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Synchronize and manage multiple GitHub repositories

Project description

Persist and create build out environments in a nascent account

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This program captures your home directory and synchronize it with another host using Git repo metadata, symbolic links and persisted files.

I wrote this because I couldn't find anything that creates repositories with the idea of having a portable and easy to recreate your home directory on another host. If I've reinvented the wheel, please let me know :)

More specifically: it persists and creates build out environments in a nascent account. The program memorizing a users home directory and building it out on another system (see overview). This is done by:

  1. Copying files, directories and git repos configuration.
  2. Creating a distribution compressed file.
  3. Uncompress on the destination system and create repos.

A future release will also synchronize and manage multiple GitHub repositories.

Table of Contents

Obtaining

The easist way to install the command line program is via the pip installer:

pip install zensols.grsync

Binaries are also available on pypi.

Overview

Not only is the aim to create a repproducable development (or like) environment, it is also to create a clean environment. This means we have temporary directories we might expect to exist for our process(es), and of course repositories cloned in their nascent state. These steps are summarized below:

  1. Freeze: This process captures the current host's setup and configuration (specified in the configuration file) and includes:
    • Empty directories.

    • Git repository meta data.

    • Locations of files to copy, top level directories of files to recursively copy, where symlinks are considered files as well and currently not followed. See caveat.

      A sub-step of this process is discover, which reads the file system as indicated by the configuration file. This includes reading git repostiory metadata, identifying file metadata (i.e. permissions) etc.

  2. Bootstraping: create an Python virtual environment on the target machine that can be loaded with this program and depenedencies. This is not a necessary step as the program is available as a pip install. However, if this step can be used to help automate new environments, after which, you could futher add/install software with tools such as Puppet.
  3. Thaw: This includes two steps:
  4. File Extraction: extracts the files from the distribution zip created in the freeze step.
  5. Repo Cloning: this step recursively clones all repositories.

Usage

The program has two phases: freeze and thaw (see overview). The command line program is used twice: first on the freeze on the source system and then thaw on the target machine.

First the distribution is created as a configuration file along with saved files in a distribution zip file. This distribution file is then copied to the target machine that is to be configured with the user's home directory setup. The distribution also includes a bootstrap script that creates a Python virtual environment and then invokes the program to thaw the distributing.

  1. Install the grsync program.

  2. Decide what you want to transfer to the target system (see configuration). This file explains each section of the file with inline comments and should be sufficient to munge your own.

  3. Create the distribution, for example: grsync freeze -c grsync.yml -d ./dist.

  4. Copy the distribution zip file to the host, for example: scp -r ./dist ~/<somehost>

  5. Log into that host: slogin <host>

  6. Call the bootstrapper: cd ./dist && ./bootstrap.sh /usr/bin ./dist python3.6 This attempts to create the Python virtual environment, install the program dependencies and thaw the distribution.

    To do this step manually:

    1. Install the grsync program.
    2. Thaw the distribution on the target: grsync thaw -d ./dist

Repository Information

As you build your grsync.yml configuration file, it's helpful to see what repositories it's finding. This is you can do this with the repos and repoinfo, which show repositories, remotes, and indexed symbol links to or within the repositories.

Command Line Help

This information is given by the command line grsync -h, but repeated here for convenience:

Usage: usage: grsync <list|freeze|info|repoinfo|repos|thaw> [options]

Options:
  --version             show program's version number and exit
  -h, --help            show this help message and exit
  -w NUMBER, --whine=NUMBER
						add verbosity to logging
  -c FILE, --config=FILE
						configuration file
Actions:
  freeze    Create a distribution
  -d, --distdir <string>                    the location of build out distribution
  --wheeldep <string>       zensols.grsync  used to create the wheel dep files
  -p, --profiles <string>                   comma spearated list of objects to freeze

  info      Pretty print discovery information

  repoinfo  Get information on repositories
  -n, --name <string>                       comma spearated list of repo names
  -p, --profiles <string>                   comma spearated list of objects to freeze

  repos     Output all repository top level info
  -f, --format <string>     {path}          format string (i.e. {name}: {path} ({remotes}))
  -p, --profiles <string>                   comma spearated list of objects to freeze

  thaw      Build out a distribution
  -d, --distdir <string>                    the location of build out distribution
  -t, --targetdir <string>                  the location of build out target dir
  -p, --profiles <string>                   comma spearated list of objects to freeze

Configuration

The configuration is used the freeze phase to create the distribution file. This fil contains all git repositories, files, empty directory paths on the current file system that is stored to be thawed on the target system.

