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Tebako: An advanced image packager for interpretive languages

Platform tests on GitHub: Ubuntu amd64 Alpine macOS amd64 Windows msys

Platform tests on Cirrus: Ubuntu aarch64

Tools tests on GitHub: Tebako cobtainers

Quality: lint and rspec Tebako cli rspec coverage

Purpose

Tebako is an advanced executable packager designed for applications written in interpretive languages.

It simplifies distribution and deployment by packaging your entire project with a bundled runtime into a single, performant, executable binary.

Architecture

A Tebako-packaged binary is effectively a self-executing container-in-a-file.

The packaged binary contains the following components:

  • An on-file filesystem (OFFS) containing all the project files and dependencies in DwarFS format.

  • A runtime environment that includes the necessary libraries and interpreters, with patched filesystem calls that redirect access of project files to the on-file filesystem.

  • An executable loader that loads the on-file filesystem in memory and executes the project.

Supported runtimes, platforms and architectures

Tebako artifacts can be built and executed on the following platforms and architectures.

Table 1. Supported platforms and architectures
Platform and version Architectures Build system

Linux

Ubuntu 20.04

amd64, aarch64

gcc/g++: 10; clang/clang++: 12

Alpine 3.17

amd64

gcc/g++: default; clang/clang++: default

macOS

macOS 13 (Ventura)

amd64, arm64

tested agains xcode: [14.3.1]

macOS 14 (Sonoma)

amd64, arm64

tested agains xcode: [15.0.1, 15.4]

macOS 15 (Sequoia)

amd64, arm64

tested agains xcode: [16.1]

Windows

Windows 10

amd64

MinGW ucrt64

Windows 11

amd64

MinGW ucrt64

Windows Server 2019

amd64

MinGW ucrt64

Windows Server 2022

amd64

MinGW ucrt64

Note

Windows build caveats:

  • Tebako may face errors related to CMake path length limitations (https://gitlab.kitware.com/cmake/cmake/-/issues/25936). This error may affect not tebako itself but the gems that need to be package and use CMake to build native extensions. There is no workaround for this issue as it looks like is a limitation of the manifest used to build CMake executable.

  • MSys strip utility creates broken executable when tebako image is processed. Linking with '-s' flag produces unusable executables as well. Until this issue (#172) is resolved we plan to produce an Windows executable with debug information unstripped. You can opt to run 'strip -S' manually, it most cases it works.

MacOS build caveats:

  • We saw clang compiler segmentaion fault when during packaging of very large projects with XCode 14.3.1 This issue is not reproducible with XCode 15.0.1 or higher.

Table 2. Supported Ruby versions
Ruby version Supported platforms

2.7.8

Linux, macOS

3.0.7

Linux, macOS

3.1.6

Linux, macOS, Windows

3.2.{4,5}

Linux, macOS, Windows

3.3.{3,4,5}

Linux, macOS, Windows

Note
Our goal is to support all maintained Ruby releases, including minor versions.

Package portability

General

Tebako packages are designed to be "forward portable" across different operating systems and architectures to allow for easy distribution and deployment.

Forward portability means that a package created on a specific platform can be executed on a newer version of the same platform.

macOS

macOS packages are forward portable across different macOS versions.

A Tebako executable package built on macOS 13 (Ventura) can be executed on macOS 14 (Sonoma), but not vice versa.

x86_64 macOS packages can be run on Apple M (ARM) systems.

Linux distributions using musl

Packages built for the musl implementation of the C standard library (such as Alpine Linux) are forward portable.

A Tebako executable package built on Alpine 3.17 can be executed on Alpine 3.19.

Usage of the Tebako Docker containers for packaging is encouraged since it eliminates the effort needed for toolchain setup and configuration.

Linux distributions using glibc

Packages built for the glibc implementation of the C standard library are forward portable if the --patchelf experimental option is enabled.

The --patchelf option allows these packages to be portable to Linux GNU distributions with GLIBC version 2.31 and above.

A Tebako executable package built on Ubuntu 20.04 with --patchelf option can be executed on Rocky Linux 9.

Usage of the Tebako Docker containers for packaging is encouraged since it eliminates the effort needed for toolchain setup and configuration.

