Results for folder-json

Command line app that produces the MD5 hash of all files in a set of folders

The idea is to create a folder structure to better manage pieces of a CloudFormation deployment. Additionally, writing in JSON is hard, so the compiler takes YAML files as well.

The idea is to extract a big CloudFormation template into a folder structure to better manage pieces of a CloudFormation deployment. Additionally, writing in JSON is hard, so the decompiler can create YAML files as well.

$Id: README.txt 204 2010-11-30 02:20:04Z pwilkins $ sm-transcript reads results of SLS processing and produces transcripts for the SpokenMedia browser. For each file in the source folder whose extension matches the source type, a file of destination type is created in the destination folder. All of these parameters have default values. Note: Examples of the commands you enter in the terminal are for *nix. The command prompt in the examples is: felix$ <command line> If you are a Windows user, make the usual adjustments. Requirements: sm-transcript is written in Ruby and packaged as a RubyGem. Since Ruby is not a compiled language, you will need to have Ruby installed on your machine to run sm-transcript. You can determine if Ruby is installed by typing "ruby -v" at a terminal prompt. It should return the version of Ruby that is installed. If Ruby is not installed on your machine, navigate to http://www.ruby-lang.org/ and follow the installation instructions. sm-transcript was developed using Ruby 1.8. Other Ruby versions have not been tested as of this release. Installation: You can get sm-transcript as either a RubyGem or as source from svn. The preferred way to install this package is as a Rubygem. You can download and install the gem with this command: felix$ sudo gem install [--verbose] sm-transcript This command downloads the most recent version of the gem from rubygems.org and makes it active. Previous versions of the gem remain installed, but are deactivated. You must use "sudo" to properly install the gem. If you execute "gem install" (omitting the "sudo") the gem is installed in your home gem repository and it isn't in your path without additional configuration. Note: You need sudo privileges to run the command as written. If you can't sudo, then you can install it locally and will need some additional configuration. Contact me (or your local Ruby wizard) for assistance. The executable is now in your path. You can cleanly uninstall the gem with this command: felix$ sudo gem uninstall sm-transcript If you have access to our svn repository, you are welcome to check out the code. Be warned that the trunk tip is not necessarily stable. It changes frequently as enhancements (and bug fixes) are added. (note that the 'smb_transcript' in the command line below is not a typo.) svn co svn+ssh://svn.mit.edu/oeit-tsa/SMB/smb_transcript/trunk sm_transcript build the gem by running this command from the directory you installed the source. This is what it looks like on my machine: felix$ rake gem The gem will be built and put in ./pkg You can now use the gem installation instructions above. Using the App: Run with no command line parameters, the app reads *.wrd files out of ./results and writes *.t1.html files to ./transcripts. These directories are relative to where sm_transcript is called. Note: destination files are overwritten without a warning prompt. If you want to preserve an existing output file, rename it before running the app again. For example, run the app by navigating to the bin folder and enter projects/sm_transcript/bin felix$ sm_transcript This command run from this folder will read *.wrd files from bin/results and write *-t1.html to bin/transcripts. Usage: sm_transcript [options] --srcdir PATH Read files from this folder (Default: ./results) --destdir PATH Write files to this folder (Default: ./transcripts) --srctype wrd | seg | txt | ttml | srt Kind of file to process (Default: wrd) --desttype html | ttml | datajs | json Kind of file to output (Default: html) -h, --help Show this message There is a serious gotch'a in specifying the srctype parameter: it must match the case of the file extension that you're processing. This means that if the srt files that you are processing have the extension .SRT, then you must specify the srctype as "SRT". Pretty lame, I know. I will update the gem with a fix shortly. My apologies until then. Troubleshooting: sm-transcript requires additional gems to operate. The RubyGem installation should install dependencies automatically, but when it doesn't, you get an error that includes ... no such file to load -- builder (LoadError) in the first few lines when you run sm-transcript, the problem is a missing dependent gem. (the error above indicates that the Builder gem is missing.) Try installing the missing gem. For the error above, the command looks like this on my computer: felix$ sudo gem install builder See "Required Gems" below for more information. A warning message such as: "WARNING: Nokogiri was built against LibXML version 2.7.6, but has dynamically loaded 2.7.7"" may be safely ignored. If you continue to have trouble, feel free to contact me. Upgrading: You can easily upgrade by simply executing the same command you used to install the gem. Running install again will add the newer version and make it active. By default the most recent version is used, but older versions are still available, simply inactive. If are using svn, you should already know what to do. Required Gems: builder - create structured data, such as XML extensions - added for the 'require_relative' command. (To get this command in Ruby 1.8 you need to install this gem, for Ruby 1.9 the command is already part of the core.) htmlentities - html parsing json - create JSON structured data nokogiri - xml parsing library optparse - option parsing of command line ostruct - open data structures ppcommand - pp is a pretty printer. It is used only for debugging rake - make for Ruby rubygems - support for gems (shouldn't be needed for Ruby 1.9) shoulda - enhancement for Test::Unit This command installs gems on OSX and Linux: felix$ sudo gem install <gem name> I recommend running the following command to update to latest version of rubygems before loading new gems. felix$ sudo gem update --system Unit Tests: You may run all unit tests by navigating to the test folder and running rake with no parameters (the default rake task runs all tests). On my computer, it looks like this: projects/sm_transcript/test felix$ rake Release Notes: Initial Version - runs under Ruby 1.8.x. version 0.0.4 - fixes bug when processing .WRD files with CRLF line endings. version 0.0.5 - removed due to posting error version 0.0.6 - added srctype of ttml and desttype of json, fixed bug where beginning time of word was actually for previous word. version 0.0.7 - added srt as srctype version 0.0.8 - fixed bug that dropped last phrase from transcripts version 1.0.0 - declared this version 1.0.0 to conform more closely with gem numbering conventions. All tests run successfully. To Do: - specify individual files for processing rather than folders - fix bug in srt processing: can't read Creole srt content. - allow user to modify the "t1" file extension for addition languages of the same transcript. - update code to run under Ruby 1.9

