Send mail via Node.js with ZeptoMail
WhatWG/W3C compliant EventSource client for Node.js and browsers
Twilio SendGrid NodeJS internal helpers
A terminating Apollo Link for Apollo Client that fetches a GraphQL multipart request if the GraphQL variables contain files (by default FileList, File, or Blob instances), or else fetches a regular GraphQL POST or GET request (depending on the config and
A light-weight module that brings Fetch API to node.js
Twilio SendGrid NodeJS mail service
Node.js Client for PostGrid Business API
provide geographic information about mail senders.
A native "Headers" class polyfill.
Simple to use, blazing fast and thoroughly tested websocket client and server for Node.js
SSH2 client and server modules written in pure JavaScript for node.js
A list of US ZIP codes and their geolocations
Official JS client for ClickHouse DB - common types
Official JS client for ClickHouse DB - Node.js implementation
Quick and dirty smtp server, that accepts handlers to process messages
A function to recursively extract files and their object paths within a value, replacing them with null in a deep clone without mutating the original value. FileList instances are treated as File instance arrays. Files are typically File and Blob instance
Connect to SMTP servers
Streaming, source-agnostic EventSource/Server-Sent Events parser
OCI Common module for NodeJS
Social Mail Web Client
Modern EventSource client for browsers and Node.js
Provides an API to compose mails using OS specific UI
AWS SDK for JavaScript Mailmanager Client for Node.js, Browser and React Native
OCI NodeJS client for WorkRequests
Mail client of the Union Station system.
A library for building RFC compliant Multipurpose Internet Mail Extensions (MIME) messages. It can be used to construct standardized MIME messages for use in client/server communications, such as Internet mail or HTTP multipart/form-data transactions.
SendGrid v3 Mail Send API Ruby Client that validates API request body using JSON Schema.
Wraps the deliver! method on ActionMailer to save the outgoing mail to a .eml file, which can be opened by most email clients. Also provides a mechanism for only sending to an approved list of email recipients, which is useful for ensuring your application doesn't send email outside of an organization.
This documentation describes your available CheckAPI REST services: Get your checkpoints and their details, check the permission of a customer's ID, take a look at your checkpoint's history - everything a checkpoint needs can be found here in one place. Please look at the descriptions in each service below. <div id="authorize-information-wrap"><h1>Authorize</h1><p>You can use this automated authentication to try out your activated methods - just click „Authorize“, enter CardAPI credentials and have a try! You received the CardAPI username and password via e-mail – credentials are different from your developer-portal credentials. Authentication is based on OAUTH2 (implicit grant flow) and needs to be implemented and called prior to using any API method. <b>CLIENT_ID</b><br>The client ID is pre-filled automatically according to the chosen application. You can find your available client IDs in the "Applications" - Area. <b>GRANT_TYPE</b><br>With grant_type=password you get an access-token and a refresh-token for your request. The received access token can be used for 10 minutes, there are two ways to renew it. Either you can send the same request again or you can use the grant_type=refresh_token. The refresh token needs to be used every 30 minutes and can provide new access tokens for 10 hours without using your credentials.</p></div>
= Biological Extensions to the InterMine Webservice Client Library This library is a set of extensions to the InterMine Webservices client, providing access for data in biological formats. It directly extends the InterMine classes, providing extra methods to the Query class. == Example Get all sequences for proteins on "h", "r", "eve", "bib" and "zen": require "rubygems" require "intermine/service" require "intermine/bio" s = Service.new("www.flymine.org/query") puts s.query("Gene").select("proteins").where(:symbol => %w{h r eve bib zen}).fasta Process the locations of these genes one at a time: s.query.select("Gene").where(:symbol => %w{h r eve bib zen}).bed do |line| process line end == Who is this for? InterMine data warehouses are typically constructed to hold Biological data, and as this library facilitates programmatic access to these data, this install is primarily aimed at bioinformaticians. In particular, users of the following services may find it especially useful: * FlyMine (http://www.flymine.org/query) * YeastMine (http://yeastmine.yeastgenome.org/yeastmine) * RatMine (http://ratmine.mcw.edu/ratmine) * modMine (http://intermine.modencode.org/release-23) * metabolicMine (http://www.metabolicmine.org/beta) These extensions are aimed at bioinformaticians looking to integrate these sources of data into other workflows. For details on constructing queries, see the intermine documentation. == Support Support is available on our development mailing list: dev@intermine.org == License This code is Open Source under the LGPL. Source code for all InterMine code can be checked out from svn://subversion.flymine.org/flymine
