Skip to content

Latest commit

 

History

History
614 lines (459 loc) · 19.5 KB

README.md

File metadata and controls

614 lines (459 loc) · 19.5 KB

process

Clojars Project bb built-in

Clojure library for shelling out / spawning sub-processes.

NOTE: When using process from babashka, this README assumes v1.0.168 or later.

API

In 90% of the use cases you will probably need shell and for the remaining use cases you will probably need a combination of process and check. Start reading the docs for those, skim over the rest and revisit the remaining functions when you need them.

See API docs as generated by quickdoc.

Installation

This library is included in babashka since 0.2.3 but is also intended as a JVM library.

Clojars Project

Usage

Syntax

The functions shell, process and exec take an optional map followed by one or more strings:

(require '[babashka.process :refer [shell process exec]])

(shell "ls" "-la") ;; no options
(shell "ls -la" "dir") ;; first string is tokenized automatically, more strings may be provided
(shell {:dir "target"} "ls" "-la")
(process {:in "hello"} "cat")
(exec {:extra-env {"FOO" "BAR"}} "bash")

Previous versions of babashka process supported the (process ["prog" "arg"] {}) syntax. This syntax is no longer recommended, but is still supported to not break existing programs.

shell

Most commonly you will use shell. It executes a command and streams the output to stdout and stderr while the process is running. The name shell comes from "shelling out", but note that it does not invoke a bash/zsh/cmd.exe shell: it just starts an external program.

user=> (shell "ls" "-la")
total 144
drwxr-xr-x@ 22 borkdude  staff    704 Dec  4 13:39 .
drwxr-xr-x@ 75 borkdude  staff   2400 Dec  3 14:18 ..
drwxr-xr-x@  4 borkdude  staff    128 Mar 10  2022 .circleci
drwxr-xr-x@  5 borkdude  staff    160 Mar 10  2022 .clj-kondo
drwxr-xr-x@ 50 borkdude  staff   1600 Dec  3 20:55 .cpcache

The first string argument to shell is tokenized automatically: "ls -la" is broken up into "ls" and "-la", so (shell "ls -la") also works. This eases the migration from existing bash scripts.

You can provide more arguments if you need to:

user=> (shell "ls -la" "src" "test")
src:
total 0
drwxr-xr-x@  3 borkdude  staff   96 Mar 10  2022 .
drwxr-xr-x@ 22 borkdude  staff  704 Dec  4 14:13 ..
drwxr-xr-x@  4 borkdude  staff  128 Dec  4 14:01 babashka

test:
total 0
drwxr-xr-x@  3 borkdude  staff   96 Mar 10  2022 .
drwxr-xr-x@ 22 borkdude  staff  704 Dec  4 14:13 ..
drwxr-xr-x@  3 borkdude  staff   96 Dec  4 14:01 babashka

This is particularly handy when you want to supply commands coming from the command line:

(apply shell "ls -la" *command-line-args*)

The shell function checks the command's exit code and throws if it is non-zero:

user=> (shell "ls nothing")
ls: nothing: No such file or directory
Execution error (ExceptionInfo) at babashka.process/check (process.cljc:113).

To avoid throwing when the command's exit code is non-zero, use :continue true. You will still see the error printed to stderr, but no exception will be thrown. This is convenient when you want to handle the :exit code yourself:

user=> (-> (shell {:continue true} "ls nothing") :exit)
ls: nothing: No such file or directory
1

Note that :continue true only suppresses throwing an exception when the executed command's exit code is non-zero. Other exceptions can throw, for example, when the executable is not found.

To collect output as a :string, use the :out :string option as the first argument:

user=> (-> (shell {:out :string} "ls -la") :out str/split-lines first)
"total 144"

To also capture stderr to a :string, add in the :err :string option:

user=> (-> (shell {:out :string :err :string} "git conpig user.name")
           (select-keys [:out :err]))
{:out "borkdude\n", :err "WARNING: You called a Git command named 'conpig', which does not exist.\nContinuing in -1.1 seconds, assuming that you meant 'config'.\n"}

To redirect stderr to stdout specify the :err :out option:

user=> (-> (shell {:out :string :err :out} "git conpig user.name") :out)
"WARNING: You called a Git command named 'conpig', which does not exist.\nContinuing in -1.1 seconds, assuming that you meant 'config'.\nborkdude\n"

To change the working directory, use the :dir option:

user=> (-> (shell {:out :string :dir "src/babashka"} "ls -la") :out str/split-lines first)
"total 48"

To add environment variables, use :extra-env:

user=> (-> (shell {:out :string :extra-env {"FOO" "BAR"}} "bb -e '(System/getenv \"FOO\")'") :out print)
"BAR"

process

The shell function is a combination of process and deref and check. The process function is the lower level function of this library that doesn't make any opinionated choices:

  • It does not provide a default for :out, :in and :err: in shell these default to :inherit which means: read and write from and to the console. In process they default to the default of java.lang.ProcessBuilder.
  • It does not wait until the process completes.
  • It does not check the exit code and throw an exception.