The structure of the configuration file is not validated, and generally speaking, can be leveraged for variable substitution (see variable substitution. An overview of the structure follows:

  • discover: root
    • objects: a list of files, directories and repository directories.
    • empty_dirs: A list of directories.
    • target: contains information used during the thaw process on the target host.
      • config: the path to create this configuration file, which is optional and should not be given if already declared in as an object file entry.
      • links: a list of file path pattern symbolic links to create during the thaw (see links).
        • link: a specific link entry.
          • source: the source path at thaw time of the symbolic link.
          • target: the target path at thaw time of the symbolic link.
      • default_profiles: a comma-separated list of profile names (including nodefault) to be used when the command line option (-p) is not given. See profiles.
      • profiles: contains all profile definitions for this configuration file.
        • <any valid YAML string>: this profile name
          • objects: same as top level but pertains only to this profile.
          • empty_dirs: same as top level but pertains only to this profile.
      • repo: contains information used when thawing repositories.
        • remote_pref: the remote (and respective URL) to make the primary 'master' default repository when thawing the repository. This is helpful when there are more than one remotes.
    • wheel: instructs the program on what/how wheels are created during the freeze process.
      • create: if true create wheels.
    • local: specifies how to create the distribution during the freeze process.
      • dist_dir: the default directory to create the distribution (used when not specified on the command line with -d).
      • wheels_dir: the directory of where to create the wheels when wheel creation is turned on.
    • bootstrap: indicates target information used to create the bootstrap script/process.
      • inst_dir: install directory of the boot strap files on the target on thaw.
      • python_dir: where the virutal environment python directory is created.
      • wheel_dir: location of the wheels directory (if created during freeze) to be installed during bootstrap.

Variable Substitution

The configuration file can be leveraged for variable substitution using a ^{name} syntax where name is any dot (.) separated path. The discovery.codedir variable in the configuration file is an example of a variable with substituions in the objects entry. The exception to variable names in the configuration file are those given to define repositories, files, etc.

Links

Configuration link entries tell the program what symolic links to create. This is useful when you have a repository that keeps track of your confgiuration information on a per OS or host basis. For example, your ~/.profile might include different PATH set up on MacOS vs. Linux.

Variable substitution is allowed in both the source and target paths.

Profiles

Profiles allow you to generate a frozen distribution of a subset of declared repositories and files. The idea is similar [maven-profiles] with each having a top level name in the configuration that mirrors the same structure as under the discover level in the configuration file with entry profiles.

Profiles are always given in a comma-separated list to allow more than one profile to be added to the list of objects to freeze.

The order in which the program decides what profiles to use is (only one of) the following:

  1. Command line with option -p.
  2. Configuration file.
  3. All profiles.

Excluding Top Level Objects

The top level objects (i.e. objects and empty_dirs) are always added to the distribution with one exception: by excluding the default profile. The default profile is a special profile that includes all default objects to the distribution. If you don't want these top level elements, you can specify a special nodefault keyword.

Example Configuration

See the test case yaml file for an example of a simple configuration file to capture a set of git repositories and small set of files. Profiles are

Symbolic Links

As mentioned in the usage section, symbolic links pointing to any file in a repository are froozen, which means that integrity at thaw time is ensured. However, links not pointing to a repository are currently persisted, but the files and directories they point to are not.

A future release might have a follow symbolic links type functionality that allows this. However, for now, you must include both the link and the data it points to get this integrity.

Requirements

Planned Future Features

Preserve and restore file and directory timestamps.

Changelog

An extensive changelog is available here.

License

Copyright (c) 2018 Paul Landes

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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