= Webservice Client Library for InterMine Data-Warehouses This library provides an interface to the InterMine webservices API. It makes construction and execution of queries more straightforward, safe and convenient, and allows for results to be used directly in Ruby code. As well as traditional row based access, the library provides an object-orientated record result format (similar to ActiveRecords), and allows for fast, memory efficient iteration of result sets. == Example Get all protein domains associated with a set of genes and print their names: require "intermine/service" Service.new("www.flymine.org/query"). new_query("Pathway") select(:name). where("genes.symbol" => ["zen", "hox", "h", "bib"]). each_row { |row| puts row[:name]} == Who is this for? InterMine data warehouses are typically constructed to hold Biological data, and as this library facilitates programmatic access to these data, this install is primarily aimed at bioinformaticians. In particular, users of the following services may find it especially useful: * FlyMine (http://www.flymine.org/query) * YeastMine (http://yeastmine.yeastgenome.org/yeastmine) * RatMine (http://ratmine.mcw.edu/ratmine) * modMine (http://intermine.modencode.org/release-23) * metabolicMine (http://www.metabolicmine.org/beta) == How to use this library: We have tried to construct an interface to this library that does not require you to learn an entirely new set of concepts. As such, as well as the underlying methods that are common to all libraries, there is an additional set of aliases and sugar methods that emulate the DSL style of SQL: === SQL style service = Service.new("www.flymine.org/query") service.model. table("Gene"). select("*", "pathways.*"). where(:symbol => "zen"). order_by(:symbol). outerjoin(:pathways). each_row do |r| puts r end === Common InterMine interface service = Service.new("www.flymine.org/query") query = service.new_query("Gene") query.add_views("*", "pathways.*") query.add_constraint("symbol", "=", "zen") query.add_sort_order(:symbol) query.add_join(:pathways) query.each_row do |r| puts r end For more details, see the accompanying documentation and the unit tests for interface examples. Further documentation is available at www.intermine.org. == Support Support is available on our development mailing list: dev@intermine.org == License This code is Open Source under the LGPL. Source code for this gem can be checked out from https://github.com/intermine/intermine-ws-ruby
Log2json lets you read, filter and send logs as JSON objects via Unix pipes. It is inspired by Logstash, and is meant to be compatible with it at the JSON event/record level so that it can easily work with Kibana. Reading logs is done via a shell script(eg, `tail`) running in its own process. You then configure(see the `syslog2json` or the `nginxlog2json` script for examples) and run your filters in Ruby using the `Log2Json` module and its contained helper classes. `Log2Json` reads from stdin the logs(one log record per line), parses the log lines into JSON records, and then serializes and writes the records to stdout, which then can be piped to another process for processing or sending it to somewhere else. Currently, Log2json ships with a `tail-log` script that can be run as the input process. It's the same as using the Linux `tail` utility with the `-v -F` options except that it also tracks the positions(as the numbers of lines read from the beginning of the files) in a few files in the file system so that if the input process is interrupted, it can continue reading from where it left off next time if the files had been followed. This feature is similar to the sincedb feature in Logstash's file input. Note: If you don't need the tracking feature(ie, you are fine with always tailling from the end of file with `-v -F -n0`), then you can just use the `tail` utility that comes with your Linux distribution.