Table 3. Minimum versions of GLIBC Linux distributions that support Tebako packages with forward portability
Distribution Minimal supported version GLIBC version

Ubuntu

20.04 (Focal Fossa)

GLIBC 2.31

Debian

11 (Bullseye)

GLIBC 2.31

Rocky Linux

9

GLIBC 2.34

Fedora

33

GLIBC 2.32

CentOS

9

GLIBC 2.34

Red Hat Enterprise Linux (RHEL)

9

GLIBC 2.34

Oracle Linux

9

GLIBC 2.34

Future plans

  • Downloading new DwarFS images to be stored in the local home directory

  • Allowing loading multiple DwarFS images in a stacked way

  • Supporting a COW mechanism that the newly written files are stored in a separate image that can be loaded on top of the read-only file systems.

FAQ

Why use Tebako?

Tebako is particularly useful for developers who need to:

  • Distribute applications without requiring users to have specific runtimes installed.

  • Simplify the deployment process by packaging all dependencies into one binary.

  • Ensure consistency across different environments by using a single executable.

  • Flexibility to support different runtime versions on the user’s machine.

How do I know I need Tebako?

You might need Tebako if you:

  • Want to package your application into a single, self-contained binary.

  • Want to avoid the complexities of managing runtime environments on target machines.

  • Distribute software to environments where installing runtimes and their dependencies is challenging.

  • Require a streamlined way to deliver applications to end-users.

  • Need to ensure that your application runs consistently across different environments and architectures.

What is DwarFS?

DwarFS is a fast, high compression read-only user-land file system designed for efficient storage and access of large collections of files.

It is used by Tebako to package applications into a compact and efficient format.

Tebako uses libdwarfs, the library form of DwarFS, developed for the Tebako project.

When is Tebako better than comparable solutions?

Tebako offers several advantages over comparable solutions for supported interpretive languages.

They are listed in order of the degree of virtualization below.

Tebako stands out by providing a lightweight runtime bundling approach that simplifies distribution and deployment while offering flexibility and efficiency.

It eliminates the need for users to have specific runtimes installed and ensures consistency across different environments.

With Tebako, you can package your entire project with a bundled runtime into a single, performant, executable binary.

Solution Pros Cons

Virtual machines (VMs)

  • Provides full isolation and compatibility across environments

  • Requires a separate VM installation for each application

  • Heavy resource consumption for virtualization

Docker

  • Provides portable containers

  • Isolates entire applications and their dependencies

  • Supports easy deployment and scalability

  • Requires Docker installation and management

  • Requires administrative rights on machine

  • Containerization overhead

Tebako

  • Packages all files and dependencies into a single binary

  • Supports multiple operating systems and architectures

  • Provides efficient packaging and execution with DwarFS

  • Offers security features like signing on macOS

  • Simplifies distribution and deployment

  • Native running speed

  • Initial packaging time longer than Ruby gems

  • Minor runtime overhead

Ruby Gems

  • Easy installation of Ruby libraries

  • Provides user-side version control and dependency management

  • Requires Ruby installation and gem management

  • Runtime execution dependent on the user’s installed Ruby version and gems

Usage

Command-line interface

Tebako works by packaging your project into a single executable binary that includes all the necessary dependencies.

The way to work with Tebako is through its command-line interface (CLI). It provides the following commands:

setup

Prepares the Tebako packaging environment.

press

Packages a project into a single executable binary.

clean

Removes Tebako artifacts.

clean_ruby

Removes Tebako Ruby artifacts.

hash

Calculates the Tebako script hash for use as a cache key in CI/CD environments.

extract

Extracts the filesystem from a Tebako package.

version

Displays the Tebako version.

help

Displays the help message.

Usage

General

Tebako can be used in two ways:

  • Through the Tebako container

  • Local installation

Please refer to the Installation section on how to install Tebako.

Installation

General

Installation of Tebako is only needed in order to package an application.

There is no need to install anything for users who run the packaged application.

Using Docker

General

If you have Docker installed and available, the easiest way to run Tebako is through the official Docker containers.

Docker containers with preinstalled Tebako packaging environments for Ubuntu and Alpine Linux are available at tebako-ci-containers.

