http request .using for get,post,and post file.
Cookie management for the node request libary
Node request context let you save any context per request and easily retrieve it
Low-level HTTP/HTTPS/XHR request interception library for NodeJS
Get the URL origin from a Node request object.
Retry requests on common errors - Originally from @Nicklason/node-request-retry
A fast node request model, works very similar to `request` module but way faster and no dependencies.
Node request utils
SOA Node Request =================
Node request implementation
Constructs request.js options from swagger endpoint
Node Request-based API wrapper for the Kyruus API
Node request implementation
HTTP Node Request provider
Mock for node request module
y9-node-request
node-request
node-request-logger
node request & server module
A simple and stupid node request wrapper.
Node request manager for HTTP-based API clients
Tracks the download progress of a request made with mikeal/request, giving insight of various metrics including progress percent, download speed and time remaining
A light-weight module that brings Fetch API to node.js
TypeScript definitions for request
TeutonClient send evaluation requests to TeutonServer. Teuton Software is an infrastructure test application, that is installed into host called T-NODE. T-NODE user monitorize remote S-NODE users machines using Teuton. When a S-NODE user wants to be tested, must wait until T-NODE user launch manually Teuton test units. Or start TeutonServer and attend request automatically. Teuton client is used for S-NODE users, to send request to TeutonServer (T-NODE host). This way, S-NODE host is evaluated by the server at any time without T-NODE user intervention.
A simple way to create multiple nodes on any server to response on your Apify-Requests
RightAgent provides a foundation for running an agent on a server to interface in a secure fashion with other agents in the RightScale system using RightNet, which operates in either HTTP or AMQP mode. When using HTTP, RightAgent makes requests to RightApi servers and receives requests using long-polling or WebSockets via the RightNet router. To respond to requests it posts to the HTTP router. When using AMQP, RightAgent uses RabbitMQ as the message bus and the RightNet router as the routing node to make requests; to receives requests routed to it by the RightNet router, it establishes a queue on startup. The packets are structured to invoke services in the agent represented by actors and methods. The RightAgent may respond to these requests with a result packet that the router then routes to the originator.
`fingerpuppet` is a simple library and commandline tool to interact with Puppet's REST API without needing to have Puppet itself installed. This may be integrated, for example, into a provisioning tool to allow your provisioning process to remotely sign certificates of newly built systems. Alternatively, you could use it to request known facts about a node from your Puppet Master, or even to request a catalog for a node to, for example, perform acceptance testing against a new version of Puppet before upgrading your production master. Install the binford2k/fingerpuppet puppet module to get a class that can automatically configure your `auth.conf` file under Puppet Enterprise, where that file is managed.
Diggr is a ruby wrapper for the Digg API. Diggr strives to remain consistent with the Digg API endpoints listed here: http://apidoc.digg.com/CompleteList. Endpoints are created in Diggr with method calls. Each node in an endpoint becomes a method call and each node which is an argument becomes an argument to the previous method. As an example, the following endpoint /user/{user name} in which the user name is "johndoe" would be created with this Diggr call: diggr.user("johndoe") To send the request to the Digg API and retrieve the results of the call, Diggr requests are terminated in one of two ways. 1. Using the fetch method. By ending your request with the fetch method, your result will be returned to you. If the request is singular, you will receive a single object as a response. If the request is plural, you will receive a collection of objects stored in an array. 2. Using any Enumerable method. This works only on plural requests. In this case, it is unnecessary to use the fetch method. See the synopsis for examples of each of these types of calls. Options such as count or offset can be set using the options method and providing a hash of arguments. See synopsis for more information. Note: In an effort to remain consistent with the Digg API, some method names do not follow the ruby idiom of underscores. Although somewhat ugly, this allows a user to read the Digg API and understand the exact methods to call in Diggr to achieve their desired results.
Diggr is a ruby wrapper for the Digg API. Diggr strives to remain consistent with the Digg API endpoints listed here: http://apidoc.digg.com/CompleteList. Endpoints are created in Diggr with method calls. Each node in an endpoint becomes a method call and each node which is an argument becomes an argument to the previous method. As an example, the following endpoint /user/{user name} in which the user name is "johndoe" would be created with this Diggr call: diggr.user("johndoe") To send the request to the Digg API and retrieve the results of the call, Diggr requests are terminated in one of two ways. 1. Using the fetch method. By ending your request with the fetch method, your result will be returned to you. If the request is singular, you will receive a single object as a response. If the request is plural, you will receive a collection of objects stored in an array. 2. Using any Enumerable method. In this case, it is unnecessary to use the fetch method. See the synopsis for examples of each of these types of calls. Options such as count or offset can be set using the options method and providing a hash of arguments. See synopsis for more information. Note: In an effort to remain consistent with the Digg API, some method names do not follow the ruby idiom of underscores. Although somewhat ugly, this allows a user to read the Digg API and understand the exact methods to call in Diggr to achieve their desired results.
