Crates.io | mom-task |
lib.rs | mom-task |
version | 1.3.0 |
source | src |
created_at | 2023-05-23 22:42:16.763951 |
updated_at | 2023-06-14 23:08:21.738069 |
description | Task runner for teams and individuals. |
homepage | https://github.com/adrianmrit/mom/ |
repository | https://github.com/adrianmrit/mom/ |
max_upload_size | |
id | 872450 |
size | 249,668 |
Task runner for teams and individuals. Written in Rust.
Inspired by different tools like cargo-make, go-task doskey, bash and docker-compose.
This project is a fork of my previous project yamis, which started as a simple task runner for work and personal projects, also as a way to learn Rust. I decided to fork it to drop some unnecessary complexity and improve the YAML file structure, i.e. to more closely follow existing tools. This also uses a more familiar name for the binary, pun intended.
If you have homebrew installed, you can install mom
with:
$ brew tap adrianmrit/mom
$ brew install mom
If you have cargo installed, you can install mom
with the following command:
$ cargo install mom-task
Pro-tip: make sure ~/.cargo/bin
directory is in your PATH
environment variable.
Binaries are also available for Windows, Linux and macOS under
releases. To install, download the zip for your system, extract,
and copy the binary to the desired location. You will need to ensure the folder that contains the binary is available
in the PATH
.
The JSON schema for the task files can be found here.
You can configure your IDE to use the schema for autocompletion and validation.
To integrate the schema with VSCode, you can use the YAML extension.
Once installed, you can add the following to your settings.json
file:
"yaml.schemas": {
"https://raw.githubusercontent.com/adrianmrit/mom/main/json-schema/mom.json": [
"mom.*.yml",
"mom.*.yaml",
"mom.yml",
"mom.yaml",
]
}
You can also add the schema to a specific file by adding the following to the top of the file:
# yaml-language-server: $schema=https://raw.githubusercontent.com/adrianmrit/mom/main/json-schema/mom.json
version: 1
Create a file named mom.root.yml
in the root of your project.
Here is a very basic example of a task file:
# mom.root.yml
version: 1
vars:
greeting: Hello World
tasks:
hi:
cmds:
- echo {{ vars.greeting }}
hi.windows:
cmds:
- echo {{ vars.greeting }} from Windows
sum:
cmds:
- echo "{{ args.0 }} + {{ args.1 }} = {{ args.0 | int + args.1 | int }}"
swear:
condition: |
{{ input(label="Are you sure you want to say that? (yes/no)") | lower == 'yes' }}
cmds:
- echo "!@#$%^&*()"
After having a mom file, you can run a task by calling mom
, the name of the task, and any arguments, i.e.
mom hi
. Arguments can be passed right after the task name, either by name or position, i.e. mom sum 1 2
.
If you want to pass command line options to mom
itself, they must be passed before the task name, any argument
after the task name will be considered an argument for the task. For example, if you want to run global tasks, you
need to pass the -g
or --global
flag before the task name, i.e. mom -g say_hi
, not mom say_hi -g
.
Some of the command line options can be combined, i.e. mom -gt
(or mom -g -t
) will give you a list of global tasks, and
mom -gl
will give you the location of the global task file.
If you want to use a non standard task file, you can use the -f
or --file
option, i.e. mom -f my_tasks.yml say_hi
.
To run a task in dry mode, i.e. without executing any commands, you can use the --dry
flag, i.e. mom --dry say_hi
.
You can see some extra command line options by running mom -h
or mom --help
.
The tasks are defined using the YAML format.
When invoking a task, starting in the working directory and continuing to the root directory, the program will
look configuration files in a certain order until either a task is found, a mom.root.{yml,yaml}
file is found,
or there are no more parent folders (reached root directory). The name of these files is case-sensitive in case-sensitive
systems, i.e. mom.root.yml
will not work in linux.
The priority order is as follows:
mom.private.yml
: Should hold private tasks and should not be committed to the repository.mom.private.yaml
: Same as above but for yaml format.mom.yml
: Should be used in sub-folders of a project for tasks specific to that folder and sub-folders.mom.yaml
: Same as above but for yaml format.mom.root.yml
: Should hold tasks for the entire project.mom.root.yaml
: Same as above but for yaml format.An especial task file can be defined at ~/mom/mom.global.yml
or ~/mom/mom.global.yaml
for global tasks.