(Or more specifically, the `tail` from the GNU coreutils). Other versions of the `tail` utility may also work, but are not tested. The input protocol expected by Log2json is very simple and documented in the source code. ** The `tail-log` script uses a patched version of `tail` from the GNU coreutils package. A binary of the `tail` utility compiled for Ubuntu 12.04 LTS is included with the Log2json gem. If the binary doesn't work for your distribution, then you'll need to get GNU coreutils-8.13, apply the patch(it can be found in the src/ directory of the installed gem), and then replace the bin/tail binary in the directory of the installed gem with your version of the binary. ** P.S. If you know of a way to configure and compile ONLY the tail program in coreutils, please let me know! The reason I'm not building tail post gem installation is that it takes too long to configure && make because that actually builds every utilties in coreutils. For shipping logs to Redis, there's the `lines2redis` script that can be used as the output process in the pipe. For shipping logs from Redis to ElasticSearch, Log2json provides a `redis2es` script. Finally here's an example of Log2json in action: From a client machine: tail-log /var/log/{sys,mail}log /var/log/{kern,auth}.log | syslog2json | queue=jsonlogs \ flush_size=20 \ flush_interval=30 \ lines2redis host.to.redis.server 6379 0 # use redis DB 0 On the Redis server: redis_queue=jsonlogs redis2es host.to.es.server Resources that help writing log2json filters: - look at log2json.rb source and example filters - http://grokdebug.herokuapp.com/ - http://www.ruby-doc.org/stdlib-1.9.3/libdoc/date/rdoc/DateTime.html#method-i-strftime
Log2json lets you read, filter and send logs as JSON objects via Unix pipes. It is inspired by Logstash, and is meant to be compatible with it at the JSON event/record level so that it can easily work with Kibana. Reading logs is done via a shell script(eg, `tail`) running in its own process. You then configure(see the `syslog2json` or the `nginxlog2json` script for examples) and run your filters in Ruby using the `Log2Json` module and its contained helper classes. `Log2Json` reads from stdin the logs(one log record per line), parses the log lines into JSON records, and then serializes and writes the records to stdout, which then can be piped to another process for processing or sending it to somewhere else. Currently, Log2json ships with a `tail-log` script that can be run as the input process. It's the same as using the Linux `tail` utility with the `-v -F` options except that it also tracks the positions(as the numbers of lines read from the beginning of the files) in a few files in the file system so that if the input process is interrupted, it can continue reading from where it left off next time if the files had been followed. This feature is similar to the sincedb feature in Logstash's file input. Note: If you don't need the tracking feature(ie, you are fine with always tailling from the end of file with `-v -F -n0`), then you can just use the `tail` utility that comes with your Linux distribution.(Or more specifically, the `tail` from the GNU coreutils). Other versions of the `tail` utility may also work, but are not tested. The input protocol expected by Log2json is very simple and documented in the source code. ** The `tail-log` script uses a patched version of `tail` from the GNU coreutils package. A binary of the `tail` utility compiled for Ubuntu 12.04 LTS is included with the Log2json gem. If the binary doesn't work for your distribution, then you'll need to get GNU coreutils-8.13, apply the patch(it can be found in the src/ directory of the installed gem), and then replace the bin/tail binary in the directory of the installed gem with your version of the binary. ** P.S. If you know of a way to configure and compile ONLY the tail program in coreutils, please let me know! The reason I'm not building tail post gem installation is that it takes too long to configure && make because that actually builds every utilties in coreutils. For shipping logs to Redis, there's the `lines2redis` script that can be used as the output process in the pipe. For shipping logs from Redis to ElasticSearch, Log2json provides a `redis2es` script. Finally here's an example of Log2json in action: From a client machine: tail-log /var/log/{sys,mail}log /var/log/{kern,auth}.log | syslog2json | queue=jsonlogs \ flush_size=20 \ flush_interval=30 \ lines2redis host.to.redis.server 6379 0 # use redis DB 0 On the Redis server: redis_queue=jsonlogs redis2es host.to.es.server Resources that help writing log2json filters: - look at log2json.rb source and example filters - http://grokdebug.herokuapp.com/ - http://www.ruby-doc.org/stdlib-1.9.3/libdoc/date/rdoc/DateTime.html#method-i-strftime
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