RSence is a different and unique development model and software frameworks designed first-hand for real-time web applications. RSence consists of separate, but tigtly integrated data- and user interface frameworks. RSence could be classified as a thin server - thick client system. Applications and submobules are installed as indepenent plugin bundles into the plugins folder of a RSence environment, which in itself is a self-contained bundle. A big part of RSence itself is implemented as shared plugin bundles. The user interface framework of RSence is implemented in high-level user interface widget classes. The widget classes share a common foundation API and access the browser's native API's using an abstracted event- and element layer, which provides exceptional cross-browser compatibility. The data framework of RSence is a event-driven system, which synchronized shared values between the client and server. It's like a realtime bidirectional form-submission engine that handles data changes intelligently. On the client, changed values trigger events on user interface widgets. On the server, changed values trigger events on value responder methods of server plugin modules. It doesn't matter if the change originates on client or server, it's all synchronized and propagated automatically. The server framework is implemented as a high-level, modular data-event-driven system, which handles delegation of tasks impossible to implement using a client-only approach. Client sessions are selectively connected to other client sessions and legacy back-ends via the server by using the data framework. The client is written in Javascript and the server is written in Ruby. The client also supports CoffeeScript for custom logic. In many cases, no custom client logic is needed; the user interfaces can be defined in tree-like data models. By default, the models are parsed from YAML files, and other structured data formats are possible, including XML, JSON, databases or any custom logic capable of producing similar objects. The server can connect to custom environments and legacy backends accessible on the server, including software written in other languages.

Generates Xcode .xcassets ColorSet JSON files from color palette URLs. Extracts hex color codes embedded in URLs from palette tools such as: - Huemint (https://huemint.com) - RealtimeColors (https://realtimecolors.com) - Coolors (https://coolors.co) Any URL that encodes hex codes in its path or query string is supported. Dark mode variants are automatically calculated by inverting the HSL lightness of each light color — no manual dark palette needed. The generated Colors.xcassets folder can be dragged and dropped directly into Xcode's Assets catalog to use the colors in Swift/SwiftUI projects. Usage: colorset_generator "https://huemint.com/brand-2/#palette=2a3031-fafdfc-a19985" colorset_generator "https://coolors.co/c4f1be-a2c3a4-869d96-525b76-201e50" --output MyPalette.xcassets colorset_generator "https://www.realtimecolors.com/?colors=14140f-f8f8f6-9a9e79-aec4bd-8ea7ad" --no-dark