Diggr is a ruby wrapper for the Digg API. Diggr strives to remain consistent with the Digg API endpoints listed here: http://apidoc.digg.com/CompleteList. Endpoints are created in Diggr with method calls. Each node in an endpoint becomes a method call and each node which is an argument becomes an argument to the previous method. As an example, the following endpoint /user/{user name} in which the user name is "johndoe" would be created with this Diggr call: diggr.user("johndoe") To send the request to the Digg API and retrieve the results of the call, Diggr requests are terminated in one of two ways. 1. Using the fetch method. By ending your request with the fetch method, your result will be returned to you. If the request is singular, you will receive a single object as a response. If the request is plural, you will receive a collection of objects stored in an array. 2. Using any Enumerable method. In this case, it is unnecessary to use the fetch method. See the synopsis for examples of each of these types of calls. Options such as count or offset can be set using the options method and providing a hash of arguments. See synopsis for more information. Note: In an effort to remain consistent with the Digg API, some method names do not follow the ruby idiom of underscores. Although somewhat ugly, this allows a user to read the Digg API and understand the exact methods to call in Diggr to achieve their desired results.
You can communicate with Dkron using a RESTful JSON API over HTTP. Dkron nodes usually listen on port `8080` for API requests. All examples in this section assume that you've found a running leader at `localhost:8080`. Dkron implements a RESTful JSON API over HTTP to communicate with software clients. Dkron listens in port `8080` by default. All examples in this section assume that you're using the default port. Default API responses are unformatted JSON add the `pretty=true` param to format the response.
You can communicate with Dkron using a RESTful JSON API over HTTP. Dkron nodes usually listen on port `8080` for API requests. All examples in this section assume that you've found a running leader at `localhost:8080`. Dkron implements a RESTful JSON API over HTTP to communicate with software clients. Dkron listens in port `8080` by default. All examples in this section assume that you're using the default port. Default API responses are unformatted JSON add the `pretty=true` param to format the response.
# CheckChefConverge This is a Nagios/Sensu check that can check if nodes returned from a chef search have converged recently. ## Installation Add this line to your application's Gemfile: ```ruby gem 'check_chef_converge' ``` And then execute: $ bundle Or install it yourself as: $ gem install check_chef_converge ## Usage ``` Usage: check_chef_converge -w, --warn-minutes MINUTES Warning when chef has not converged in minutes.Default 65 -c, --crit-minutes MINUTES Critical when chef has not converged in minutes.Default 70 -q, --query SEARCH Chef query to filter on. Default 'fqdn:travis-work-mbp.local' --chef-client-config CONFIG Chef client configuration. --chef-server-url URL Chef Server URL. Must pass client-name and client-key or client-key-file with this option. --chef-client-name NAME Chef Client Name. Only used with server-url --chef-client-key KEY Chef Client Key (string). Only used with server-url. Takes precedence over client-key-file. --chef-client-key-file PATH Chef Client Key File. Only used with server-url -h, --help Show this message --version Show version ``` ## Development After checking out the repo, run `bin/setup` to install dependencies. Then, run `rake spec` to run the tests. You can also run `bin/console` for an interactive prompt that will allow you to experiment. To install this gem onto your local machine, run `bundle exec rake install`. To release a new version, update the version number in `version.rb`, and then run `bundle exec rake release`, which will create a git tag for the version, push git commits and tags, and push the `.gem` file to [rubygems.org](https://rubygems.org). ## Contributing Bug reports and pull requests are welcome on GitHub at https://github.com/Altiscale/check_chef_converge. This project is intended to be a safe, welcoming space for collaboration, and contributors are expected to adhere to the [Contributor Covenant](contributor-covenant.org) code of conduct.
