ALPHA ONE Supports Windows, Linux and Mac

skylark-skynet combines together the services provided by skynet and integrates it with progress monitoring system --skywatch It provides an easy and efficient way to upload the files to remote storager services like amazon s3, or sftp servers.

• Can work with sftp, aws-s3 or any storage service you might want to use, provided that a con. class has been supplied.
• Uses polling to establish connection with the remote storage.
• Syncs files already present in the folder to be monitored.
• Init. _thread_watcher to monitor subsequent file system events in that dir.
• Init. _thread_handler to execute actions recorded in the Q.
• If the connection is lost at any point during exec, _thread_handler is halted and is only restarted when the con. has been re-estd.
• Sends notifications to a hostedDB when an action is enQ'd or an action is completed, using which you can remotely monitor actions. Sepearte Django-app in dev, will add the link to it when its completed.
• Supports resumable multipart uploads[aws-s3 only], for big files. Even if the transfer gets interrupted somehow, or your PC crashes mid-transfer, the upload won't start from the beginning.
• Also sends status updates for partial uploads, so you can monitor the progress of huge file uploads from anywhere.
• For any problems during execution, you can see the skynet.log file for debugging and figuring out exactly where things went wrong.
• Skytray is here. Everything at the click of a button. See logs, delete database, view progress, edit configurtion, open the directory being synced from one place. ^_^

• Watcher A thread that watches dir for FileSystemEvents and records actions corresponding to each one in a Q.
• Handler Handles the execution of the actions recorded by dispatching them to the XCon The connection class, also provides native implementation of the scheduled actions like _send, _delete, _move etc.
• Connection Class which is supplied to skynet which is responsible for actual interaction with the remote storage and must implement _send, _delete, _move methods.
• Notifier Sends notifications to Heroku-Postgres DB for monitoring progress remotely.
• Mapper Maps a local path to the remote storage.

The very first thing you need to do is cloning the repository and installing the required python-libraries. Make sure you're working with PYTHON 3.6.

• Cone the skylark-skynet repo.

• Install skynet using:

  $ python setup.py
  # Please not if your developing the module, USE the following cmd
  $ pip install -e . [<-- this little thing is important]
  # skynet will be installed in the EDITABLE mode, any changes you make
  # will reflect to your installation, makes deployment on other systems
  # much easier.
  

• On Linux, in your ~/.bashrc add the following line (for sending notifications)

  export DATABASE_URL=$(heroku config:get DATABASE_URL -a your-appname)
  

• On Windows, in your powershell,

  Env:DATABASE_URL=$(heroku config:get DATABASE_URL -a your-appname)
  

After you're done with that, now you need to configure your setup. You can do that by using cli. Navigate to the dir where you cloned the repo and execute the following command. Supported services are S3 and SFTP. The cli will guide you through the complete config for the service you selected. Should you screw the config during this, you can go ahead and edit the config file using any text editor. Refer to README.md, if you get stuck during the Sync Configration, because mapping can be tricky. Other than that, it's pretty straight forward.

• Run skynet

  $ skynet --config [SERVICE]
  

NOTE: You can aslo pass empty params, keep on pressing enter when you're done, go to the place where the config was saved and edit the config there.

• Run the skytray app --only after configuring skywatch.

  $ skytray
  

Now, that you have installed the skylark-skynet python package, you'll need to setup skywatch, --the Django-app for monitoring progress remotely.

We'll host this app on Heroku with Heroku-Postgres for our Database and Django for the web framework.

• Clone the skywatch repository. Register an app on heroku, attach a PostgresDB to it.

• In Linux, in your ~/.bashrc add the following line:

  export DATABASE_URL=$(heroku config:get DATABASE_URL -a your-appname)
  

• All systems go.

  $ python manage.py makemigrations
  $ python manage.py runserver
  

All Done? Now, we're ready. Just execute the following command.

$ skytray

You'll see a paper-plane icon where your system tray is located. If the configuration is invalid, some options maybe greyed out. You see the log for further details right from the tray and edit the config accordingly.

Every FileSystemEvent has a corresponding action associated with it, which is enQ'd in the Q, when that event takes place. There are only 3 types of actions for handling all the events, namely --[send], [delete], [move].

# [send] action, with args src_path
self._q.put({'action': 'send', 'src_path': event.src_path})
# [delete]] action, with args src_path
self._q.put({'action': 'delete', 'src_path': event.src_path})
# [move] action with args src_path and dest_path
self._q.put({'action': 'move', 'src_path': event.src_path,
              'dest_path': event.dest_path})

NOTE: self._q here is an instance of the Q class [UniqueQ] which has been further explained below.