Use process when you need to change one of the above and shell's options do not support it. In practice this means: whenever you need async processing, e.g. reading output from a process while it is running.

The return value of process implements clojure.lang.IDeref. When dereferenced, it will wait for the process to finish and will add the :exit value.

user=> (-> (process "ls foo") deref :exit)
1

The function check takes a process, waits for it to finish (so you can omit deref) and returns it. When the exit code is non-zero, it will throw.

user=> (-> (process {:out :string} "ls") check :out str/split-lines first)
"API.md"
user=> (-> (process {:out :string} "ls foo") check :out str/split-lines first)
Execution error (ExceptionInfo) at babashka.process/check (process.clj:74).
ls: foo: No such file or directory

Both :in, :out may contain objects that are compatible with clojure.java.io/copy:

user=> (with-out-str (check (process {:in "foo" :out *out*} "cat")))
"foo"

user=> (->> (with-out-str (check (process {:out *out*} "ls"))) str/split-lines (take 2))
("API.md" "CHANGELOG.md")

The :out option also supports :string for collecting stdout into a string and :bytes for getting the raw output as a byte array. You will need to deref the process in order for the string or byte array to be there, since the output can't be finalized if the process hasn't finished running:

user=> (-> @(process {:out :string} "ls") :out str/split-lines first)
"API.md"
user=> (-> @(process {:out :bytes} "head -c 10 /dev/urandom") :out seq)
(119 -43 -68 -64 -16 -56 32 45 86 56)

Piping output

Both shell and process support piping output from one process to the next using but note that shell writes the output to the system's stdout by default, so you have to provide it with {:out :string} for the next process to capture the input, while process uses the default java.lang.ProcessBuilder setting which defaults to writing to a stream:

user=> (let [stream (-> (process "ls") :out)]
         @(process {:in stream
                    :out :inherit} "cat")
         nil)
API.md
CHANGELOG.md
LICENSE
README.md
...

Forwarding the output of a process as the input of another process can also be done with thread-first (->):

user=> (-> (process "ls")
           (process {:out :string} "grep README") deref :out)
"README.md\n"

Redirecting output to a file

To write to a file use :out :write and set :out-file to a file:

user=> (require '[clojure.java.io :as io])
nil
user=> (do @(process {:out :write :out-file (io/file "/tmp/out.txt")} "ls") nil)
nil
user=> (slurp "/tmp/out.txt")
"CHANGELOG.md\nLICENSE\nREADME.md..."

or simply:

(do (shell {:out "/tmp/out.txt"} "ls") nil)

To append to a file, use :out :append:

user=> (do @(process {:out :append :out-file (io/file "/tmp/out.txt")} "ls") nil)
nil
user=> (slurp "/tmp/out.txt")
"CHANGELOG.md\nLICENSE\nREADME.md..."

Feeding input

Here is an example of a cat process to which we send input while the process is running, then close stdin and read the output of cat afterwards:

(ns cat-demo
  (:require [babashka.process :refer [process alive?]]
            [clojure.java.io :as io]))

(def catp (process "cat"))

(alive? catp) ;; true

(def stdin (io/writer (:in catp)))

(binding [*out* stdin]
  (println "hello"))

(.close stdin)

(slurp (:out catp)) ;; "hello\n"

(:exit @catp) ;; 0

(alive? catp) ;; false

Processing streaming output

Here is an example where we read the output of bb -o -e '(range)', an infinite stream of numbers, line by line and print it ourselves:

(require '[babashka.process :as p :refer [process destroy-tree]]
         '[clojure.java.io :as io])

(def number-stream
  (process
   {:err :inherit
    :shutdown destroy-tree}
   "bb -o -e '(range)'"))

(with-open [rdr (io/reader (:out number-stream))]
  (binding [*in* rdr]
    (loop [max 10]
      (when-let [line (read-line)]
        (println :line line)
        (when (pos? max)
          (recur (dec max)))))))