To run a global task, you need to pass the --global
or -g
flag, i.e. mom -g say_hi
. This is useful for
personal tasks that are not related to a specific project.
Tasks can also be defined in a different file by passing the --file
or -f
flag, i.e. mom -f my_tasks.yml say_hi
.
While you can add any of the two formats, i.e. mom.root.yml
and mom.root.yaml
, it is recommended to use
only one format for consistency and to avoid confusion.
The following properties can be defined in the task file or in the task itself. The value defined in the task takes precedence over the value defined in the file.
wd: The working directory.
env: Environment variables.
dotenv: File or list of files containing environment variables.
vars: Variables.
incl: Templates that can be included/imported in the Tera template engine.
The wd
property is used to define the working directory. Defaults to the current working directory. It can be defined
at the file or task, with the value defined in the task taking precedence over the value defined in the file.
The path can be absolute or relative to the location of the file. To set the working directory to the location of the
file, use wd: "."
. Alternatively, to set it to the directory where the command was executed, use wd: ""
. Note that
while in the task you can set wd: null
, it will be treated as if wd
was not defined, therefore inheriting from the
parent.
The env
property is used to define environment variables that will be available to all tasks in the file.
The value of the property is a map of key-value pairs, where the key is the name of the environment variable,
and the value is the value of the environment variable.
The value defined in the executed task takes precedence over the value defined in the file.
Generally environment variables can be accessed in three ways, with tera tags, i.e. {{ env.VAR }}
, wherever they
are supported, with the tera function get_env, i.e. {{ get_env(name="VAR", default="default") }}
, or through
shell expansion, i.e. $VAR
or ${VAR}
. However note that shell
expansion is not available inside tera tags.
Note that when accessing environment variables with tera tags (i.e. {{ env.VAR }}
), system environment variables
are not available, only the ones defined in the file or task. To access system environment variables, use the
get_env function or use shell expansion.
See also:
The dotenv
property is used to define environment variables that will be available to all tasks in the file.
The value of the property is a string, or list of strings containing the path to the files containing the environment
variables. The path can be absolute or relative to the location of the file.
The value defined in the env
property take precedence over the value defined using the dotenv
property.
The vars
property is used to define variables that will be available to all tasks in the file.
This behaves like the env property, but the variables are not exported to the environment,
and can be more complex than strings.
For example, you can define a variable like this:
vars:
user:
age: 20
name: John
And then use it in a task like this:
tasks:
say_hi:
cmd: echo "Hi, {{ vars.user.name }}!"
The incl
property is used to define Tera includes/templates that will be available to all tasks in the file.
The value of the property is a map of key-value pairs, where the key is the name of the template,
and the value is the template itself. The template can then be accessed in a task with the name incl.<name>
.
Templates can include other templates, but the order in which they are defined matters.
For example, you can define a template like this:
incl:
say_hi: "Hi from {{ TASK.name }}!"
say_bye: "Bye from {% include "incl.say_hi" %}!"
However, the following will not work:
incl:
say_bye: "Bye from {% include "incl.say_hi" %}!"
say_hi: "Hi from {{ TASK.name }}!"
Templates can also be defined in the task, and they will take precedence over the templates defined in the file.
Templates can be also used to define macros. See the also the include documentation for Tera.
Besides the common properties, the following properties can be defined in the task file:
tasks: The tasks defined in the file.
version: The mayor version of the file. Although not used at the moment, it is required for future compatibility. The version
can be a number or string. At the moment of writing this, the version should be 1
.
extend: Mom files to inherit from.
The tasks
property is used to define the tasks in the file. The value of the property is a map of key-value
pairs, where the key is the name of the task, and the value is the task definition.
The name of the task must start with an ascii alpha character or underscore, followed by any number of letters, digits,
-
or _
. The name may also end with .windows
, .linux
or .macos
to define an OS-specific task.
