a stream of blocks
block stream data on criteria
Converts a duplex stream to block stream
A block stream file downloader using WebAssembly
Node-RED node for Crypto Storage with Block/Stream Ciphers
Node.js Streams, a user-land copy of the stream library from Node.js
Check if something is a Node.js stream
transform input into equally-sized blocks of output
Get a stream as a string, Buffer, ArrayBuffer or array
Return a transaction stream from a block stream
tar-stream is a streaming tar parser and generator and nothing else. It operates purely using streams which means you can easily extract/parse tarballs without ever hitting the file system.
Toggle the CLI cursor
Non-blocking stdout stream
destroy a stream if possible
Call a callback when a readable/writable/duplex stream has completed or failed.
Streaming, source-agnostic EventSource/Server-Sent Events parser
Get and validate the raw body of a readable stream.
A streaming way to send data to a Node.js Worker Thread
A stream that emits multiple other streams one after another.
Streaming data for JavaScript
A tiny, zero-dependency yet spec-compliant asynchronous iterator polyfill/ponyfill for ReadableStreams.
Merge multiple streams into a unified stream
An iteration of the Node.js core streams with a series of improvements
Returns the next buffer/object in a stream's readable queue
Filter IO streams with a block. Ruby's FilterInputStream.
Smokey Proc blocks for redirecting streams to everywhere
If you have multiple applications that need to perform actions as operations occur, `meeseeker` will allow your apps to each perform actions for specific operations without each app having to streaming the entire blockchain.
Pure Ruby analyzer of the GIF image format. Performs complete analysis of internal GIF block structure and streams it as an objects stream with metainformations of each block. Also can interpret internal structure by providing the simple object-like interface to base image file informations. Works above seekable IO streams, so allows processing of the big files too. Doesn't perform LZW decompressing, returns raw data for both color tables and images.
An ActiveFedora mixin that allows a datastream dissemination response to be streamed back in blocks without reading all content into memory.
linedump allows you to register blocks to consume live output streams, line by line.
couchdb_to_sql provides a DSL that allows complex CouchDB documents to be converted into rows in a RDBMS' table. The stream of events received from the CouchDB changes feed will trigger documents to be fed into a matching filter block and saved in the database.
Rubypp is a preprocessor that uses ruby to transform text. Syntax is similar to the C preprocessor, e.g.: #include <stdio.h> #ruby <<END a = 42 nil # the last value of the block gets inserted into the output stream END int main() { printf("The answer is: #{a}\n"); }
Couch Tap provides a DSL that allows complex CouchDB documents to be converted into rows in a RDBMS' table. The stream of events received from the CouchDB changes feed will trigger documents to be fed into a matching filter block and saved in the database.
Unified C-extension gem for zstd, lz4, and brotli compression. One-shot, streaming, IO wrappers, dictionary support. Fiber-friendly: cooperates with Fiber::Scheduler (async, falcon) so CPU-heavy compression never blocks the event loop. Ships vendored sources — no system libraries required.
BLAKE is a cryptographic hash function based on Dan Bernstein's ChaCha stream cipher, but a permuted copy of the input block, XORed with round constants, is added before each ChaCha round. Like SHA-2, there are two variants differing in the word size. ChaCha operates on a 4×4 array of words. BLAKE repeatedly combines an 8-word hash value with 16 message words, truncating the ChaCha result to obtain the next hash value. BLAKE-256 and BLAKE-224 use 32-bit words and produce digest sizes of 256 bits and 224 bits, respectively, while BLAKE-512 and BLAKE-384 use 64-bit words and produce digest sizes of 512 bits and 384 bits, respectively.
== DESCRIPTION: The RightScale AWS gems have been designed to provide a robust, fast, and secure interface to Amazon EC2, EBS, S3, SQS, SDB, and CloudFront. These gems have been used in production by RightScale since late 2006 and are being maintained to track enhancements made by Amazon. The RightScale AWS gems comprise: - RightAws::Ec2 -- interface to Amazon EC2 (Elastic Compute Cloud) and the associated EBS (Elastic Block Store) - RightAws::S3 and RightAws::S3Interface -- interface to Amazon S3 (Simple Storage Service) - RightAws::Sqs and RightAws::SqsInterface -- interface to first-generation Amazon SQS (Simple Queue Service) (API version 2007-05-01) - RightAws::SqsGen2 and RightAws::SqsGen2Interface -- interface to second-generation Amazon SQS (Simple Queue Service) (API version 2008-01-01) - RightAws::SdbInterface and RightAws::ActiveSdb -- interface to Amazon SDB (SimpleDB) - RightAws::AcfInterface -- interface to Amazon CloudFront, a content distribution service == FEATURES: - Full programmmatic access to EC2, EBS, S3, SQS, SDB, and CloudFront. - Complete error handling: all operations check for errors and report complete error information by raising an AwsError. - Persistent HTTP connections with robust network-level retry layer using RightHttpConnection). This includes socket timeouts and retries. - Robust HTTP-level retry layer. Certain (user-adjustable) HTTP errors returned by Amazon's services are classified as temporary errors. These errors are automaticallly retried using exponentially increasing intervals. The number of retries is user-configurable. - Fast REXML-based parsing of responses (as fast as a pure Ruby solution allows). - Uses libxml (if available) for faster response parsing. - Support for large S3 list operations. Buckets and key subfolders containing many (> 1000) keys are listed in entirety. Operations based on list (like bucket clear) work on arbitrary numbers of keys. - Support for streaming GETs from S3, and streaming PUTs to S3 if the data source is a file. - Support for single-threaded usage, multithreaded usage, as well as usage with multiple AWS accounts. - Support for both first- and second-generation SQS (API versions 2007-05-01 and 2008-01-01). These versions of SQS are not compatible. - Support for signature versions 0 and 1 on SQS, SDB, and EC2. - Interoperability with any cloud running Eucalyptus (http://eucalyptus.cs.ucsb.edu) - Test suite (requires AWS account to do "live" testing).
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.
No description provided.
No description provided.
No description provided.
No description provided.