;; kill the streaming bb process:
(p/destroy-tree number-stream)

Printing command

The :pre-start-fn option can be used to report commands being run:

(require '[babashka.process :refer [process]])

(doseq [file ["LICENSE" "CHANGELOG.md"]]
  (-> (process
        {:out :string
         :pre-start-fn #(apply println "Running" (:cmd %))}
        "head" "-1" file)
      deref :out println))

Running head -1 LICENSE
Eclipse Public License - v 1.0

Running head -1 CHANGELOG.md
# Changelog

sh

sh is a convenience function around process which sets :out and :err to :string and blocks automatically, similar to clojure.java.shell/sh:

user=> (def config {:output {:format :edn}})
#'user/config
user=> (-> (sh ["clj-kondo" "--lint" "src"]) :out slurp edn/read-string)
{:findings [], :summary {:error 0, :warning 0, :info 0, :type :summary, :duration 34}}

Tokenization

All of shell, process and sh support tokenization on the first string argument using tokenize:

user=> (require '[babashka.process :refer [sh tokenize]])
nil
user=> (tokenize "hello there")
["hello" "there"]
user=> (-> (sh "echo hello there") :out)
"hello there\n"
user=> (-> (sh {:in "(inc)"} "clj-kondo --lint -") :out)
"<stdin>:1:1: error: clojure.core/inc is called with 0 args but expects 1\nlinting took 10ms, errors: 1, warnings: 0\n"

Output buffering

Note that check will wait for the process to end in order to check the exit code. When the process has lots of data to write to stdout, it is recommended to add an explicit :out option to prevent deadlock due to buffering. This example will deadlock because the process is buffering the output stream but it's not being consumed, so the process won't be able to finish:

user=> (-> (process {:in (apply str (repeat 1000000 "hello\n"))} "cat") check :out count)

The way to deal with this is providing an explicit :out option so the process can finish writing its output:

user=> (-> (process {:out :string :in (apply str (repeat 1000000 "hello\n"))} "cat") check :out count)
6000000

Add Environment

The :env option replaces your entire environment with the provided map. To add environment variables you can use :extra-env instead:

:extra-env {"FOO" "BAR"}

Windows TIP: Unlike in the CMD and Powershell shells, environment variable names are case sensitive for :extra-env. For example, "PATH" will not update the value of "Path" on Windows. Here's an example of a babashka task that understands this nuance.

:env TIP: An OS might have default environment variables it always includes. For example, as of this writing, Windows always includes SystemRoot and macOS always includes __CF_USER_TEXT_ENCODING.

Pipelines

The pipeline function returns a sequential of processes from a process that was created with -> or by passing multiple objects created with pb:

user=> (require '[babashka.process :refer [pipeline pb process check]])
nil
user=> (mapv :cmd (pipeline (-> (process "ls") (process "cat"))))
[["ls"] ["cat"]]
user=> (mapv :cmd (pipeline (pb "ls") (pb "cat")))
[["ls"] ["cat"]]

To obtain the right-most process from the pipeline, use last (or peek):

user=> (-> (pipeline (pb "ls") (pb "cat")) last :out slurp)
"LICENSE\nREADME.md\ndeps.edn\nsrc\ntest\n..."

Calling pipeline on the right-most process returns the pipeline:

user=> (def p (pipeline (pb "ls") (pb "cat")))
#'user/p
user=> (= p (pipeline (last p)))
true

To check an entire pipeline for non-zero exit codes, you can use:

user=> (run! check (pipeline (pb "ls foo") (pb "cat")))
Execution error (ExceptionInfo) at babashka.process/check (process.clj:37).
ls: foo: No such file or directory

Although you can create pipelines with ->, for some applications it may be preferable to create a pipeline with pipeline which defers to ProcessBuilder/startPipeline. In the following case it takes a long time before you would see any output due to buffering.

(future
  (loop []
    (spit "log.txt" (str (rand-int 10) "\n") :append true)
    (Thread/sleep 10)
    (recur)))

(-> (process "tail" "-f" "log.txt")
    (process "cat")
    (process {:out :inherit} "grep "5"))

The solution then it to use pipeline + pb:

(pipeline (pb "tail" "-f" "log.txt")
          (pb "cat")
          (pb {:out :inherit} "grep" "5"))

The varargs arity of pipeline is only available in JDK9 or higher due to the availability of ProcessBuilder/startPipeline. If you are on JDK8 or lower, the following solution that reads the output of tail line by line may work for you:

user=> (require '[clojure.java.io :as io])
nil

(def tail (process {:err :inherit} "tail" "-f" "log.txt"))

(def cat-and-grep
  (-> (process {:err :inherit} "cat")
      (process {:out :inherit
                :err :inherit} "grep 5")))

(binding [*in*  (io/reader (:out tail))
          *out* (io/writer (:in cat-and-grep))]
  (loop []
    (when-let [x (read-line)]
      (println x)
      (recur))))

Another solution is to let bash handle the pipes by shelling out with bash -c.

