used both for input and output, the output lines are put
above the last line, since the last line is what is written to the channel
input.  Otherwise lines are appended below the last line.

When using JS or JSON mode with "buffer", only messages with zero or negative
ID will be added to the buffer, after decoding + encoding.  Messages with a
positive number will be handled by a callback, commands are handled as usual.

The name of the buffer is compared the full name of existing buffers.  If
there is a match that buffer is used.  Otherwise a new buffer is created.
Use an empty name to always create a new buffer.  |ch_getbufnr()| can then be
used to get the buffer number.

For a new buffer 'buftype' is set to "nofile" and 'bufhidden' to "hide".  If
you prefer other settings, create the buffer first and pass the buffer number.

The "out_modifiable" and "err_modifiable" options can be used to set the
'modifiable' option off, or write to a buffer that has 'modifiable' off.  That
means that lines will be appended to the buffer, but the user can't easily
change the buffer.

When an existing buffer is to be written where 'modifiable' is off and the
"out_modifiable" or "err_modifiable" options is not zero, an error is given
and the buffer will not be written to.

When the buffer written to is displayed in a window and the cursor is in the
first column of the last line, the cursor will be moved to the newly added
line and the window is scrolled up to show the cursor if needed.

Undo is synced for every added line.


Writing to a file ~
							*E920*
The file is created with permissions 600 (read-write for the user, not
accessible for others).  Use |setfperm()| to change this.

If the file already exists it is truncated.

==============================================================================
11. Controlling a job					*job-control*

To get the status of a job: >
	echo job_status(job)

To make a job stop running: >
	job_stop(job)

This is the normal way to end a job. On Unix it sends a SIGTERM to the job.
It is possible to use other ways to stop the job, or even send arbitrary
signals.  E.g. to force a job to stop, "kill it": >
	job_stop(job, "kill")

For more options see |job_stop()|.


 vim:tw=78:ts=8:ft=help:norl: