# bpkg _JavaScript has npm, Ruby has Gems, Python has pip and now Shell has bpkg!_ `bpkg` is a lightweight bash package manager. It takes care of fetching the shell scripts, installing them appropriately, setting the execution permission and more. You can install shell scripts globally (on `/usr/local/bin`) or use them on a _per-project basis_ (on `./deps/`), as a lazy-man "copy and paste". ## Install You can install `bpkg` from three distinct ways: ### 0. Dependencies * [curl](http://curl.haxx.se/) * [coreutils](https://www.gnu.org/software/coreutils/) ### 1. Install script Our install script is the simplest way. It takes care of everything for you, placing `bpkg` and related scripts on `/usr/local/bin`. Paste the following on your shell and you're good to go: ```sh $ curl -Lo- http://get.bpkg.io | bash ``` ### 2. clib [clib][clib] is a package manager for C projects. If you already have it, installing `bpkg` is a simple matter of: ```sh $ clib install bpkg/bpkg ``` ### 3. Source Code To directly install `bpkg` from it's source code you have to clone it's repository and install with `make`: ```sh $ git clone https://github.com/bpkg/bpkg.git $ cd bpkg $ make install ``` Or in a directory with user write permission, like `$HOME/opt/bin` ```sh $ git clone https://github.com/bpkg/bpkg.git $ cd bpkg $ PREFIX=$HOME/opt make install ``` ## Usage You use `bpkg` by simply sending commands, pretty much like `npm` or `pip`. ### Installing packages Packages can either be global (on `/usr/local/bin`) or local (under `./deps`). For example, here's a **global install** of the [term package][term]: ```sh $ bpkg install term -g $ term ``` And the same package as a **local install**: ```sh $ bpkg install term $ ./deps/term/term.sh ``` After a local install the `term.sh` script is copied as `term` to the `deps/bin` directory, you can add this directory to the `PATH` with ```sh export PATH=$PATH:/path_to_bkpg/deps/bin ``` As a bonus, you can specify a **specific version**: ```sh $ bpkg install jwerle/suggest.sh@0.0.1 -g ``` **Note:** to do that the packages **must be tagged releases** on the repository. You can also *install packages without a `package.json`*. As long as there is a `Makefile` in the repository it will try to invoke `make install` as long as the `-g` or `--global` flags are set when invoking `bpkg install`. For example you could install [git-standup](https://github.com/stephenmathieson/git-standup) with an omitted `package.json` because of the `Makefile` and the `install` target found in it. ```sh $ bpkg install stephenmathieson/git-standup -g info: Using latest (master) warn: Package doesn't exist warn: Mssing build script warn: Trying `make install'... info: install: `make install' cp -f git-standup /usr/local/bin ``` ### Retrieving package info After installing a package, you can obtain info from it using `bpkg`. Supposing you're on the root of a package directory, the following commands show that package metadata: ```sh # Asking for single information $ bpkg package name "bpkg" $ bpkg package version "0.0.5" # Dumping all the metadata $ bpkg package ["name"] "bpkg" ["version"] "0.0.5" ["description"] "Lightweight bash package manager" ["global"] true ["install"] "make install" ``` ## Package details Here we lay down some info on the structure of a package. ## package.json Every package must have a file called `package.json`; it specifies package metadata on the [JSON format][json]. Here's an example of a well-formed `package.json`: ```json { "name": "term", "version": "0.0.1", "description": "Terminal utility functions", "scripts": [ "term.sh" ], "install": "make install" } ``` All fields are mandatory except when noted. Here's a detailed explanation on all fields: ### name The `name` attribute is required as it is used to tell `bpkg` where to put it in the `deps/` directory in you project. ```json "name": "my-script" ``` ### version (optional) The `version` attribute is not required but can be useful. It should correspond to the version that is associated with the installed package. ```json "version": "0.0.1" ``` ### description A human readable description of what the package offers for functionality. ```json "description": "This script makes monkeys jump out of your keyboard" ``` ### global Indicates that the package is only intended to be install as a script. This allows the ommition of the `-g` or `--global` flag during installation. ```json "global": "true" ``` ### install Shell script used to invoke in the install script. This is required if the `global` attribute is set to `true` or if the `-g` or `--global` flags are provided. ```json "install": "make install" ``` ### scripts This is an array of scripts that will be installed into a project. ```json "scripts": ["script.sh"] ``` ## Packaging best practices These are guidelines that we strongly encourage developers to follow. ### Package exports It's nice to have a bash package that can be used in the terminal and also be invoked as a command line function. To achieve this the exporting of your functionality *should* follow this pattern: ```sh if [[ ${BASH_SOURCE[0]} != $0 ]]; then export -f my_script else my_script "${@}" exit $? fi ``` This allows a user to `source` your script or invoke as a script. ```sh # Running as a script $ ./my_script.sh some args --blah # Sourcing the script $ source my_script.sh $ my_script some more args --blah ``` ## Sponsors **bpkg** wouldn't be where it is today without the help of its authors, contributors, and sponsors: * [@littlstar](https://github.com/littlstar) ([littlstar.com](https://littlstar.com)) * [@spotify](https://github.com/spotify) ([spotify.com](https://spotify.com)) ## License `bpkg` is released under the **MIT license**. See file `LICENSE` for a more detailed description of it's terms. [clib]: https://github.com/clibs/clib [term]: https://github.com/bpkg/term [json]: http://json.org/example