RSence is a different and unique development model and software frameworks designed first-hand for real-time web applications. RSence consists of separate, but tigtly integrated data- and user interface frameworks. RSence could be classified as a thin server - thick client system. Applications and submobules are installed as indepenent plugin bundles into the plugins folder of a RSence environment, which in itself is a self-contained bundle. A big part of RSence itself is implemented as shared plugin bundles. The user interface framework of RSence is implemented in high-level user interface widget classes. The widget classes share a common foundation API and access the browser's native API's using an abstracted event- and element layer, which provides exceptional cross-browser compatibility. The data framework of RSence is a event-driven system, which synchronized shared values between the client and server. It's like a realtime bidirectional form-submission engine that handles data changes intelligently. On the client, changed values trigger events on user interface widgets. On the server, changed values trigger events on value responder methods of server plugin modules. It doesn't matter if the change originates on client or server, it's all synchronized and propagated automatically. The server framework is implemented as a high-level, modular data-event-driven system, which handles delegation of tasks impossible to implement using a client-only approach. Client sessions are selectively connected to other client sessions and legacy back-ends via the server by using the data framework. The client is written in Javascript and the server is written in Ruby. The client also supports CoffeeScript for custom logic. In many cases, no custom client logic is needed; the user interfaces can be defined in tree-like data models. By default, the models are parsed from YAML files, and other structured data formats are possible, including XML, JSON, databases or any custom logic capable of producing similar objects. The server can connect to custom environments and legacy backends accessible on the server, including software written in other languages.