Pull the container

Pull the Tebako container image.

docker pull ghcr.io/tamatebako/tebako-<container_tag>:latest
<container_tag>

is the desired image tag (e.g., ubuntu-20.04 or alpine-3.17).

Running Tebako commands in the container

Simply prefix the Tebako command with docker run and the container image.

docker run -v <application_folder>:/mnt/w \
  -t ghcr.io/tamatebako/tebako-<container_tag>:latest \
  tebako {command} {parameters}

Packaging from outside the container

To package your application from outside the container, just run a single Docker command.

This command mounts the application folder into the container and runs the tebako press command, specifying the application root, entry point, output location, and Ruby version.

docker run -v <application_folder>:/mnt/w \
  -t ghcr.io/tamatebako/tebako-<container_tag>:latest \
  tebako press <tebako-press-parameters>
<application_folder>

is the path to your application folder.

<container_tag>

is the desired image tag (e.g., ubuntu-20.04 or alpine-3.17).

Assume that you have a Ruby application in the fontist folder of the current directory.

You can package it to ./fontist-package using the following command:

docker run -v $PWD:/mnt/w \
  -t ghcr.io/tamatebako/tebako-ubuntu-20.04:latest \
  tebako press --root=/mnt/w/fontist --entry-point=fontist --output=/mnt/w/fontist-package --Ruby=3.2.4

Packaging from inside the container

It is also possible to package an application from inside the Tebako container.

Start and enter the container interactively.

docker run -it --rm -v <application_folder>:/mnt/w \
  ghcr.io/tamatebako/tebako-<container_tag>:latest bash
<application_folder>

is the path to your application folder.

<container_tag>

is the desired image tag (e.g., ubuntu-20.04 or alpine-3.17).

Once inside, run the tebako press command:

tebako press <tebako press parameters>

Assume that you have a Ruby application in the fontist folder of the current directory.

You can package it to ./fontist-package using the following command:

$ docker run -it --rm -v $PWD:/mnt/w ghcr.io/tamatebako/tebako-<container_tag>:latest bash

# Inside the container:
$ tebako press --root=/mnt/w/fontist --entry-point=fontist --output=/mnt/w/fontist-package --Ruby=3.2.4

Local installation

General

There are cases where Docker may not be suitable for your needs, such as:

  1. Admin privileges: Running Docker requires administrative privileges, which means Docker may not be available to users on their machines.

  2. Performance penalty: Docker introduces a performance penalty due to the overhead of running containers. This can be a concern when packaging complex applications that require heavy memory usage.

In such cases, you can choose to install Tebako locally.

Tebako is distributed as a Ruby gem. A Ruby environment is necessary.

$ gem install tebako

Prerequisites

These prerequisites are needed only for users who want to install Tebako on their machine and build all Tebako components locally.

If you use Docker, there is no need to set up these prerequisites.

Ubuntu 20.04
General

There are several prerequisites that need to be installed on Ubuntu 20.04 for Tebako to work correctly.

GNU C/C 10+ or Clang C/C 12+
apt install -y gcc-10 g++-10
update-alternatives --install /usr/bin/gcc gcc /usr/bin/gcc-10 10
update-alternatives --install /usr/bin/g++ g++ /usr/bin/g++-10 10

or

apt install -y clang-12
update-alternatives --install /usr/bin/clang clang /usr/bin/clang-12 150
update-alternatives --install /usr/bin/clang++ clang++ /usr/bin/clang++-12 150
CMake version 3.20+

Tebako requires CMake at a version of at least 3.20+.

If such CMake version is not available as a default package, set it up as follows.

Installing CMake 3.20+
apt-get remove --purge --auto-remove cmake
apt-get update
apt-get install -y software-properties-common lsb-release curl
apt-get clean all
curl https://apt.kitware.com/kitware-archive.sh | bash
apt-get install cmake
Other development tools and libraries
apt-get -y install sudo git curl build-essential pkg-config bison flex autoconf  \
   binutils-dev libevent-dev acl-dev libfmt-dev libjemalloc-dev libiberty-dev    \
   libdouble-conversion-dev liblz4-dev liblzma-dev libssl-dev libunwind-dev      \
   libboost-filesystem-dev libboost-program-options-dev libboost-system-dev      \
   libboost-iostreams-dev  libboost-date-time-dev libboost-context-dev           \
   libboost-regex-dev libboost-thread-dev libbrotli-dev libdwarf-dev libelf-dev  \
   libgoogle-glog-dev libffi-dev libgdbm-dev libyaml-dev libncurses-dev          \
   libreadline-dev libncurses-dev libreadline-dev ruby-dev ruby-bundler          \
   libutfcpp-dev
Alpine 3.17
General

There are several prerequisites that need to be installed on Alpine 3.17 for Tebako to work correctly.