Our Q is an SQLiteDB based Q which makes it fault-tolerant and recoverable. Not only that, one of the majore reasons that out of all possible SQLiteDB based Qs, this one was selected because of one very special reason --it does not allow duplicate entries.

from persistqueue import UniqueQ as Q
# NOTE:
#   auto_commit value depends on what you're trying to achieve
self._q = Q(path=db_path, auto_commit=True, multithreading=True)

• Disk Based Q which ensures that each queued action is backed-up onto the disk, in case of crashes or should we decide to pause the process or shut-down the PC.
• Thread Safe Can be simultaneously used by producers, i.e. our watcher and consumers, i.e. our handler as it ensures atomicity and consistency.
• Recoverable Stores actions onto the disk which makes sure that they can be executed after the process restarts from any interruption or crash.
• Avoids Producer-Consumer problem.

• Syncs files already present in the folder to be synced by adding all file paths to the Q.
• It is only called once for each mapping --if a DB corresponding to the Q for that mapping exists, then we donot add any actions to the Q.
• _first_sync method simply picks up all the file paths present in that folder and adds a 'send' action to the Q.

• _thread_watcher keeps on monitoring the dir even when the _thread_handler is stopped, that is, it runs even in case of connection loss b/w the local machine and the remote storage.

• _thread_watcher enQ's an action corresponding to a FileSystemEvent as described below:

  • Directory Modification The mtime (modification time) of the directory changes only when a file or a subdirectory is added, removed or renamed. Modifying the contents of a file within the directory does not change the directory itself, nor does updating the modified times of a file or a subdir. Thus, if a dir is modified , no action will be taken. However, if a file is modified, we will send a the whole file, which will be overwritten in the remote dir.

  • File Modification Resending the whole file is a viable option, because:

    • Images have small sizes.
    • Videos will not be modified - video processing will be done by the processing team.

  • File Creation Transfer the file.

  • Dir Creation No need to take any record any action corresponding to creation of a directory, because the dir will be automatically created when we transfer a file from within this directory, --as we make sure that the mapped remote_path on the remote storage exists. If it does not, we simply create the necessayr parent dirs.

  • Resource Moved If a resource [file/dir] is moved inside the local dir which is being monitored, we simply mimic the move on the remote SFTP server. But first we make sure that the path leading up to the new destination of the resource, exists, --if not we create the parent dirs as needed.

  • Resource Deletion If a resource [file/dir] is deleted in the local dir which is being monitored, those files will be deleted on the rmote storage only if the complete-sync mode is set to True, otherwise the deleted files will be retained on the remote storage.

• Retreives the actions stored in the Q one by one and only commits the changes to the DB, if the action is successfull.
• However, if the execution ran into any error during execution, except for FileNotFoundError, _thread_handler is stopped.
• When the con. is re-estd. again, the _thread_handler recieves a new instance of the XCon class and it picks up from where it was stopped.

Example Say, we want to sync the folder x to the folder y on our remote storage. Let the alphabets represent a directory, then we can represent the paths as:

NOTE: Using -> to represent '/' in Linux and '\\' in Windows
Here,
  local_root = o->l
  remote_root = o->o->r
  local_dir = x
  remote_dir = y

Remote dir structure: [o->l->y]->...
                      [-------]
                       ^^^^^^^ this part, --forms your remote_base

Local dir structure: [o->o->r->x]->z->a
                     [----------]
                      ^^^^^^^^^^ this part, --forms your local_base

For tranfering a file in the dir x, we first strip its absolute path
of its local_base to obtain it's relative path.
For the sake of this example, let's say we want to transfer the dir a.
Then the relative path of 'a' to the local base will be: z->a

After this, we map this relative path to the remote dir by appending
this relative path to the remote_base.

After the transfer is complete,
Remote dir structure: [o->l->y]->z->a
                      [-------]
                       ^^^^^^^ this part, --forms your remote_base

'X' in XCon stands for the type of remote storage, for example SFTPCon, S3Con.

• Responsible for implementing _send, _move, _delete methods accordingly to the requirements and limitations of the remote storage.
• Do not handle any exceptions in this class, they'll be taken care of automatically, should they arise.

Whatever args you need to pass to the constructor, will be passed from the config file. So, some changes will have to be made in skynet.py.

# template for connection class
class XCon:
  def __init__(self, whatever's required):
    pass
  
  def _send(self, src_path, remote_path):
    pass

  def _delete(self, src_path):
    pass
          
  def _move(self, remote_src_path, remote_dest_path):
    pass

• The following represents a the checklist of changes that will need to be made:
  • Add service to --run-with arg, and gen and writing config to config.ini file.
  • A _get_x_con method to skynet.py, register it with _get_connection method.

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