# SecureDataBag / Knife Secure Bag Knife Secure Bag provides a consistent interface to DataBagItem, EncryptedDataBagItem as well as the custom created SecureDataBagItem while also providing a few extra handy features to help in your DataBag workflows. SecureDataBagItem, can not only manage your existing DataBagItems and EncryptedDataBagItems, but it also provides you with a DataBag type which enables you to selectively encrypt only some of the fields in your DataBag thus allowing you to be able to search for the remaining fields. ## Installation To build and install the plugin add it your Gemfile or run: ```shell gem install secure_data_bag ``` ## Configuration #### Knife Secure Bag Defaults for the Knife command may be provided in your _knife.rb_ file. ```ruby knife[:secure_data_bag][:encrypted_keys] = %w( password ssh_keys ssh_ids public_keys private_keys keys secret ) knife[:secure_data_bag][:secret_file] = "#{local_dir}/secret.pem" knife[:secure_data_bag][:export_root] = "#{kitchen_dir}/data_bags" knife[:secure_data_bag][:export_on_upload] = true knife[:secure_data_bag][:defaults][:secrets][:export_format] = 'plain' ``` To break this up: `knife[:secure_data_bag][:encrypted_keys] = []` When Knife Secure Bag encrypts a hash with an _encryption format_ of *nested*, it will recursively walk through the hash from the bottom up and encrypt any key found within this array. `knife[:secure_data_bag][:secret_file]` When encryption is required, the shared secret found at this location will be loaded. `knife[:secure_data_bag][:export_root]` When exporting a data\_bag\_item, files will be created in below this root directory. Typically this would be the data\_bag folder located within your kitchen. `knife[:secure_data_bag][:export_on_upload]` When a data\_bag\_item is edited using `knife secure bag edit`, it may be automatically exported to the _export\_root_. `knife[:secure_data_bag][:defaults][:secrets][:export_format]` The configuration file additionally supports the _defaults_ hash which provides default values for all _command line arguments_ that one might use. Of all of them only the _export\_format_ key is likely to be of much use. ## Examples #### Chef cookbook recipe ```ruby metadata = {} # Define the keys we wish to encrypt metadata[:encrypted_keys] = %w(encoded) # Optionally load a specific shared secret. Otherwise, the global # encrypted\_data\_bag\_secret will be automatically used. secret_key = SecureDataBagItem.load_key("/path/to/secret") # Create a hash of data to use as an exampe raw_data = { id: "item", data_bag: "data_bag", encoded: "my string", unencoded: "other string" } # Instantiate a SecureDataBagItem from a hash item = SecureDataBagItem.from_hash(data, metadata) # Or more explicitely item = SecureDataBagItem.from_hash(data, encrypted_keys: %w(encoded)) # Or load from server item = SecureDataBagItem.load("data_bag", "item") # Print the un-encrypted raw data pp item.raw_data # Print the un-encrypted `encoded` key pp item['encoded'] # Print the encrypted hash as a data_bag_item hash pp item.to_hash =begin { id: "item", data_bag: "data_bag", encoded: { encrypted_data: "encoded", cipher: aes-256-cbc, iv: 13453453dkgfefg== version: 1 } unencoded: "other string", } =end ``` ## Usage #### Knife commands Print an DataBagItem, EncryptedDataBagItem or SecureDataBagItem, auto-detecting the encryption method used as plain text. ```shell knife secure bag show -F js secrets secret_item ``` Print an DataBagItem, EncryptedDataBagItem or SecureDataBagItem, auto-detecting the encryption method used as a SecureDataBagItem in encrypted format. ```shell knife secure bag show -F js secrets secret_item --enc-format nested ``` Edit an EncryptedDataBagItem, preserve it's encryption type, and export a copy to the _data\_bag_ folder in your kitchen. ```shell knife secure bag edit secrets secret_item --export ``` ## Knife SubCommands Most of the SubCommands support the following command-line options: `--enc-format [plain,encrypted,nested]` Ensure that, when displaying or uploading the data\_bag\_item, we forcibly encrypt the data\_bag\_item using the specified format instead of preserving the existing format. In this case: - plain: refers to a DataBagItem - encrypted: refers to an EnrytpedDataBagItem - nested: refers to a SecureDataBagItem `--dec-format [plain,encrypted,nested]` Attempt to decrypt the data\_bag\_item using the given format rather than the auto-detected one. The only real reason to use this is when you wish to specifically select _plain_ as the format so as to not decrypt the item. `--enc-keys key1,key2,key3` Provide a comma delimited list of hash keys which should be encrypted when encrypting the data\_bag\_item. This list will be concatenated with any key names listed in the configuration file or which were previously encrypted. `--export` Export the data\_bag\_item to json file in either of _export-format_ or _enc-format_. `--export-format` Overrides the encryption format only for the _export_ feature. `--export-root` Root directly under which a folder should exist for each _data_bag_ into which to export _data_bag_items_ as json files. When displaying the content of the _data\_bag\_item_, an additional key of *_secure_metadata* will be added to the output which contains gem specific metadata such as the encryption formats and any encrypted keys found. This key will _not_ be saved with the item, however it may be manipulated to alter the behavior of the _edit_ or _export_ commands. #### knife secure bag show DATA_BAG ITEM This command functions just like `knife data bag show` and is used to print out the content of either a DataBagItem, EncryptedDataBagItem or SecureDataBagItem. By default, it will auto-detect the Item type, and print it's unencrypted version to the terminal. This behavior, however, may be altered using the previously mentioned command line options. #### knife secure bag open PATH This commands functions much like `knife secure bag show`, however it is designed to load a _data\_bag\_item_ from disk as opposed to loading it from Chef server. This may be of use when view the content of an exported encrypted file. #### knife secure bag edit DATA_BAG DATA_BAG_ITEM This command functions just like `knife data bag edit` and is used to edit either a DataBagItem, EncryptedDataBagItem or a SecureDataBagItem. It supports all of the same options as `knife secure bag show`. #### knife secure bag from file DATA_BAG PATH This command functions just like `knife data bag from file` and is used to upload either a DataBagItem, EncryptedDataBagItem or a SecureDataBagItem. It supports all of the same options as `knife secure bag show`. ## Recipe DSL The gem additionally provides a few Recipe DSL methods which may be useful. ```ruby load_secure_item = secure_data_bag_item( data_bag_name, data_bag_item, cache: false ) load_plain_item = data_bag_item(data_bag_name, data_bag_item) convert_plain_to_secure = secure_data_bag_item!(load_plain_item) ```

Contentful API wrapper library exposing an ActiveRecord-like interface

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