APK packages

Run the following command to install all prerequisites.

apk --no-cache --upgrade add build-base cmake git bash autoconf boost-static   \
   boost-dev flex-dev bison make binutils-dev libevent-dev acl-dev sed python3 \
   pkgconfig lz4-dev openssl-dev zlib-dev xz ninja zip unzip curl libdwarf-dev \
   libunwind-dev gflags-dev elfutils-dev libevent-static openssl-libs-static   \
   lz4-static xz-dev zlib-static libunwind-static acl-static tar libffi-dev    \
   gdbm-dev yaml-dev yaml-static ncurses-dev ncurses-static readline-dev       \
   readline-static p7zip ruby-dev gcompat gettext-dev gperf brotli-dev         \
   brotli-static jemalloc-dev fmt-dev xz-static
macOS
General

There are several prerequisites that need to be installed on macOS for Tebako to work correctly.

The following instructions work for:

  • macOS 13 (Ventura) through macOS 15 (Sequoia)

Homebrew packages

We use Homebrew to install the necessary packages on macOS.

brew update
brew install gnu-sed bash pkg-config bison flex binutils libffi gdbm zlib \
  ncurses double-conversion boost jemalloc fmt glog libevent libsodium lz4 xz \
  libyaml openssl@3
brew bundle

Additionaly tebako repository includes Brewfile that can be used with brew bundle command.

brew bundle
Bison 3+

Tebako requires Bison 3+.

On macOS 14, the default Bison version is 2.3, and the Homebrew formula is keg-only, which means that the full path to the Bison binary must be used to utilize the correct version.

Run the following command prior to using Tebako, or add it into your shell profile.

jemalloc Library Build

The libdwarfs build script creates an additional jemalloc installation on macOS. This is done to satisfy the magic applied by folly during linking but uses a static library. If the library is created in an emulated environment (QEMU, Rosetta, etc.), there are known issues (jemalloc issue #1997) where jemalloc incorrectly defines the number of significant virtual address bits (lg-vaddr parameter).

These issues can be fixed by explicitly setting the --with-lg-vaddr parameter for the jemalloc build. We decided not to automate this since we do not feel that we can provide reasonable test coverage. Instead, our build script accepts the LG_VADDR environment variable and passes it to the jemalloc build as --with-lg-vaddr=${LG_VADDR}.

The LG_VADDR parameter specifies the number of significant virtual address bits, which can vary based on the CPU architecture and emulation status.

Simple script to set LG_VADDR. Please note that it is provided for illustration only.

#!/bin/bash

# Check the CPU architecture
ARCH=$(uname -m)

# Check if running under Rosetta 2 emulation
if [[ "$ARCH" == "x86_64" && $(sysctl -n sysctl.proc_translated) == "1" ]]; then
  echo "Running on Apple Silicon under Rosetta 2 emulation"
  export LG_VADDR=39
elif [[ "$ARCH" == "arm64" ]]; then
  echo "Running on Apple Silicon"
  export LG_VADDR=39
else
  echo "Running on Intel Silicon"
  export LG_VADDR=48
fi

echo "Setting lg-vaddr to $LG_VADDR"
export PATH="$(brew --prefix bison)/bin:$PATH"
Windows
General

The following instructions work for:

  • Windows 10, 11

  • Windows Server 2019, 2022

Ruby

To run Tebako you need to have Ruby installed. It is simplest to use the Ruby development environment provided by RubyInstaller.

For example, Ruby+Devkit 3.1.4-1.

MinGW ucrt64

Enable MinGW ucrt64 and install the necessary packages.

The ridk command originates from the RubyInstaller installation.