http://www.engineyard.com/blog/2010/extending-rails-3-with-railties/ http://www.igvita.com/2010/08/04/rails-3-internals-railtie-creating-plugins/ h1. Morning Glory Morning Glory is comprised of a rake task and helper methods that manages the deployment of static assets into an Amazon CloudFront CDN's S3 Bucket, improving the performance of static assets on your Rails web applications. _NOTE: You will require an Amazon Web Services (AWS) account in order to use this gem. Specially: S3 for storing the files you wish to distribute, and CloudFront for CDN distribution of those files._ This version of Morning Glory works with Rails 3.x and Ruby 1.9.x h2. What does it do? Morning Glory provides an easy way to deploy Ruby on Rails application assets to the Amazon CloudFront CDN. It solves a number of common issues with S3/CloudFront. For instance, CloudFront won't automatically expire old assets stored on edge nodes when you redeploy new assets (the Cloudfront expiry time is 24 hours minimum). To fix this Morning Glory will automatically namespace asset releases for you, then update all references to those renamed assets within your stylesheets ensuring there are no broken asset links. It also provides a helper method to rewrite all standard Rails asset helper generated URLs to your CloudFront CDN distributions, as well as handling switching between HTTP and HTTPS. Morning Glory was also built with SASS (Syntactically Awesome Stylesheets) in mind. If you use Sass for your stylesheets they will automatically be built before deployment to the CDN. See http://sass-lang.com/ for more information on Sass.s h2. What it doesn't do Morning Glory cannot configure your CloudFront distributions for you automatically. You will manually have to login to your AWS Management Console account, "https://console.aws.amazon.com/cloudfront/home":https://console.aws.amazon.com/cloudfront/home, and set up a distribution pointing to an S3 Bucket. h2. Installation <pre> gem 'morning_glory' </pre> h2. Usage Morning Glory provides it's functionality via rake tasks. You'll need to specify the target rails environment configuration you want to deploy for by using the @RAILS_ENV={env}@ parameter (for example, @RAILS_ENV=production@). <pre> rake morning_glory:cloudfront:deploy RAILS_ENV={YOUR_TARGET_ENVIRONMENT} </pre> h2. Configuration h3. The Morning Glory configuration file, @config/morning_glory.yml@ You can specify a configuration section for every rails environment (production, staging, testing, development). This section can have the following properties defined: <pre> --- production: enabled: true # Is MorningGlory enabled for this environment? bucket: cdn.production.foo.com # The bucket to deploy your assets into s3_logging_enabled: true # Log the deployment to S3 revision: "20100317134627" # The revision prefix. This timestamp automatically generateed on deployment delete_prev_rev: true # Delete the previous asset release (save on S3 storage space) </pre> h3. The Amazon S3 authentication keys configuration file, @config/s3.yml@ This file provides the access credentials for your Amazon AWS S3 account. You can configure keys for all your environments (production, staging, testing, development). <pre> --- production: access_key_id: YOUR_ACCESS_KEY secret_access_key: YOUR_SECRET_ACCESS_KEY </pre> Note: If you are deploying your system to Heroku, you can configure your Amazon AWS S3 information with the environment variables S3_KEY and S3_SECRET instead of using a configuration file. h3. Set up an asset_host For each environment that you'd like to utilise the CloudFront CDN for you'll need to define the asset_host within the @config/environments/{ENVIRONMENT}.rb@ configuration file. As of June 2010 AWS supports HTTPS requests on the CloudFront CDN, so you no longer have to worry about switching servers. (Yay!) h4. Example config/environments/production.rb @asset_host@ snippet: Here we're targeting a CNAME domain with HTTP support. <pre> ActionController::Base.asset_host = Proc.new { |source, request| if request.ssl? "#{request.protocol}#{request.host_with_port}" else "#{request.protocol}assets.example.com" end } </pre> h3. Why do we have to use a revision-number/namespace/timestamp? Once an asset has been deployed to the Amazon Cloudfront edge servers it cannot be modified - the version exists until it expires (minimum of 24 hours). To get around this we need to prefix the asset path with a revision of some sort - in MorningGlory's case we use a timestamp. That way you can deploy many times during a 24 hour period and always have your latest revision available on your web site. h2. Dependencies h3. AWS S3 Required for uploading the assets to the Amazon Web Services S3 buckets. See "http://amazon.rubyforge.org/":http://amazon.rubyforge.org/ for more documentation on installation. h2. About the name Perhaps not what you'd expect; a "Morning Glory":http://en.wikipedia.org/wiki/Morning_Glory_cloud is a rare cloud formation observed by glider pilots in Australia (see my side project, "YourFlightLog.com for flight-logging software for paraglider and hang-glider pilots":http://www.yourflightlog.com, from which the Morning Glory plugin was originally extracted). Copyright (c) 2010 "@AdamBurmister":http://twitter.com/adamburmister/, released under the MIT license
Contentful API wrapper library exposing an ActiveRecord-like interface
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.
No description provided.