proc
An easy way to run processes like a shell script in Deno.
proc
lets me write process-handling code in readable, idiomatic Typescript
using async/await
and AsyncIterator
promisy goodness.
Documentation
deno doc --reload https://deno.land/x/proc/mod.ts 2> /dev/null
Examples
Related Projects
Input and Output Types
Processes really just deal with one type of data - bytes, in streams. Many programs will take this one step further and internally translate to and from text data, processing this data one line at a time.
proc
treats process data as either Uint8Array
or AsyncIterable<Uint8Array>
for byte data, or string
or AsyncIterable<string>
(as lines of text) for
text. It defines a set of standard input and output handlers that provide both
type information and data handling behavior to the runner.
An Example
To get you started, here is a simple example where we pass a string
to a
process and get back a Uint8Array
. The group is hidden in the gzip(...)
function.
/**
* Use `gzip` to compress some text.
* @param text The text to compress.
* @return The text compressed into bytes.
*/
async function gzip(text: string): Promise<Uint8Array> {
const pg = group();
try {
/* I am using a string for input and a Uint8Array (bytes) for output. */
const pr: Runner<string, Uint8Array> = runner(
stringInput(),
bytesOutput(),
)(pg);
return await pr.run({ cmd: ["gzip", "-c"] }, text);
} finally {
pg.close();
}
}
console.dir(await gzip("Hello, world."));
/* prints an array of bytes to console. */
Input Types
Name | Description |
---|---|
emptyInput() |
There is no process input. |
stringInput() |
Process input is a string . |
stringArrayInput() |
Process input is a string[] . |
bytesInput() |
Process input is a Uint8Array . |
readerInput() * |
Process input is a Deno.Reader & Deno.Closer . |
stringIterableInput() |
Process input is an AsyncIterable<string> . |
bytesIterableInput() |
Process input is an AsyncIterable<Uint8Array> . |
* - ReaderInput
is a special input type that does not have a
corresponding output type. It is not useful for piping data from process to
process.
Output Types
Name | Description |
---|---|
stringOutput() |
Process output is a string . |
stringArrayOutput() |
Process output is a string[] . |
bytesOutput() |
Process output is a Uint8Array . |
stringIterableOutput() |
Process output is an AsyncIterable<string> . |
bytesIterableOutput() |
Process output is an AsyncIterable<Uint8Array> . |
stderrToStdoutStringIterableOutput() * |
stdout and stderr are converted to text lines (string ) and multiplexed together. |
* - Special output type that mixes stdout
and stderr
together.
stdout
must be text data.
ℹ️ You must fully consume
Iterable
outputs. If you only partially consumeIterable
s, process errors will not propagate properly. For correct behavior, we have to return all the data from the process streams before we can propagate an error.
Running a Command
proc
is easiest to use with a wildcard import.
import * as proc from "https://deno.land/x/proc@0.0.0/mod.ts";
First, create a template. The template is a static definition and may be reused. The input and output handlers determine the data types used by your runner.
const template = proc.runner(proc.emptyInput(), proc.stringOutput());
Next, create a runner by binding the template to a group.
const pg = proc.group();
const runner: proc.Runner<void, string> = template(pg);
Finally, use the runner to execute a command.
try {
console.log(
runner.run({cmd: ["ls", "-la"]});
);
} finally {
pg.close();
}
Key Concepts
Process Basics
Processes accept input through stdin
and output data to stdout
. These two
streams may be interpreted either as byte data or as text data, depending on the
use case.
There is another output stream called stderr
. This is typically used for
logging and/or details about any errors that occur. stderr
is always
interpreted as text. In most cases it just gets dumped to the stderr
stream of
the parent process, but you have some control over how it is handled.
In some cases (Java processes come to mind), stdout
and stderr
are roughly
interchangable, with logging and error messages written to either output stream
in a sloppy manner. The stderrToStdoutStringIterableOutput()
output handler
gives you an option for handling both streams together.
Processes return a numeric exit code when they exit. 0
means success, and any
other number means something went wrong. proc
deals with error conditions on
process exit by throwing a ProcessExitError
. You should never have to poll for
process status.
Asynchronous Iterables
JavaScript introduced the AsyncIterable
as part of the 2015 spec. This is an
asynchronous protocol, so it works well with the streamed data to and from a
process.
proc
heavily relies on AsyncIterable
.
See JavaScript Iteration Protocols (MDN).
Streaming code executes differently than you may be used to. Errors work
differently too, being passed from iterable to iterable rather than failing
directly. Bugs in this kind of code can be difficult to figure out. To help with
this, proc
can chain its errors. You can turn this feature on by calling a
function:
proc.enableChaining(true);
This can produce some really long error chains that you may not want to work with in production, so this feature is turned off by default.
Preventing Resource Leakage
Processes are system resources, like file handles. This means they need special
handling. We have to take special care to close each process, and we also have
to close all the resources associated with each process - stdin
, stdout
, and
stderr
. Also, depending on how a Deno process shuts down, it may leave behind
orphan child processes in certain cases (this behavior is well documented but
annoying nonetheless) if measures aren’t taken specifically to prevent this.
In other words, working with Deno’s process API is more complicated than it looks.
To address the problem of leakage, proc
uses group()
to group related
process lifetimes. When you are done using a group of processes, you just close
the group. This cleans up everything all at once. It’s easy. It’s foolproof.
If you forget to close a group, or if your Deno process exits while you have some processes open, the group takes care of cleaning things up in that case too. Note that a group cannot be garbage-collected until it is explicitly closed.
const pr = runner(emptyInput(), stringOutput());
const pg = group();
try {
console.log(
await pr(pg).run({
cmd: ["ls", "-la"],
}),
);
} finally {
pg.close();
}