$ ridk enable ucrt64
$ pacman -S git tar bison flex toolchain make cmake
          boost diffutils libevent double-conversion
          fmt glog dlfcn gtest autotools ncurses libyaml

Packaging

Tebako root folder (aka prefix) selection

The Tebako prefix determines the base directory for the Tebako setup.

It is an essential part of configuring how Tebako operates within your system.

The selection of the Tebako prefix follows a specific order of precedence to ensure flexibility and ease of use:

  1. User-specified prefix: The most direct way to set the root folder is by specifying it through a command-line argument.

  2. Current Working Directory (PWD): If the prefix option is explicitly set to PWD, Tebako uses the current working directory as Tebako root folder.

  3. Environment variable (TEBAKO_PREFIX): In the absence of a user-specified option, Tebako looks for an environment variable named TEBAKO_PREFIX. If found, its value is used as the root folder.

  4. Default value: If no prefix is specified and the TEBAKO_DIR environment variable is not set, Tebako defaults to using a directory named .tebako in the user’s home directory.

Path Expansion: Regardless of the method used to set the Tebako prefix, Tebako expands the provided path to an absolute path. This expansion includes resolving relative paths based on the current working directory and expanding user directory shortcuts like ~.

Commands

Tebako provides several commands to manage the packaging and deployment process.

Press

This command "presses" a Ruby project using the Tebako components built in the Tebako root folder (<tebako-root-folder>).

Note

The first invocation of the press command can take up to an hour as it sets up the packaging environment and collects the required dependencies. Subsequent invocations are much faster.

Upon the next invocation tebako will use previously created packaging environment. The press process itself takes minutes.

You can manage setup of packaging environment manually; please refer to description of setup and clean commands below.

tebako press \
  -e|--entry-point=<entry-point> \
  -r|--root=<project-root-folder> \
  [-p|--prefix=<tebako-root-folder>] \
  [-R|--Ruby=<ruby-version>] \
  [-o|--output=<packaged-file-name>] \
  [-l|--log-level=<error|warn|debug|trace>] \
  [-c|--cwd=<package current working directory>]
  [-D|--devmode] \
  [-P|--patchelf] \
  [-t|--tebafile=<path-to-tebafile>]

Where:

<tebako-root-folder>

the Tebako root folder (see details in the Tebako Root Folder Selection section)

Ruby

this parameter defines Ruby version that will be packaged (optional, defaults to 3.1.6)

project-root

a folder at the host source file system where project files are located

entry-point

an executable file (binary executable or script) that shall be started when packaged file is called

output

the output file name (optional, defaults to <current folder>/<entry point base name>)

log-level

logging level for the Tebako built-in memory filesystem driver (optional, defaults to error)

cwd

a folder within Tebako memfs where the packaged application will start. This folder should be specified relative to the memfs root. If not provided, the application will start within the current folder of the host (i.e., at $PWD). This option is required because it is not possible to change the directory to a memfs folder until the package is started, as opposed to any host folder that can be set as the current directory before Tebako package invocation. Tebako saves original working directory in a global Ruby variable $tebako_original_pwd.

devmode

flag that activates development mode, in which Tebako’s cache and packaging consistency checks are relaxed.

patchelf

flag that removal a reference to GLIBC_PRIVATE version of libpthread from tebako package. This allows Linux Gnu packages to run against versions of libpthread that differ from the version used for packaging. For example, package created at Ubuntu 20 system can be used on Ubuntu 22. This option makes sense and works on Gnu Linux only. The feature is exeprimental, we may consider other approach in the future.

tebafile

the tebako configuration file (optional, defaults to $PWD/.tebako.yml). Please refer to the separate section below for tebafile description.

NOTES: * Development mode is not intended for production use and should only be used during development. * entry-point and project-root-folder are required parameters and may be provided either via command-line or in tebafile.

tebako press \
  --root='~/projects/myproject' \
  --entry=start.rb \
  --output=/temp/myproject.tebako

Setup

This command sets up the Tebako packaging environment.

Collects required packages, builds the and creates packaging environment. This is a lengthy task that can take significant time, up to 1 hour.