You can choose, as a convention, to name private tasks with a leading underscore, i.e. _private_task
.
In the file, the extend
property is used to define the mom files to inherit from. It might be a path or a list of paths
relative to the location of the file, or an absolute path. For example:
version: 1
# Extend from a file in the same directory
extend: mom.base.yml
# Extend from a file in a subdirectory
extend: base/mom.base.yml
# Extend from multiple files
extend:
- mom.base.yml
- base/mom.base.yml
The inherited values are:
Values merged (with the file values taking precedence) are:
dotenv is loaded and merged with the env in the same file before extending from a file or merging into the parent file. Which means it is treated as part of the env
Besides the common properties, the task can have the following properties:
help: The help message.
script: The script to execute.
script_runner: A template to parse the script program and arguments.
script_extension: The extension of the script file.
script_ext: Alias for script_extension
.
cmds: The commands to execute.
program: The program to execute.
args: The arguments to pass to the program.
args_extend: The arguments to pass to the program, appended to the arguments from the base task, if any.
args+: Alias for args_extend
.
linux: A version of the task to execute in linux.
windows: A version of the task to execute in windows.
mac: A version of the task to execute in mac.
private: Whether the task is private or not.
extend: Tasks to inherit from.
The help
property is used to define the help message for the task. The value of the property is a string
containing the help message.
Unlike comments, help will be printed when running mom -i <TASK>
.
The condition
property is used to define a condition to execute the task. The value of the property is a string
containing a Tera template. If the template evaluates to true
, the task will be executed,
otherwise it will be skipped.
Only true
(case insensitive) values are considered true, all other values are considered false. This is because Tera conditions
will return ether true
or false
.
Example:
tasks:
say_hi:
condition: "{{ env.ENVIRONMENT == 'production' }}" # will evaluate to true if ENVIRONMENT is production, false otherwise
script: echo "Hi!"
This can also be handy to choose between different tasks depending on some condition, i.e.
tasks:
greet:
cmds:
- task:
condition: "{{ env.ENVIRONMENT == 'production' }}"
script: echo "Hi!"
- task:
condition: "{{ env.ENVIRONMENT != 'production' }}"
script: echo "Bye!"
⚠️Warning: DO NOT PASS SENSITIVE INFORMATION AS PARAMETERS IN SCRIPTS. Scripts are stored in a file in the temporal directory of the system and is the job of the OS to delete it, however it is not guaranteed when or if that would be the case. So any sensitive argument passed could be persisted indefinitely.
The script
value inside a task will be executed in the command line (defaults to cmd in Windows
and bash in Unix). Scripts can spawn multiple lines, and contain shell built-ins and programs.
The generated scripts are stored in the temporal directory, and the filename will be a hash so that if the script was previously called with the same parameters, we can reuse the previous file, essentially working as a cache.
The script_runner
property is used to define the template to parse the script program and arguments. Must contain
a program and a {{ script_path }}
template, i.e. python {{ script_path }}
. Arguments are separated in the same way
as args. This parameter supports expanding environment variables like `$A
The script_extension
property is used to define the extension of the script file. I.e. py
or .py
for python scripts.
The program
value inside a task will be executed as a separate process, with the arguments passed
on args
, if any.
The args
values inside a task will be passed as arguments to the program, if any. The value is a string
containing the arguments separated by spaces. Values with spaces can be quoted to be treated as one, i.e.
"hello world"
. Quotes can be escaped with a backslash, i.e. \"
.
The args_extend
values will be appended to args
(with a space in between), if any. The value is a string
in the same form as args
.
The cmds
value is a list of commands to execute. Each command can be either a string, or a map with a task
key.
If the command is a string, it will be executed as a program, with the first value being the program, and the
rest being the arguments. Arguments are separated in the same way as args. For convenience, echo
is
a built-in in mom, so that the same command works properly in Windows and Unix.
If the command is a map, the value of task
can be either the name of a task to execute, or the definition of a
task to execute.
Example:
tasks:
say_hi:
script: echo "hi"
say_bye:
cmds:
- echo "bye"
greet:
cmds:
- python -c "print('hello')"
- task: say_hi
- task:
extend: say_bye
The private
value is a boolean that indicates if the task is private or not. Private tasks cannot be executed
directly, but can be inherited from.
In the task, the extend
property is used to define the tasks to inherit from. It might be a string or a list of strings. For example:
tasks:
base_task:
program: echo
args: "Hello, world!"
task:
extend: base_task
other_task:
extend:
- base_task
- task
The tasks are merged, with the parent task taking precedence over the base task.
The inherited values are:
script_extension
)Values merged (with the parent values taking precedence) are:
Just like in the file, dotenv is loaded and merged with the env in the same task before extending from a task or merging into the parent task. Which means it is treated as part of the env in the task.
Values not inherited are:
args_extend (appended to the inherited args)
[args+][#args_extend] (alias for args_extend
)
You can have a different OS version for each task. If a task for the current OS is not found, it will fall back to the non os-specific task if it exists. I.e.
tasks:
ls:
script: "ls {{ args.0 }}"
ls.windows:
script: "dir {{ args.0 }}"
Os tasks can also be specified in a single key, i.e. the following is equivalent to the example above.
tasks:
ls:
script: "ls {{ args.0 }}"
ls.windows:
script: "dir {{ args.0 }}"
Note that os-specific tasks do not inherit from the non-os specific task implicitly, if you want to do so, you will have to define extend explicitly, i.e.
tasks:
ls:
env:
DIR: "."
script: "ls {{ env.DIR }}"
ls.windows:
extend: ls
script: "dir {{ env.DIR }}"
Arguments for tasks can be either passed as a key-value pair, i.e. --name "John Doe"
, or as a positional argument, i.e.
"John Doe"
.
Named arguments must start with one or two dashes, followed by an ascii alpha character or underscore, followed by any number
of letters, digits, -
or _
. The value will be either the next argument or the value after the equals sign, i.e.
--name "John Doe"
, --name-person1="John Doe"
, -name_person1 John
are all valid. Note that "--name John"
is not
a named argument because it is surrounded by quotes and contains a space, however "--name=John"
is valid named argument.
The exported variables are:
args
: The arguments passed to the task. If the task is called with mom say_hi arg1 --name "John"
, then
args
will be ["arg1", "--name", "John"]
.kwargs
: The keyword arguments passed to the task. If the task is called with mom say_hi --name "John"
,
then kwargs
will be {"name": "John"}
. If the same named argument is passed multiple times, the value will be
the last one.pkwargs
: Same as kwargs
, but the value is a list of all the values passed for the same named argument.env
: The environment variables defined in the task. Note that this does not includes the environment variables
defined in the system. To access those, use {{ get_env(name=<value>, default=<default>) }}
.vars
: The variables defined in the task.TASK
: The task object and its properties.FILE
: The file object and its properties.Named arguments are also treated as positional arguments, i.e. if --name John --surname=Doe
is passed,
{{ args.0 }}
will be --name
, {{ args.1 }}
will be John
, and {{ args.2 }}
will be --surname="Doe"
.
Thus, it is recommended to pass positional arguments first.
In you want to pass all the command line arguments, you can use {{ args | join(sep=" ") }}
, or {% for arg in args %} "{{ arg }}" {% %}
if you want to quote them.
See also:
When using the same environment variables (env) and variables (vars) values exist in multiple places, the most specific value will take precedence. For example, values defined using env take precedence over values defined using dotenv, and vars or env defined in a task take precedence over the values defined in the file.
For example, if you have the following file:
version: 1
# Default values. The tasks can override these values.
env:
ENV1: "env1"
ENV2: "env2"
vars:
VAR1: "var1"
VAR2: "var2"
tasks:
test1:
env:
ENV2: "test1_env2"
ENV3: "test1_env3"
vars:
VAR2: "test1_var2"
VAR3: "test1_var3"
cmds:
- echo "{{ env.ENV1 }} {{ env.ENV2 }} {{ env.ENV3 }}"
- echo "{{ vars.VAR1 }} {{ vars.VAR2 }} {{ vars.VAR3 }}"
# env and vars from the parent will take precedence
- task: test2
# This subtask will inherit the env and vars from the parent
# but its own bases, envs and vars will take precedence
- task:
# Bases will take precedence over the parent task
extend: test2
# env and vars take precedence over the parent task and the bases
env:
ENV2: "subtask_env2"
vars:
VAR2: "subtask_var2"
test2:
env:
ENV2: "test2_env2"
ENV3: "test2_env3"
vars:
VAR2: "test2_var2"
VAR3: "test2_var3"
cmds:
- echo "{{ env.VAR1 }} {{ env.VAR2 }} {{ env.VAR3 }}"
- echo "{{ vars.VAR1 }} {{ vars.VAR2 }} {{ vars.VAR3 }}"
The output will be (excluding debug output):
$ mom test1
env1 test1_env2 test1_env3
var1 test1_var2 test1_var3
env1 test1_env2 test1_env3
var1 test1_var2 test1_var3
env1 subtask_env2 test2_env3
var1 subtask_var2 test2_var3
This might be a bit confusing, so let's explain the output:
env1 test1_env2 test1_env3
var1 test1_var2 test1_var3
This is the output of the first two commands in the test1
task. ENV1
and VAR1
are only defined in the file, while the
task overrides ENV2
, ENV3
, VAR2
and VAR3
.
env1 test1_env2 test1_env3
var1 test1_var2 test1_var3
This is the output of the third command in the test1
task, which calls test2
. Again, ENV1
and VAR1
are only defined in the file.
Even though test2
overrides ENV2
, ENV3
, VAR2
and VAR3
, the values defined in test1
, the parent task, take precedence.
env1 subtask_env2 test2_env3
var1 subtask_var2 test2_var3
This is the output of the fourth command in the test1
task, which calls a subtask. ENV1
and VAR1
are only defined in the file.
While it might seem like we are calling task2
, we actually defined a new task that inherits from task2
and overrides ENV2
and VAR2
.
Therefore, the values inherited from task2
will take precedence over the parent task.
Some task properties support shell-like expansion. The following characters are expanded:
~
: The home directory.$VAR
: The value of the environment variable VAR
.${VAR}
: The value of the environment variable VAR
.Note that while environment variables can be expanded this way, they will not be available in tera templates. I.e.
{{ $VAR }}
will raise an error. You can use instead {{ env.VAR }}
. See also [env] (#env).
The following task properties support shell expansion:
The template engine used is Tera. The syntax is based on Jinja2 and Django templates. The docs contain all the information needed and is very straightforward, so won't repeat it here. Just ignore the rust specific parts.
See also:
Exclude a value from a list or map. The value can be a string, or a list of strings.
Example:
tasks:
test:
vars:
var1: "value1"
var2: "value2"
var3: "value3"
script: echo "{{ env | exclude(val='var2') | json_encode() }} {{ [1, 2, 3] | exclude(val=2) }}"
Output:
$ mom test
{"var1": "value1", "var3": "value3"} [1, 3]
Asks for user input. Takes a label
and a default
argument. While label
must be a string,
default
can be any type.
An if
argument can also be provided, which must be a boolean, and must be accompanied by a
default
argument. If if
is false
, the default
argument will be returned without asking
for user input. This is a shorthand for if
statements in the template.
Example:
tasks:
test:
script: echo "{{ input(label='What is your name?', default='John Doe') }}"
Output:
$ mom test
What is your name? [John Doe]:
tasks:
test:
script: echo "{{ input(label='What is your name?', default='John Doe', if=args is containing("--default")) }}"
$ mom test --default
John Doe
⚠️Warning: If used in a script, the password will still be added in plain text to the script file. Use with caution.
Like input, but the input is not echoed to the terminal.
We override the default implementation so that this method also returns the environment variables
defined in the mom file, which take precedence over system environment variables. Takes a name
argument which must be a string, and an optional default
argument which can be any type.
Example:
tasks:
test:
script: echo "{{ get_env(name='VAR1', default='default') }}"
Output:
$ mom test
default
$ VAR1="value1"
$ mom test
value1
Contributions welcome! Please read the contributing guidelines first.