Program Resolution

macOS & Linux

On macOS & Linux, programs are resolved the way you expect:

  • a resolves against the system PATH
  • ./a resolves against :dir if specified, otherwise the current working directory
  • /some/absolute/a resolves absolutely

In all cases, the working directory for a is :dir, if specified, otherwise your current working directory.

Windows

Windows executable files have extensions, which, if not specified, are resolved in order: .com,.exe,.bat,.cmd. Programs are resolved in directories using the same rules as macOS, Linux, and Windows PowerShell.

Windows .ps1 TIP: Babashka process will never resolve to, and cannot launch, .ps1 scripts directly. To launch a .ps1 script, you must do so through PowerShell. Example:

(p/shell "powershell.exe -File .\\a.ps1")

Windows TIP: If you prefer a more CMD Shell-like experience where programs are resolved first in the current working directory, then on the PATH, and are OK with the security implications of doing so, you can override the default :program-resolver with your own.

Differences with clojure.java.shell/sh

If clojure.java.shell works for your purposes, keep using it. But there are contexts in which you need more flexibility. The major differences compared with this library:

  • sh is blocking, process makes blocking explicit via deref
  • sh focuses on convenience but limits what you can do with the underlying process, process exposes as much as possible while still offering an ergonomic API
  • process supports piping processes via -> or pipeline
  • sh offers integration with clojure.java.io/copy for :in, process extends this to :out and :err

Differences with clojure.java.process

Clojure 1.12.0 features a new clojure.java.process namespace. babashka.process predates it, but the API is very similar, although defaults will differ.

Note that the exec function in babashka.process does something very different than the same-named function in clojure.java.process: in babashka.process it replaces the parent process via a Unix exec call, while in clojure.java.process/exec the process is launched as a child process.

Other notable differences:

  • clojure.java.process does not do any tokenization, so it doesn't support passing a string like "ls -la"
  • clojure.java.process does not have any Windows-specific support.

Script termination

Because process spawns threads for non-blocking I/O, you might have to run (shutdown-agents) at the end of your Clojure JVM scripts to force termination. Babashka does this automatically.

Clojure.pprint

When pretty-printing a process, by default you will get an exception:

user=> (require '[babashka.process :refer [process]])
nil
user=> (require '[clojure.pprint :as pprint])
nil
user=> (pprint/pprint (process "ls"))
Execution error (IllegalArgumentException) at user/eval257 (REPL:1).
Multiple methods in multimethod 'simple-dispatch' match dispatch value: class babashka.process.Process -> interface clojure.lang.IDeref and interface clojure.lang.IPersistentMap, and neither is preferred

The reason is that a process is both a record and a clojure.lang.IDeref and pprint does not have a preference for how to print this. The recommended solution is to require the babashka.process.pprint namespace, which will define a pprint implementation for a Process record:

user=> (require '[babashka.process.pprint])
nil

user=> (pprint/pprint (process "ls"))
{:proc
 #object[java.lang.ProcessImpl 0x1d61a348 "Process[pid=43771, exitValue=\"not exited\"]"],
 :exit nil,
...

Promesa

On the JVM (not in bb), you can combine this library with promesa in the following way. This requires :exit-fn which was released in version 0.2.10.

(require '[babashka.process :as proc]
         '[promesa.core :as prom])

(defn process
  "Returns promise that will be resolved upon process termination. The promise is rejected when the exit code is non-zero."
  [opts & cmd]
  (prom/create
   (fn [resolve reject]
     (let [exit-fn (fn [response]
                     (let [{:keys [exit] :as r} response]
                       (if (zero? exit)
                         (resolve r)
                         (reject r))))]
       (apply proc/process (assoc opts :exit-fn exit-fn) cmd)))))

(prom/let [ls (process
               {:out :string
                :err :inherit}
               "ls")
           ls-out (:out ls)]
  (prn ls-out))

License

Copyright © 2020-2022 Michiel Borkent

Distributed under the EPL License. See LICENSE.