Tebako supports several configurations at a single system given that their root directories differ and multiple Ruby versions within single configuration

This command is optional, tebako creates packaging environment automatically upon the first invocation of press command.

However, if you plan to use tebako in CI/CD environment with caching it is highly recommended to build cache based on tebako setup output. Building cache based on tebako press may create inconsistent environment upon restore.

$ tebako setup \
  [-p|--prefix=<tebako-root-folder>] \
  [-R|--Ruby=<ruby-version>] \
  [-D|--devmode] \
  [-t|--tebafile=<path-to-tebafile>]

Where:

<tebako-root-folder>

the Tebako root folder (see details in the Tebako Root Folder Selection section)

Ruby

parameter defines Ruby version that will be packaged (optional, defaults to 3.1.6)

tebafile

the tebako configuration file (optional, defaults to $PWD/.tebako.yml). Please refer to the separate section below for tebafile description.

devmode

flag activates development mode, in which Tebako’s cache and packaging consistency checks are relaxed. Please note that this mode is not intended for production use and should only be used during development.

Clean

This command cleans up all Tebako artifacts in the specified prefix directory.

Note
These artifacts are created by the setup and press commands. Normally you do not need to do it since tebako packager optimizes artifacts lifecycle on its own.
$ tebako clean \
  [-p|--prefix=<tebako-root-folder>] \
  [-t|--tebafile=<path-to-tebafile>]

Where:

<tebako-root-folder>

the Tebako root folder (see details in the Tebako Root Folder Selection section)

tebafile

the tebako configuration file (optional, defaults to $PWD/.tebako.yml). Please refer to the separate section below for tebafile description.

tebako clean --prefix='~/.tebako'

Clean Ruby

This command cleans up only the Ruby artifacts from the specified prefix directory.

Note
These artifacts are created by the setup and press commands. Normally you do not need to do it, since Tebako packager optimizes artifacts lifecycle on its own.
Note
Compiled DwarFS libraries are not cleaned.
$ tebako clean_ruby
  [-p|--prefix=<tebako-root-folder>] \
  [-R|--Ruby=<ruby-version>] \
  [-t|--tebafile=<path-to-tebafile>]

Where:

<tebako-root-folder>

the Tebako setup folder (optional, defaults to current folder)

Ruby

defines Ruby version that will cleaned (optional, cleans all versions by default)

tebafile

the tebako configuration file (optional, defaults to $PWD/.tebako.yml). Please refer to the separate section below for tebafile description.

tebako clean_ruby --prefix='~/.tebako'

Build script hash

This command outputs a hash value for the Tebako build script, which can be used as a cache key in CI/CD pipelines.

$ tebako hash

Tebako configuration file

It is possible to provide all or some options for the tebako setup/press/clean/clean_ruby commands via Tebako configuration file ('tebafile'). Tebafile is a YAML file with a single section 'options'. The options are the same as long names for the command line. For, example for the prefix option

-p|--prefix=<tebako-root-folder>

the key in the YAML file would be 'prefix'.

Below is an example tebafile that sets values for prefix and Ruby options

options:
  prefix: /tmp/tebako
  Ruby: 3.2.4

Please note that the options provided on the command line have preference over tebafile settings.

Exit codes

The Tebako CLI exits with different exit codes to indicate the status of the operation. The following table lists the possible exit codes and their meanings.

Table 4. Tebako CLI exit codes
Code Condition

0

No error

1

Invalid command line

101

tebako setup failed at configuration step

102

tebako setup failed at build step

103

tebako press failed at configuration step

104

tebako press failed at build step

253

Unsupported Ruby version

254

Unsupported operating systems

255

Internal error

Packaging scenarios with Ruby

Tebako for Ruby supports the following packaging scenarios.

This is high-level description of the Tebako Ruby packaging mechanism.

Note
These scenarios were inspired by the ruby-packer approach.
Note
Tebako Ruby is created independently from ruby-packer, no line of code was copied from ruby-packer.

Depending on the configuration files that are present in the root project folder, the Tebako Ruby packager supports different packaging scenarios.

These scenarios differ in what files are packaged and where the entry point is located.

Here is a summary of the scenarios:

Scenario Description Packaging Entry point *.gemspec Gemfile *.gem

1

Simple ruby script

Copy <project-root> with all sub-folders to packaged filesystem

<mount_point>/local/<entry_point base name>

No

No

No

2

Packaged gem

Install the gem with gem install to packaged filesystem

<mount_point>/bin/<entry_point base name> (i.e., binstub is expected)

No

No

One

3

Gem source, no bundler

  1. Build the gem using gem build command at the host

  2. Install it with gem install to packaged filesystem

<mount_point>/bin/<entry_point base name> (i.e., binstub is expected)

One

No

Any

4

Gem source, bundler

  1. Collect dependencies at the host with bundle install

  2. Build the gem using gem build command

  3. Install it with gem install to packaged file system

<mount_point>/bin/<entry_point base name> (i.e., binstub is expected)

One

One

Any

5

Rails project

Deploy project to packaged filesystem using bundle install

<mount_point>/local/<entry_point base name>

No

One

Any

Error

Error: Two or more *.gem files present

-

-

No

No

Two or more

Error

Error: Two or more *.gemspec files present

-

-

Two or more

Any

Any

These scenarios determine how the project is packaged and where the entry point is located within the packaged filesystem.

Run-time options

Generally Tebako package passes command line options to the packaged application

For example, if the package was created with the following command

tebako press \
  --root='~/projects/myproject' \
  --entry=start.rb \
  --output=/temp/myproject.tebako

running

/temp/myproject.tebako --option --parameter value

will be translated by Tebako bootstrap code to

myproject --option --parameter value

However there are several command-line parameters that are intercepted processed by Tebako bootstrap code as follows

Image extraction (--tebako-extract option)

Tebako provides an option to an extract its DwarFS filesystem from a package to a local folder for verification or execution.

$ <tebako-packaged-executable> --tebako-extract [<root folder for extracted filesystem>]

Where,

<root folder for extracted filesystem>

The root folder for the extracted filesystem (optional, defaults to source_filesystem)

Extracting Tebako content from the metanorma package:

metanorma --tebako-extract temp-image

The --tebako-extract option actually runs the following Ruby script:

require 'fileutils'
FileUtils.copy_entry '<in-memory filesystem root>', ARGV[2] || 'source_filesystem'

Mounting Host Folder to Tebako Memfs (--tebako-mount option)

Some programs unconditionally use folders located under the application root, and when processed by Tebako or similar tools, these folders are included in the packaging.

For example, there is no configuration option to change where Rails expects the tmp folder to be. The location is hardcoded in multiple places within the Rails codebase, residing under the application root, and as a result, it gets included in the read-only Tebako memfs. Although patches have been proposed (e.g., rails/rails#39583), there is currently no way to change the paths for temporary files, caches, and sockets.

To address this limitation in Rails and similar issues in other applications, Tebako provides an option to mount a host folder to the memfs tree.

When using Tebako, consider the packaging scenario mentioned above, as it defines the layout of the application tree. The --tebako-extract option may be useful for understanding the placement of files and folders.

The following command starts a rails.tebako package with $PWD/tmp mounted as local/tmp in the memfs. Any remaining command-line parameters are passed to the application.

rails.tebako --tebako-mount local/tmp:$PWD/tmp server

The --tebako-mount option has the following syntax:

--tebako-mount <memfs path>:<host path>

The --tebako-mount option can be repeated multiple times to mount more than one object. The memfs path is relative to the memfs root, and it is recommended to use absolute paths for host objects. Both directories and files can be mounted in this way. Tebako allows overlaying existing memfs objects, so there are no significant limitations.

Trivia: origin of name

"tamatebako" (玉手箱) is the treasure box given to Urashima Taro in the Ryugu, for which he was asked not to open if he wished to return. He opened the box upon the shock from his return that three hundred years has passed. Apparently what was stored in the box was his age.

This packager was made to store Ruby and its gems, and therefore named after the said treasure box (storing gems inside a treasure box).

Since "tamatebako" is rather long for the non-Japanese speaker, we use "tebako" (手箱, also "tehako") instead, the generic term for a personal box.

Contributing

We welcome contributions! Please see our contributing guidelines for more information.

License

Copyright Ribose. All rights reserved.

Tebako is released under the BSD 2-Clause License. See the LICENSE file for details.